Posts Tagged ‘bronchospasm’

Generic Name
Cromolyn (KROE-inuh-lin) [9
Brand Names
Crolom    Intal
Gastrocrom    Opticrom
The information in this profile also applies to the following drugs:
Nedocromil
Alocril    Tilade
Type of Drug
Allergy preventive and antiastk)m-aft_.
Prescribed For
Prevention of severe allergic reactions, including asthma, runny nose, and mastocytosis; also prescribed for food allergies, eczema, dermatitis, chronic itching, and hay fever. It may be used to treat and prevent chronic inflammatory bowel disease. The eyedrops are used to treat conjunctivitis (pinkeye) and other eye irritations.
General Information
Unlike antihistamines, which work against histamine that has been released into the system, cromolyn sodium prevents allergy, asthma, and other conditions by stabilizing mast cells, a key component in any allergic reaction because they release histamine. Cromolyn prevents the release of histamine and other chemicals from mast cells. The drug works only in the areas to which it is applied; only 7-8% of an inhaled dose and 1 % of a swallowed capsule is absorbed into the blood. Even the oral capsules, which one would normally expect to be absorbed into the blood, treat only gastrointestinal -tract allergies. Cromolyn products must be used on a regular basis to be effective in reducing the frequency and intensity of allergic reactions.
Cautions and Warnings
Do not take cromolyn if you are allergic or sensitive to any of its ingredients. Rarely, people have experienced severe allergic attacks after taking cromolyn.
cromolyn should never be used to treat an acute allergy attack. It is intended only to prevent or reduce the number of allergic attacks and their intensity. Once the proper dosage level has been established for you, reducing that level may result in a recurrence of attacks.
People with kidney or liver disease require reduced dosage.
Cough or bronchial spasm may occasionally occur after the inhalation of a cromolyn dose. Severe bronchospasm is rare.
cromolyn aerosol should be used with caution in people with abnormal heart rhythm or diseased coronary blood vessels because of a possible reaction to the propellants used in the product.
Possible Side Effects
V Most common: rash and itching. Headache and diarrhea (for capsules). Watery, itchy, dry, or puffy eyes; and iztjes (for eyedrops). Most capsule and eyedrop side effects are mkw and may be attributable to the underlying condition; a variety have been reported but cannot be tied conclusively to the drug.
V Less common: local irritation, including nasal stinging, sneezing, tearing, cough, and stuffy nose; urinary difficulty or frequency; dizziness; headache; joint swelling; muscle Possible Side Effects (continued)
pain-, a bad taste in the mouth; sore throat-, nosebleeds’, abdominal pain-, and nausea.
♦ Rare: severe drug reactions, consisting of coughing, difficulty in swallowing, hives, itching, breathing difficulties, or swelling of the eyelids, lips, or face. Contact your doctor if you experience any side effect not listed above.
Drug Interactions None known.
Food Interactions
Inhaled or swallowed cromolyn products should not be mixed with any food, juice, or milk. The nasal and eye products may be taken without regard to food or meals.
Usual Dose
Inhaled Capsules or Solution
Adult and Child (age 2 and over): starting close-20 mg 4 times a day. Children under age 5 may inhale cromolyn powder if their allergies are severe. The solution must be given with a power-operated nebulizer and face mask. Handheld nebulizers are not adequate. To prevent exercise asthma, 20 mg may be inhaled up to 1 hour before exercise.
Aerosol
Adult and Child (age 5 and over): up to 2 sprays 4 times a day, spaced equally throughout the day. To prevent exercise asthma, 2 puffs may be inhaled up to 1 hour before exercise.
Nasal Solution
Adult and Child (age 6 and over): 1 spray in each nostril 3-6 times a day at regular intervals. First blow your nose, and then inhale the spray.
Oral Capsules
MAI and Child (age 12 and over): 2 dissolved capsules 4 times a day taken a half hour before meals and at bedtime.
Child (age 2-12): 1 dissolved capsule (100 mg) 4 times a day a half hour before meals and at bedtime. Dosage may be increased to about 13-18 mg per lb. of body weight in 4 equal doses.
Child (under age 2): about 10 mg per lb, of body weight a day divided into 4 equal doses. This product is recommended in infants
and young children only if absolutely necessary.
Eyedrops
Adult and Child (age 4 and over): 1-2 drops in each eye 4-6 times
a day at regular intervals. Overdosage
No action is necessary other than medical observation. Call your local poison control center or a hospital emergency room for more information. ALWAYS bring the prescription bottle or container.
Special Information
Cromolyn is taken to prevent or minimize severe allergic reactions. It is imperative that you take cromolyn products on a regular basis to provide equal protection throughout the day.
If you are taking cromolyn to prevent seasonal allergies, it is essential that you start taking the medication before you come into contact with the cause of the allergy and that you continue treatment while you are exposed to it.
Cromolyn oral capsules should be opened and their contents mixed with about 4 oz. of hot water. Stir until the powder completely dissolves and the solution is completely clear, then fill the rest of the glass with cold water. Drink the entire contents of the glass. Do not mix the solution with food, juice, or milk.
Do not wear soft contact lenses while using cromolyn eyedrops. The lenses may be replaced a few hours after you stop taking the drug. To prevent contamination, do not touch the applicator tip to any surface including the eyes or fingers.
Call your doctor if you develop wheezing, coughing, a severe drug reaction (see “Possible Side Effects”), rash, or any bothersome or persistent side effect.
Call your doctor if your symptoms do not improve or if they worsen.
If you forget to administer a dose, do so as soon as you remember and sqa(ZRMBmn-maining daily dosage evenly throughout ‘i!M day. Do not take a double dose.
Special Populations
PregnancylBreast-feeding. In animal studies, very large dosages of cromolyn administered by vein have affected the fetus, though no birth defects were reported. When this drug is considered crucial by your doctor, its potential benefits must be carefully weighed
against its risks.
It is not known if cromolyn passes into breast milk. Nursing
mothers who must use cromolyn should use infant formula. Seniors: Older adults with reduced kidney or liver function may require lower dosages.

Generic Name
Cyclobenzaprine (sye-cloe-BEN-zuh-prene) M
Brand Names Amrix
Type of Drug
Skeletal muscle relaxant.
Flexeril
Prescribed For
Serious muscle spasm and acute muscle pain; also used to treat fibrositis (muscular rheumatism).
General Information
Cyclobenzoprine hydrochloride is used to treat severe muscle spasms; it is prescribed as part of a coordinated program of rest, physical therapy, and other measures.
Cautions and Warnings
Do not take cyclobenzaprine if you are allergic or sensitive to any of its ingredients.
This drug should not be taken for several weeks following a heart attack or by people with abnormal heart rhythms, heart failure, heart block (disruption of the electrical impulses that control heart rate), or hyperthyroidism (overactive thyroid gland).
Cyclobenzaprine should be avoided by people with urinary retention, glaucoma, UC 1ntlreased eye pressure.
W)t arug may increase the chances of cavities or gum disease. Cyclobenzaprine is intended only for short-term use of 2-3 weeks.
Cyclobenzaprine is chemically similar to tricyclic antidepressants and may produce some of the more serious side effects associated with those drugs. Abruptly stopping cyclobenzaprine may cause nausea, headache, and feelings of ill health; this is not a sign of addiction.
Drug Interactions
•    The effects of alcohol, sedatives, or other nervous system depressants may be increased by cyclobenzaprine.
•    Cyclobenzaprine may increase some side effects of atropine, ipratropium, and other anticholinergic drugs.
•    The combination of cyclobenzaprine and a monoamine oxidase inhibitor antidepressant may produce very high fever, convulsions, and possibly death. Do not take these drugs within 14 days of each other.
•    Cyclobenzaprine may increase the effects of haloperidol, loxapine, molindone, pimozide, anticoagulant (blood-thinning) drugs, anticonvulsants, thyroid hormones, antithyroid drugs, phenothiazines, thioxanthenes, and nasal decongestants such as naphazoline, oxymetazoline, phenylephrine, and xylometazoline.
•    Barbiturates and carbamazepine may counteract the effects of cyclobenzaprine.
•    Fluoxetine, ranitidine, cimetidine, methylphenidate, estramustine, estrogens, and contraceptive drugs may increase the effects and side effects of cyclobenzaprine.
•    Cyclobenzaprine may counteract the effects of cto(\idine, guanadrel, and guanethidine.
Food Interactions  None known.
Usual Dose
Adult and Child (age 15 and over): 5-10 mg 3 times a day. Child (under age 15): not recommended.
above.    drowsiness, and dizziness.
le weakness. fatigue, nausea, consti-
ch, unpleasant taste, blurred vision,
ess, and confusion.
cts can occur in almost any part of the doctor if you experience any side ef- e.
Possible Side Effects
♦    Most common: dry
♦    Less common: muscl
upset stomach
nervousness, • Rare: Rare side effects
body. Contact your
fect not listed Overdosage
Cyclobenzaprine overdose may cause confusion, loss of con- centration, hallucinations, agitation, overactive reflexes, fever or vomiting, rigid muscles, and other side effects of the drug. It may also cause drowsiness, low body temperature, rapid or irregular heartbeat and other kinds of abnormal heart rhythms, heart failure, dilated pupils, convulsions, very low blood pressure, stupor, coma, and sweating. Overdose victims must be taken to a hospital emergency room. ALWAYS bring the prescription bottle or container.
Special Information
Cyclobenzaprine causes drowsiness, dizziness, or blurred vision in more than 40% of people who take it, which may interfere with the ability to perform complex tasks like driving or operating equipment. Avoid alcohol, sedatives, and other nervous system depressants because they can enhance sedative effects of cyclobenzaprine.
Call your doctor if you develop rash; hives; itching; urinary difficulties; clumsiness; confusion; depression; convulsions; difficulty breathing; irregular heart rate; chest pain; fever; yellowing of the skin or whites of the eyes; swelling of the face, lips, or tongue; or any other persistent or bothersome side effect.
If you forget a dose of cyclobenzaprine, take it as soon as you remember. If you take cyclobenzaprine once a day and it is almost time for your next dose, skip the one you forgot and continue with your regular schedule. If you take cyclobenzaprine twice a day and it is almost time for your next dose, take 1 dose as soon as you remember, another in 5 or 6 hours, and then go back to your regular schedule. If you take cyclobenzaprine 3 times a day and it is almost time for your next dose, take 1 dose as soon as you remember, another in 3 or 4 hours, and then go back to your regular schedule. Never take a double dose.
Special Populations
Pregnancy/Breast-feeding: -The safety of cyclobenzaprine in ‘jftg)T)1 women has not been established. Cyclobenzaprine should only be used if the potential benefits outweigh the risks.
It is not known if cyclobenzaprine passes into breast milk, but antidepressants with a similar chemical structure do pass into breast milk. Nursing mothers who must take this drug should consider using infant formula.
Seniors: Seniors are more likely to be sensitive to the effects of cyclobenzaprine. Use of Amrix in particular is not recommended
in the elderly.

Generic Name
Cyclosporine (sye-kim-SPQR-in)
Brand Names
Gengraf Neoral
Type of Drug  Immunosuppressant.
Restasis Ophthalmic Emulsion Sandimmune
Prescribed For
Kidney, heart, or liver transplantation; also used for bone-marrow, heart-lung, and pancreas transplants; also prescribed for patchy hair loss, rheumatoid arthritis, aplastic anemia, atopic dermatitis, Beh~et’s disease, cirrhosis of the liver, ulcerative colitis, dermatomyositis, eye symptoms of Graves’ disease, insulin-dependent diabetes, kidney inflammation, multiple sclerosis (MS), severe psoriasis and psoriasis-related arthritis, myasthenia gravis, pemphigus, sarcoidosis of the lung, and pyoderma gangrenosum. Cyclosporine eye emulsion is prescribed for dry eyes.
General Information
Cyclosporine is used to prevent rejection of transplanted organs. It works by blocking the activity of T-cells, which protect the body against invading microorganisms or foreign substances. Cyclosporine also prevents the production of a substance known as interieukin-11 that activates T-cells. In 1995, a new form of Cyclosporine called Neoral, a microemulsion, was introduced by its manufacturer. This form is as safe and effective as the original product but is better absorbed into the bloodstream and requires less medication to achieve the same effect. Cyclosporine eye emulsion treats dry eye caUV ,d by inflammation of the cornea and tissue kWA1 Covers the white part of the eye. It reduces inflammation and allows tears to form and flow.
Cautions and Warnings
Cyclosporine should be prescribed only by doctors experienced in immunosuppressive therapy and the care of organ-transplant patients. Sandimmune is always used with corticosteroid drugs like prednisone. Neoral and Gengraf have been used with a corticosteroid and azathioprine, an immune suppressant. When combined with other immune suppressants, cyclosporine must be used with great care because oversuppression of the immune system may lead to lymphoma or extreme susceptibility to infection.
Sandimmune, the original oral form of cyclosporine, is poorly absorbed into the bloodstream; it must be taken in a dosage that is 3 times greater than the injectable dosage. People taking this drug by mouth for a long period of time should have their blood checked for cyclosporine levels so that the dosage may be adjusted if necessary. Since more of both Gengraf and Neoral is absorbed into the blood you will probably need less of it. Do not substitute Neoral or Gengraf for Sandimmune; they are not equivalent to each other.
cyclosporine causes kidney toxicosis (kidney poisoning)—different from transplant rejection—in 25-35% of people taking it to prevent organ rejection. Mild symptoms usually start after about 2 or 3 months of treatment. Reducing drug dosage may control this effect. In one study, clonidine skin patches used before and after surgery decreased toxic risks to the kidney.
Liver toxicosis is seen in about 5% of transplant patients taking cyclosporine. It usually appears in the first month and may be controlled by reducing dosage.
Convulsions may develop, especially in people also taking high dosages of corticosteroids. Other nervous system side effects are listed below (see “Possible Side Effects”).
In one study, cyclosporine increased cholesterol and other blood-fat levels. It is not known how this affects people who take the drug on a long-term basis.
There is conflicting information on how cyclosporine affects blood sugar. Kidney-transplant patients taking the drug have developed insulin-dependent diabetes, which is related to the dosage of cyclosporine and reverses itself when you stop taking the drug. On the other hand, cyclosporine preserves the function of insuli(Nproducing cells in the pancreas and has allowed many insulin-dependent diabetics t0 11ve Without taking insulin.
UVb vaccines should not be given to people taking cyclosporine.
Do not use cyclosporine eye drops if you have an eye infection.
Small amounts of cyclosporine eye emulsion may be absorbed
into the bloodstream, but the risk of body-wide side effects is small.
Possible Side Effects
V Most common: Cyclosporine is known to be toxic to the kidneys. Your doctor will carefully monitor your kidney function while you are taking it. Other side effects are high blood pressure, increased hair growth, infection, and enlargement of the gums. Lymphoma may develop in people whose immune systems are excessively suppressed.
V Less common: tremors, cramps, acne, brittle hair or fingernails, convulsions, headache, confusion, diarrhea, nausea or vomiting, tingling in the hands or feet, facial flushing, reduced white-blood-cell and platelet counts, sinus inflammation, swollen and painful male breasts, drug allergy (symptoms include rash, itching, hives, and breathing difficulties), conjunctivitis (pinkeye), fluid retention and swelling, ringing or buzzing in the ears, hearing loss, high blood sugar, and muscle pain.
♦    Rare: blood in the urine, heart attack, itching, anxiety. depression, lethargy, weakness, mouth sores, difficulty swallowing, intestinal bleeding, constipation, pancreas inflammation, night sweats, chest pain, joint pain, visual disturbances, and weight loss. Contact your doctor if you experience any side effect not listed above.
Cyclosporine Eye Drops
♦    Most common: burning sensation.
✓    Less common: red-eye, discharge from the eye, overflow of tears, eye pain, a feeling of something in the eye, itching, stinging, and visual disturbances, usually blurring.
Drug Interactions
•    Cyclosporine should be used carefully with other kidney-toxic drugs including nonsteroidal anti-inflammatory drugs (NSAIDs) such as ibuprofen, naproxen, ac\d s0indac; ciprofloxacin; gentamicinjQtswnydin; vancomycin; trimethoprimsUM,M1~0oxazole; melphalan; amphotericin B; ketoconazole; azapropazon; colchicine; diclofenac; cimetidine; ranitidine; and tacrolimus.
•    Drugs that may increase blood levels of cyclosporine include contraceptive drugs; amiodarone; diltiazem; nicardipine; verapamil; fluconazole; itraconazole; ketoconazole; azithromycin; clarithromycin; erythromycin; quinapristin and dalfopristin; methylprednisolone—this combination also causes convulsions; allopurinol; bromocriptine; colchicine; imatinb-, danazol; and metoclopramide. With ketoconazole, your doctor may use this drug interaction to reduce your cyclosporine
dosage.
•    Drugs that decrease cyclosporine levels and may lead to organ rejection include octreotide, orlistat, sulfinpyrazone, ticlopidine, terbinafine, nafcillin, rifampin, carbamazepine, phenobarbital, phenytoin, and St. John’s wort. Rifabutin may also decrease concentrations of cyclosporine and should be used with caution.
•    Cyclosporine interferes with the body’s ability to clear digoxin, prednisolone, and statin drugs. People taking any of these drugs who start on cyclosporine must have their drug dosage reduced.
•    Combining cyclosporine and nifedipine may lead to gum overgrowth.
•    Cyclosporine increases blood potassium. Excessive blood-potassium levels may be reached if cyclosporine is taken with enalapril, lisinopril, a potassium-sparing diuretic such as spironolactone, salt substitutes, potassium supplements, or high potassium—low sodium—food.
•    Psoriasis patients using other immunosuppressant drugs or receiving radiation therapy should not take cyclosporine due to the danger of infection.
•    Cyclosporine prevents the normal body response to live vaccines. People taking cyclosporine should be vaccinated only after specific discussions with their doctors. You must wait for a period of several months to several years after stopping the medication before vaccination may be considered again.
Food Interactions
Cyclosporine may be taken with fMd 1111 upsets your stomach. For optimal QftlaWr~T)ess, avoid eating a fatty meal within half an hour of taking Neoral.
You may mix Neoral in a glass—not a paper or plastic cup—with room-temperature orange or apple juice or chocolate milk to make it taste better. Do not drink grapefruit juice because it speeds the breakdown of cyclosporine. Drink immediately after mixing, then put more juice or chocolate milk in the glass and drink it to be sure that the entire dose has been taken. Neoral should not be taken with unflavored milk because it may be unpalatable.
Usual Dose
In general, the usual dosage of Neoral is lower than Sandimmune, but dosage must be individualized for you by your doctor. Do not substitute one brand for the other.
Sandimmune
Adult: The usual oral dosage of cyclosporine is 6-8 mg per lb, of body weight a day. The first dose, typically 15 mg per lb., is given 4-12 hours before the transplant operation or immediately after surgery. This dosage is slowly reduced to 11-22 mg per lb. of body weight.
Child: Similar dosages are usually prescribed, but because children tend to release the drug from their bodies faster than adults, larger and more frequent doses may be needed.
Neoral and Gengraf
Adult: In newly transplanted patients, the usual oral dosage of Neoral is 3-4 mg per lb. of body weight a day divided into 2 doses. The initial oral dose of Gengraf is the same as for Sandimmune. The first dose is given 4-12 hours before the transplant operation or immediately after surgery. This dosage is continued after the operation for 1-2 weeks and then slowly reduced to maintain a target amount of cyclosporine in the body. Dosage may vary according to the organ transplanted.
In people being treated for rheumatoid arthritis or psoriasis, the initial dose of Neoral and Gengraf is 1.13 mg per lb. of body weight increased gradually to a maximum of 1.8 mg per lb. of body weight.
Child: Similar dosages are usually prescribed but, because children tend to release the drug from their bodies faster than adults, larger and more frequent doses may be needed.
cyclosporine Eye Emulsion
One drop in the affected eye(s) every Q hours. Before using, rotate and turn the vial Over a few times until you have a uniform, lft8, opaque fluid inside. If you use artificial tears, allow 15 minutes between products. Discard the open vial immediately after use.
Overdosage
Overdose victims may be expected to develop side effects and symptoms of extreme immunosuppression. Induce vomiting with ipecac syrup—available at any pharmacy—which is recommended up to 2 hours after the overdose was taken. Call your doctor or local poison control center before inducing vomiting. If you must go to a hospital emergency room, ALWAYS bring the prescription
bottle or container.
Special Information
Call your doctor at the first sign of fever; sore throat; tiredness’, weakness’, nervousness; unusual bleeding or bruising; tender or swollen gums; convulsions; irregular heartbeat; confusion; numbness or tingling of your hands, feet, or lips; breathing difficulties; severe stomach pain with nausea; or blood in the urine. Other side effects such as shaking or trembling of the hands, increased hair growth, acne, headache, leg cramps, nausea, or vomiting are less serious but should be brought to your doctor’s attention, particularly if they are bothersome or persistent.
Maintain good dental hygiene while taking cyclosporine and use extra care when brushing and flossing because the drug increases your risk of oral infection. cyclosporine may also cause swollen gums. See your dentist regularly.
Continue taking your medication as long as your doctor prescribes it. Do not stop taking it without your doctor’s knowledge. If you cannot take one of the oral forms, cyclosporine can be given by injection.
Do not keep either brand of the oral liquid in the refrigerator. After the bottle is opened, use the medication within 2 months. At temperatures below 68°F, Neoral can form a gel and a light sediment can form in Sandimmune. These do not affect the potency of either product. They can still be used and are effective.
If you forget a dose, take it as soon as you remember if it is within 12 hours of your regular dose. If not, skip the dose you forgot and continue with your regular schedule. Do not take a double dose.
For cyclosporine eye emulsion, each small plastic container is meant to be used once and then thrown away along with any remaining medication. Do not allow the tip of the disposable vial to touch 0Z QyE or any surface, as this may contaminate the emulsion.
Patients with decreased tear production typically should not wear contact lenses. But those that do must remove them before using cyclosporine eye emulsion. Lenses may be reinserted 15 minutes after using the medicine.
Special Populations
Pregnancy/Breast-feeding: In animal studies cyclosporine damages the fetus. Though a small number of pregnant women have taken cyclosporine without major problems, it is recommended that pregnant women avoid cyclosporine. When this drug is considered crucial by your doctor, its potential benefits must be carefully weighed against its risks.
cyclosporine passes into breast milk. Nursing mothers who must take cyclosporine should use infant formula.
Seniors: Due to decreased kidney function, seniors are more susceptible to kidney toxicosis.

Generic Name
Darunavir (dah-ROON-uh-vere)
Brand Name Prezista
Type of Drug  Protease inhibitor.
Prescribed For
Advanced human immunodeficiency virus (HIV) infection that has not responded to other protease inhibitors.
General Information
Part of the multidrug “cocktail” responsible for important gains in the fight against acquired immunodefiency syndrome (AIDS), darunavir is a member of a group of anti-HIV drugs called protease inhibitors. These drugs work at the end of the HIV reproduction process, whet) proteins are “cut” into strands of exactly tht VbYrect size to duplicate HIV. An enzyme known as protease cuts the protein. Protease inhibitors prevent the mature HIV virus from being formed by inhibiting this cutting process. Proteins that are cut to the wrong length or that remain uncut are inactive.
Darunavir must be taken with a low dose of ritonavir, another protease inhibitor, to extend the action of darunavir in the body.
Without ritonavii, darunavir would be eliminated too rapidly to be effective. Darunavir must also be accompanied by at least 2 other AIDS antivirals. Protease inhibitors revolutionized HIV treatment because, when taken in combination, they reduce the amount of HIV virus in the bloodstream to levels that are often undetectable by current methods—CD4 (immune system) cell counts and viral load (amount of virus in the blood) measurements. Multiple-drug therapy has transformed HIV from a fatal disease to a manageable chronic illness.
Cautions and Warnings
Do not take darunavir if you are allergic or sensitive to any of its ingredients, to sulfa drugs, or to ritonavir.
Darunavir can cause a severe or life-threatening rash.
If a serious toxic reaction occurs while taking darunavir, you should stop the drug until your doctor can determine the cause or until the reaction resolves itself. Then treatment can be resumed.
This drug is primarly broken down in the liver. Use caution if you have moderate to severe liver disease.
Darunavir may raise your blood sugar, worsen your diabetes, or bring out latent diabetes. People with diabetes who take darunavir may need the dosage of their antidiabetes medication adjusted.
People with hemophilia may be more likely to bleed while taking a protease inhibitor.
The HIV virus may become resistant to darunavir or other protease inhibitors. For this reason it is essential that you take darunavir exactly according to your doctor’s directions.
Protease inhibitors can cause body fat redistribution, including increased fat deposits in the upper back and neck, breast and around the back, chest, and stomach. Fat may be lost from the legs, arms, and face. Some people with HIV and a history of an opportunistic infection may develop signs and symptoms of the infection soon after anti-HIV treatment is started. This is called immune reconstitution syndrome.
Darunavir is involved in many drug interactions. Check with your doctor before adding angt ng new to your treatment program.
Possible Side Effects
V Most common: diarrhea, nausea, headache, and common cold symptoms.
of constipation.
Drug Interactions
•    Do not take any of the following medicines with darunavir + ritonavir: astemizole, terfenidine, ergot-based drugs for migraine headache, cisapride, pimozide, midazolam, or triazolam. Mixing these drugs with darunavir + ritonavir can result in very high blood levels and serious side effects.
•    Carbamazepine, phenobarbital, phenytoin, rifampin, and St. John’s wort can substantially reduce blood levels of darunavir. Do not mix these medicines.
•    Lopinavir + ritonavir and saquinavir can significantly reduce blood levels of darunavir. Darunavir significantly increases blood levels of lopinavir + ritonavir. Do not mix these drugs.
•    Mixing darunavir with indinavir can increase blood levels of both drugs.
•    Darunavir + ritonavir does not appear to affect blood levels of atazanavir, nor does atazanavir appear to affect blood levels of darunavir + ritonavir. It may be possible to combine these two protease inhibitors.
•    Taking darunavir with tenofovir can increase blood levels of both drugs. These drugs can be combined with no dose adjustments, though it is necessary to watch carefully for kidney damage related to tenofovir.
•    Darunavir can increase blood levels of efavirenz and efavirenz reduces darunavir levels. These medicines should be mixed with caution.
•    Darunavir increases nevirapine blood levels but the raMUNnation can be taken with no dose a-Syoslment.
•    If didanosine (SWpat 01 a darunavir + ritonavir treatment pro~ram, it must be taken on an empty stomach, 1 hour before or 2 hours after darunavir + ritonavir, which should be taken with food.
•    Darunavir increases blood levels of clarithromycin, itraconazole, and ketoconazole. Daily dosage of itraconazole and ketoconazole should not exceed 200 mg. No clarithromycin
Possible Side Effects (continued)
♦    Less common:    abdominalinal pain, and
♦    Rare: Rare side effects can occur in almost any part
body. Contact your doctor if you
ou experience any side ef
fect not listed above.
adjustment is necessary in people with normal kidney function.    the Darunavir + ritonavir may reduce vonconazole levels in t e
blood. Do not mix these medicines.
•    Darunavir + ritonavir can increase rifabutin levels in the blood-
stream. Rifabutin can also reduce darunavir levels in the
bloodstream. If rifabutin is mixed with darunavir + ritonavir,
the rifabutin dose should be 150 mg every other day.
•    Caution should be exercised when combining darunavir + ritonavir with calcium channel blockers such as felodipine, nifedipine, and nicardipine.
•    Darunavir increases blood levels of the heart antiarrhythmic drugs bepridil, lidocaine, and quinidine. These drugs should be used together with caution and only in situations where blood levels of the heart drugs can be monitored regularly.
•    Darunavir + ritonavir can reduce blood levels of warfarin. It is necessary to monitor warfarin levels while taking this combination.
•    Darunavir + ritonavir can raise blood levels of the tricyclic antidepressant desipramine and the tetracyclic antidepressant trazodone. Dosage reduction is recommended.
•    Darunavir + ritonavir may reduce blood levels of the SSRI antidepressants sertraline and paroxetine. SSRI doses may have to be increased to account for this effect.
•    Darunavir + ritonavir can drastically increase the blood levels of some statin-type cholesterol-lowering drugs, substantially increasing the risk of statin side effects. Simvastatin, pravastatin, and lovastatin should not be mixed with darunavir + ritonavir. It is also possible to take darunavir + ritonavir with atorvastatin, although it can increase the level of atorvastatin in the bloodstream. If atorvastatin is prescribed, it is best to begin with 10 mg a day and slowly increase the dose as necessary. Little is known about how darunavir + ritonavir affects rosuvastatin. The safest statin to take with darunavir + ritonavir is fluvastak”.
•    Darunavir + ritonaxk Can increase blood levels of inhaled MT lCosteroids dexamethasone and fluticasone, the anti-rejection drugs cyclosporine, tacrolimus, and sirolimus. The corticosteroids reduce darunavir blood levels, interfering with its effectiveness.
•    Darunavir + ritonavir can reduce methadone levels in the bloodstream. Methadone dose adjustment may be needed.
•    Darunavir + ritonavir reduces the effectiveness of some contraceptive drugs by decreasing the amount of the hormones ethinyl estradiol and norethindrone in the bloodstream. Women mixing these medicines should use additional contraceptive measures (e.g., condoms).
•    Protease inhibitors may drastically increase blood levels of erectile dysfunction drugs sildenafil, vardenafil, and tadalafil, increasing the risk of side effects including low blood pressure, visual changes, and persistent, painful erection.
•    Dexamethasone may reduce blood levels of darunavir.
Food Interactions
Take darunavir with food. The amount of darunavir absorbed into the blood is vastly reduced when it is taken on an empty stomach, thus negating its antiviral effects.
Usual Dose
Adult: 600 mg (2 300-mg tablets) with 1 00 mg ritonavir twice a day. Do not chew these tablets.
Child: not recommended.
Overdosage
Little is known about the effects of darunavir overdose, but 3200 mg of darunavir has been given to study volunteers with no adverse effects. Call your local poison center or hospital emergency room for more information. If you take the victim to a hospital emergency room, ALWAYS bring the prescription bottle or container.
Special Information
Darunavir is not a cure for HIV. It will not prevent you from transmitting the HIV virus to another person; you must still practice safe sex. You may still develop opportunistic infections or other complications associated with advanced HIV disease.
The long-term effects of this drug are not known.
It is imperative for you to take this medication exactly according to your doctor’s instructions. Do not skip any doses. Skipping doses of darunavir increases the risk that you will become resistant k,3 ft drug. If you forget a dose of darunavir or ritonavir and remember within 6 hours, take it as soon as you remember and then continue with your regular schedule. If 6 hours have passed since the time when you should have taken your medicine, skip the forgotten dose and take your next dose at the regular time. Do not take a double dose.
Special populations
Pregnancy/Breast-feeding: Animal studies with darunavir reveal no damage to the fetus, but there are no data on how this drug affects pregnant women. Darunavir should only be used during pregnancy after carefully weighing its potential benefits against its risks.
It is not known if darunavir passes into breast milk. Nursing mothers with HIV should use infant formula, regardless of whether they take this drug, to avoid transmitting the virus.
Seniors: Seniors can take this drug without special precaution.

Type of Drug
Corticosteroids, Eye Products
(kor-tih-koe-STER-oids)
Brand Names
Dexamethasone Maxidex
Dexamethasone + Ciprofloxacin Ciprodex
Dexamethasone + Tobramycin Tobradex
Dexamethasone + Neomycin Sulfate + Polymixin 8 Sulfate
Maxitrol
Fluorometholone
Flarex    FML Forte
FML
Fluorometholone + Tobramycin Tobrasone
Loteprednol Etabonate Alrex    Lotemax
Generic Ingredients: Loteprednol Etabonate + Tobramycin Zylet
Prednisolone Acetate OG
Econopred Plus    Pred Forte
Omnipred    Pred Mild
Prednisolone Acetate + Gentamicin Sulfate Pred G
Prednisolone Acetate + Sulfacetamide Sodium
Blepharnide    Blephamide S.O.P.
Generic Ingredients: Prednisolone Acetate + Neomycin Sulfate + Polymyxin B Sulfate
Poly-Pred
Prednisolone Sodium Phosphate LQ
Prednisolone Sodium Phosphate + Sulfacetamide Sodium
Vasocidin
Rimexolone Vexol
Prescribed For
Allergic and inflammatory eye conditions, and to speed healing after eye surgery or injury.
General Information
Corticosteroid eye products are prescribed for general relief of inflammation due to allergy and other causes. They are also used after eye surgery or serious eye injury to aid the healing process by reducing the natural inflammatory process. Very severe eye conditions that do not respond to these products may require treatment with corticosteroid drugs taken by mouth. Fluorometholone, medrysone, and prednisolone (up to 0.125%) are preferred for long-term treatment because they are least likely to raise the fluid pressure inside the eye. corticosteroid eye products have not been widely studied in children, though fluorometholone has been proven safe for use in children age 2 and over.
Cautions and Warnings
Do not use a corticosteroid eye product if you are allergic or sensitive to corticosteroids. These products should be used with caution if you have a fungal, herpes, tuberculosis, or viral infection of the eye, or have cataracts, glaucoma, or diabetes. Do not use any of these products without your doctor’s knowledge.
Long-term use of these products can lead to eye damage, including glaucoma, infection, and nerve damage.
Do not use any of these products in children without consultng a doctor.
Possible Side Effects
V Rare: watery eyes; glaucoma; optic nerve damage; gradual blurring, reduction, or loss of vision; eye pain or infections; drooping eyelid; eye burning, stinging, or redness; nausea; and vomiting. Contact your doctor if you experience any side effect not listed above.
Drug Interactions
•    Corticosteroids applied to the eye may interfere with the effect of antiglaucoma drugs.
•    The risk of raising fluid pressure inside the eye is increased when corticosteroid eye products are taken with anticholinergic drugs, especially atropine, over a long period of time.
Food Interactions  None known.
Usual Dose
Eyedrops: 1-2 drops several times a day.
Eye Ointment: Place a thin strip of ointment into the affected eye several times a day.
Overdosage
Swallowing a container of corticosteroid eyedrops or ointment usually does not produce serious effects. Call your local poison center or a hospital emergency room for more information. ALWAYS bring the prescription container.
Special Information
If you forget to administer a dose, do so as soon as you remember. If it is almost time for your next dose, skip the one you forgot and continue with your regular schedule.
To prevent infection, keep the eyedropper from touching your fingers, eyelids, or any surface. Wait at least 5 minutes before using any other eyedrops.
If the brand you are taking contains benzalkonium chloride, wait at least 15 minutes before inserting contact lenses. In some cases, you may be instructed not to wear contact lenses for the duration of treatment.
Special Populations
Pregnancy/Breast-feeding: Using large amounts of corticosteroid eyedrops during pregnancy may affect the adrenal gland of the fetus. When your doctor considers one of these products crucial, its potential benefits must be carefully weighed against its risks.
Oral corticosteroids pass into breast milk, but it is not known if this is also true of corticosteroid eyedrops. Nursing mothers who must use one of these medications should use infant formula.
Seniors: Seniors may use these products without special precaution.

Type of Drug
corticosteroids, Inhalers
(kor-tih-koe-STER-oids)
Brand Names
Generic Ingredient., Beclomethasone Dipropionate OVAR 40    OVAR 80
Budesonide
Pulmicort Flexhaler    Pulmicort Respules
Generic Ingredients: Budesonide + Formoterol Symbicort
Ciclesonide Alvesco
Flunisolide
AeroBid    Aerospan HFA
Fluticasone Propionate Flovent Diskus    Flovent HFA
Fluticasone Propionate + Salmeterol Xinafoate
Advair Diskus    Advair HFA
Mometasone Furoate Asmanex Twisthaler
Triamcinolone Acetonide Azmacort
Prescribed For
Chronic asthma and bronchial disease.
General Information
Corticosteroid inhalers relieve the symptoms associated with asthma and bronchial disease by reducing inflammation of bronchial mucous membranes, making it easier to breathe. Corticosteroid inhalers produce the same treatment effect as oral corticosteroids, with some important differences. Because inhalers deliver the drug directly to the lungs, smaller dosages can be used. They also have fewer side effects because little of the drug reaches the bloodstream. Corticosteroid inhalers can prevent asthma attacks if used regularly but do not relieve them once they start.
Cautions and Warnings
Do not use a corticosteroid inhaler if you are allergic or sensitive to any of its ingredients.
Corticosteroid inhalers should not be used as the primary treat- MV)~ of severe asthma. They are recommended only for people who take prednisone or another oral corticosteroid, or for people who do not respond to other asthma drugs. These drugs cannot relieve asthma attacks once they start.
In people with asthma, death from adrenal gland failure has occurred during and after switching from an oral corticosteroid to an inhaler. Adrenal function is impaired for several months after the
switch.
Those who use any corticosteroid product, including inhalation, are more likely to have reduced immune system function. This reduces the body’s ability to fight infection from any source, including chicken pox, shingles, and measles. Adults who have not had these viral infections should take care to avoid becoming infected while using any corticosteroid product. Do not receive a live virus vaccine while taking corticosteroids of any kind, as they interfere with the body’s reaction to the vaccine.
Combining an oral corticosteroid with a corticosteroid inhaler may cause pituitary gland suppression.
During a period of severe stress, you may have to switch to an oral corticosteroid if the inhaler does not control your asthma. During periods of stress or a severe asthmatic attack, people who have stopped using an inhaler should ask their doctors about taking an oral corticosteroid.
corticosteroid inhalers may be associated with immediate or delayed drug reactions, including breathing difficulties, rash, and bronchospasm.
Use corticosteroids with caution if you have respiratory tuberculosis, herpes of the eye, a bacterial, fungal, or parasitic infection, or any other untreated systemic infection.
The combination products Advair and Symbicort both contain beta-2 agonists. In some asthma patients, beta-2 agonists may increase the risk of asthma-related death. See Formoterol, page 509, and Salmeterol, page 1013, for more information on these drugs.
Possible Side Effects
V Most common: dry mouth, hoarseness, rash, bronchospasm, respiratory infections, fungal infection of the mouth, runny nose, headache, upset stomach, and palpitations.
V Rare: depression, cough, wheezing, infection, and facial swelling. Cough and wheezing are probably caused by an ingredient in the inhaler other than the corticosteroid itself. GW20 your doctor if you experience any side effect not listed above.
Drug Interactions
• Ketoconazole may increase blood levels of budesonide and fluticasone.
•    Using an inhaled corticosteroid and an oral corticosteroid together may increase the effect of both drugs. Use with
caution.
•    See Formoterol, page 509, for further drug interactions for the
combination product Symbicort.
•    See Salmeterol, page 1013, for further drug interactions for
the combination product Advair. Food Interactions
None known.
Usual Dose
geclomethasone
Adult and Child (age 13 and over): 2 inhalations (84 mcg) 3-4 times a day, or 4 inhalations twice a day. People with severe asthma may take up to 16 inhalations a day.
Child (age 6-12): 1-2 inhalations 3-4 times a day.
Child (under age 6): not recommended.
Budesonide
Adult: starting dose-200-400 mcg (1-2 inhalations) twice a day. Do not exceed 800 mcg a day.
Child (age 6 and over): 200 mcg (1 inhalation) twice a day. Do not exceed 400 mcg a day.
Child (under age 6): not recommended.
Budesonide Respules
Child (age 1-8): 1-2 ml once or twice a day via jet nebulizer connected to an air compressor.
Child (under age 1): consult your doctor.
Budesonide and Formoterol Inhalation
Adult and Child (age 12 and over): 2 inhalations morning and evening.
Child (under age 12): not recommended.
Ciclesonide
Adult and Child (qla 12 and over): 1-2 inhalations once a day. Mlld (under age 12): not recommended.
Flunisolide
Aerobid
Adult and Child (age 16 and over): 2 inhalations (500 mcg) morning and evening. Do not exceed 8 inhalations a day.
Child (age 6-15): 2 inhalations (500 mcg) morning and evening. Do not exceed 4 inhalations a day.
Child (under age 6): not recommended.
Aerospan HFA
Adult and Child (age 12 and over): 160-320 mcg morning and
evening.
Child (age 6-11): 80-160 mcg morning and evening. Child (under age 6): not recommended.
Fluticasone Inhalation
Adult and Child (age 12 and over): 88-660 mcg twice a day. Child (6-12): 88-440 mcg twice a day.
Child (under age 6): not recommended.
Fluticasone Diskus
Adult and Child (age 12 and over): 100-1000 mcg twice a day. Child (age 4-11): 50-100 mcg twice a day.
Child (under age 4): not recommended.
Fluticasone and Salmeterol
Advair Diskus
Adult and Child (age 12 and over): 1 inhalation morning and evening.
Child (under age 12): not recommended.
Advair HFA
Adult and Child (age 12 and over): 2 inhalations morning and evening.
Child (under age 12): not recommended.
Mometasone Furoate
Adult and Child (age 12 and older): 1-4 inhalations a day. If you take this drug only once a day, it should be taken in the afternoon or evening. Otherwise, doses should be divided between the morning and evening.
Child (under age 12): not recommended.
Triamcinolone
AdWAVi6 Child (age 13 and over): 2 inhalations (200 mcg) 3-4 times a day. Do not exceed 16 inhalations a day without your doctor’s knowledge.
Child (age 6-12): 1-2 inhalations (100-200 mcg) 3-4 times a day. Do not exceed 12 inhalations a day.
Child (under age 6): not recommended.
Overdosage
Serious adverse effects are unlikely. Excessive use of large amounts of an inhaled corticosteroid may cause overdose symptoms and require gradually stopping the drug. Call your local poison control center or a hospital emergency room for more information.
Special Information      People using both a corticosteroid inhaler and a bronchodilator, such as albuterol, should use the bronchodilator first, wait a few minutes, and then use the corticosteroid inhaler. This allows more corticosteroid to be absorbed.
These drugs are for preventive therapy only and will not affect an asthma attack. Inhaled corticosteroids must be taken regularly, as directed. Wait at least 1 minute between inhalations.
To properly take this medication, thoroughly shake the inhaler if it is one that must be shaken. Take a drink of water to moisten your throat. Place the inhaler 2 finger-widths away from your mouth and tilt your head back slightly. While activating the inhaler, take a slow, deep breath for 3-5 seconds. then hold your breath for about 10 seconds, and finally breathe out slowly. Allow at least 1 minute between puffs. Rinse your mouth after each use to reduce dry mouth and hoarseness.
If you forget to administer a dose, do so as soon as you remember. If it is almost time for your next dose, skip the dose you forgot and continue with your regular schedule. Do not take a double dose. Tell your doctor or pharmacist if you forget to take more than 1 dose.
Special Populations
Pregnancy/Breast-feeding: corticosteroids may cause birth defects or interfere with fetal development. When any of these drugs is considered crucial by your doctor, its potential benefits Must be carefully weighed against its risks.
It is not known if inhaled corticosteroids pass into breast milk, though oral corticosteroids do. Nursing mothers who must take an inhaled corticosteroid should use infant formula.
StniOrs: Seniors may use corticosteroid inhalers without special restriction. Tell your doctor if you have bone or bowel disease, colitis, diabetes, glaucoma, fungal or herpes infections, high blood pressure, high blood cholesterol, an underactive thyroid, or heart, kidney, or liver disease.

Type of Drug
Corticosteroids, Nasal
(kor-tih-koe-STER-oids)
Brand Names
Wectomethasone Dipropionate Beconase AQ
Budesonide Rhinocort
Ciclesonide Omnaris
Flunisolide RE Nasarel
Fluticasone Furoate Veramyst
Fluticasone Propionate Flonase
Mometasone Furoate Monohydrate Nasonex
Triamcinolone Acetonide Nasacort AQ
Prescribed For
Rhinitis (nasal inflammation) associated with seasonal or chronic allergy and other causes; also used to prevent recurrence of nasal polyps.
General Information
Nasal corticosteroids are used to treat severe symptoms of seasonal allergy that have not mSpDrided to other drugs such as deQQQgtS%TAS. ‘They work by reducing inflammation of the mucous membranes that line the nasal passages, making it easier to breathe. These drugs may take several days to produce an effect. Some nasal corticosteroids are approved for both allergic and non-allergic rhinitis.
Cautions and Warnings    __  allergic or sensitive Do not use a nasal corticosteroid if you ate alle
to corticosteroids. Rarely, serious and life-threatening drug-sensitivity reactions have occurred.
very rarely, deaths caused by failure of the adrenal gland have occurred in people taking adrenal corticosteroid tablets or syrup who were switched to a nasal corticosteroid. This is a rare complication and usually results from stopping the liquid or tablets suddenly instead of gradually.
Combining prednisone or another oral corticosteroid with a nasal corticosteroid may cause pituitary gland suppression, although nasal corticosteroids alone rarely cause this problem.
Use nasal corticosteroids with caution if you have tuberculosis, chicken pox, measles, shingles, or any serious fungal, bacterial, or viral infection.
Do not receive a live virus vaccine while taking corticosteroids of any kind, as they interfere with the body’s reaction to the vaccine.
Rarely, nasal Candida infections develop in people using a nasal corticosteroid. These infections may require treatment with an antifungal drug, as well as the discontinuance of the nasal corticosteroid.
During a period of severe stress, you may have to switch to an oral corticosteroid drug if the nasal form does not control your symptoms.
Children using nasal corticosteriods may experience reduction in growth velocity.
Possible Side Effects
✓    Most common: mild irritation of the nose, nasal passages,
and throat; burning; stinging; dryness; and headache.
♦    Less common: lightheadedness, nausea, nosebleed or bloody mucous, unusual nasal congestion, bronchial asthma, sneezing attacks, runny nose, sore throat, and loss of the sense of taste.
✓    Rare: ulcers 0 Vie nasal passages, watery eyes, vomiting. hypersensitivity reactions (symptoms include itching, rash, swelling, bronchospasms, and breathing difficulties), nasal infection, wheezing, perforation of the wall between the nostrils, and increased eye pressure. Contact your doctor if you experience any side effect not listed above.
Drug Interactions
•    Do not use fluticasone propionate with ritonavir.
•    Ephedrine, phenobarbital, and rifampin may decrease the effect of nasal corticosteroids.
•    Use caution when combining ketoconazole with any nasal corticosteroid.
Usual Dose
Beclomethasone
Adult and Child (age 13 and over): 1 spray (42 mcg) in each nostril 2-4 times a day.
Child (age 6-12): 1 spray (42 mcg) in each nostril 3 times a day. Child (under age 6): not recommended.
Budesonide
Adult and Child (age 6 and over): 2 sprays (64 mcg) in each nostril morning and evening, or 4 sprays in the morning.
Child (under age 6): not recommended.
Ciclesonide
Adult and Child (age 12 and over): 2 sprays (50 mcg/spray) in each nostril once a day.
Child (under age 12): not recommended.
Flunisolide
Adult and Child (age 15 and over): 2 sprays (50 mcg) in each nostril twice a day to start; may be increased up to 8 sprays a day in each nostril.
Child (age 6-14): 1 spray (25 mcg) in each nostril 3 times a day, or 2 sprays in each nostril twice a day.
Child (under age 6): not recommended.
Fluticasone Furoate
Adult and Child (age 12 and over): 2 sprays in each nostril once a date to start. Dose may be reduced to 1 spray in each nostril afer symptoms are controlled.
Child (age 2-11): 1    Yi) each nostril once a day.
C’%Ab junder age 2): riot recommended.
Fluticasone Propionate
Adult: 2 sprays (100 mcg) in each nostril once a day or divided in 2 doses, to start. Dosage may be reduced in half in a few days, if tolerated.
Child (age 4 and over): 1 spray (50 mcg) in each nostril once a day; may be increased to 2 sprays a day in each nostril, if needed. Child (under age 4): not recommended.
Mometasone
Adult and Child (age 12 and over): 2 sprays (100 mcg) in each nostril once a day; may be increased to 4 sprays a day in each nostril.
Child (under age 12): not recommended.
Triamcinolone
Adult and Child (age 13 and over): 2 sprays (220 mcg) in each nostril once a day; may be increased to 4 sprays a day in each nostril.
Child (age 6-12): 1 spray in each nostril once a day; may be increased to 2 sprays a day in each nostril, if needed.
Child (under age 6): not recommended.
Overdosage
Serious adverse effects are unlikely after accidental ingestion. Rarely, excessive use of large amounts of nasal corticosteroids may cause overdose symptoms such as irregular menses, acne, facial puffiness, and weight gain. These symptoms require gradual, not immediate, discontinuation of the drug. Call your local poison control center or a hospital emergency room for more information. ALWAYS bring the presciption container.
Special Information
It may be necessary to clear your nasal passages with a nasal decongestant before using a nasal corticosteroid to allow it to reach the mucous membranes.
Some of these drugs take 10-14 days to start working. Beclomethasone, budesonide, and triamcinolone work faster. in 3-7 days: ciclesonide starts working within 1 or 2 days and shows additional benefits after several weeks of use; in some cases, triamcinolone and budesonide provide relief in 12 hours. FWT isolide may take up to 2 weeks. Do not use -any of these drugs continuously for more tha”‘3 weeks unless you have experienced a def- fttlbenefit.
If you are using more than one spray at a time, wait at least 1 minute between sprays.
Nasal corticosteroids may cause irritation and drying of mucous membranes in the nose. Call your doctor if this effect persists or if symptoms get worse.
Call your doctor if you are exposed to measles or chicken pox while using an of these medicines.
People using a nasal corticosteroid to prevent the return of nasal polyps after surgery may experience nosebleeds because the drug can slow healing of the wound.
If you forget to administer a dose, do so as soon as you remember. If it is almost time for your next dose, skip the dose you forgot and continue with your regular schedule. Do not take a double dose.
Special Populations
Pregnancy/Breast-feeding: Taking large amounts of corticosteroids during pregnancy may slow fetal growth. While the small amount of drug absorbed into the blood after nasal application is unlikely to have any effect, consult your doctor before taking any corticosteroid if you are or might be pregnant.
Dexamethasone passes into breast milk. Nursing mothers who must use this drug should use infant formula. It is not known if other nasal corticosteroids pass into breast milk, though oral corticosteroids do. Nursing mothers should consider using infant formula.
Seniors: Seniors may use nasal corticosteroids without special restriction. Tell your doctor if you have bone or bowel disease, colitis, diabetes, glaucoma, fungal or herpes infections, high blood pressure, high blood cholesterol, an underactive thyroid, or heart, kidney, or liver disease.

salbutamol A selective beta,- adrenoceptor  It is widely used to relieve bronchospasm in airway obstruction, including bronchial asthma and status astliniaticus, with the advantage of being largely free from cardiac side-effects. Dose: up to 16 ing orally daily; by aerosol inhalation (in which patients should be carefully instructed) 100-200 pg ( 1-2 puffs) Lip to 4 times a day; by s.c. or i.m. injection 500 pg as required; 250 pg by i.v. injection. Salbutamol also, relaxes uterine muscle, and is given in premature labour in doses of 10 pg/inin initially by i.v. infusion, increased to 45 pg/min until contractions have ceased, when oral therapy may be given. Side-effects include tremor, headache, peripheral vasodilation and tachycardia. Care is necessary in ischacinic heart disease, hypertension pertension and hyperthyroidism. (Ventolin). See page 118 and Table 6.
salcatonin A synthetic form of calcitonin, preferred for extended use, as it is less likely to provoke allergic reactions. Dose: in hypercalcaemia, 5-10 units/kg ,fail), 1)), s.c. or Lin. injection according to need; in Paget’s disease 60 units 3 times a week up to 100 units daily. It is also used in post - menopausal osteoporosis and for the bone pain of malignancy. (C.alcynar; Miacalcic).
salicylic acid Etas useful keratolytic and fungicidal properties. Used as ointment (2%) for skin conditions, and as ointments and plasters (up to 40%) for corns and warts.
salmeterol A beta,-adrenoceptor stimulant of the salbutamol type, but with a longer action. It is used for the extended prophylaxis of asthma, bronchitis and other forms of obstructive airway disease, and together with corticosteroid therapy if required. It is not indicated in acute conditions.
Dose: 50 pg twice daily, either from a metered dose aerosol or by a ‘Disklialer’. salmeterol is well tolerated, but headache, tremor and tachycardia may occur with doses above 200 pg daily. (Serovent). See page 118 and,rable 6.
saquinavirV An antiviral agent that inhibits the enzyme HIV-protease, and prevents the development of immature virus particles into the infective virus. Used in HIV
infection together with it nucleoside analogue that has a different action.
Dose: 1.8g (laity. (Invirase). See page 1+1 ;111,1 TAIle 19.
scopolamine See hyoscine.
selective serotonin re-uptake inhibitors (SSRIS) A small group of drugs that inhibit the re-uptake ofserotonin in the central nervous system, and are used in the treatment of depression. They differ from the tricyclic antidepressants in being less likely to cause sedation or cardiac disturbances, or have anticholinergic side-effects. Care remains necessary with machine-related activities, and before and after monoamine oxidase inhibitors (MAOI) therapy. See page 128 and Table 11.
selegiline A selective enzyme inhibitor that prevents the inactivation of dopamine in the brain. It is used to supplement the action of levodopa in the treatment of parkinsonism, and combined use may give a smoother response, and permit a reduction in the dose of levodopa.
Dose: 5-10111g daily. It may cause nausea and hypotension, and may possibly increase the side-effects of levodopa. (Eldepryl). See page 160 and Table 26.
selenium sulphide Used as a shampoo in the treatment ofdandrull’. Prolonged use may cause alopecia. (Selsun).
senna The leaves and pods of Cassia sp., used as a purgative. Standardized preparations such as Senokot are now preferred.
sermorelinV A synthetic analogue of soniatorelin, the growth hormone releasing factor (GHRH). It is used in the diagnosis of growth hormone deficiency as a single i.v. dose of I pg/kg. (Geref 50).
sertindoleV An antipsychotic agent with a selective action on the limbic system, and used in acute and chronic schizophrenia. Dose: 4 nig once (laity initially, increased alter 2-4 days up to 20 mg daily according to need. Blood pressure should he monitored initially as hypotension may occur.  Contraindicated in patients receiving itraconazole, ketoconazole,  terfanidine, or any drug known to affect the QT interval. (Serdolect). See page 168 and Table 30.

serotonin A substance present in many body cells, which also acts as a neurotransmitter in the central nervous system. A reduction in the brain serotonin levels may be associated with depression and the cranial
vasodilation associated with migraine. (See page 154). Some allergic reactions may also be linked with the action of serotonin on sensitized cells (see cyproheptadine).
I Sod
colic and vomiting, but death from adder bite is very rare. If the reaction to an adder bite is severe, European viper anti-venom, if available, should be given by i.v. infu-
sion within 4 hours of the bite.
soda-lime A mixture of calcium and sodium hydroxides, used in closed-circuit anaesthetic apparatus to remove carbon dioxide.
sertraline A selective serotonin-re-uptake inhibitor (SSRI) antidepressant used both for the treatment oftlepression and the prevention of relapse.
Dose: 50 rig daily initially with food, increased at weekly intervals tip to a maximum of 2(0 mg daily. Not to be given with nionoanlilic oxidase inhibitors (MAOls). Side-effects are tremor and a dry mouth. (usual). See page 128 and Table 11.
silicones Synthetic water-repellent substances present in barrier creams and other skin protective products. Dimethicone is a silicone used as an anti-foaming agent in some antacid preparations.
silver nitrate Used mainly as silver nitrate sticks (caustic points) for cauterizing warts. It has also been used as a 0.5% lotion for suppurating lesions. It was once used prophylactically as eye drops (0.1%0) in the newborn, and is still used for that purpose in the USA.
silver sulphadiazine Sulphadiazine combined with silver. It is used topically as a I% cream for its wide-range antibacterial properties in burns and infected skin conditions, especially when an extended action is required. It is active against Pseudornonas aertiginosta and other Cram- negative organisms. (Flamazine).
simvastatin A selective inhibitor of a specific enzyme (I-IMGCOA reductase) concerned with the synthesis of cholesterol in the liver. It is used in the treatment of primary hypercholesterolaernia in patients not responding to other drugs. Dose: 10-40 mg at night. Liver function tests should be carried out regularly. Side effects include gastrointestinal disturbances. (Zocor). See page Wand Table 20.
snake-bite antivenom A bite from an adder, the only poisonous snake indigenous to the UK, can cause local pain and swelling as well as systemic effects such as
sodium acetrizoate An iodine compound used as a contrast agent in i.v. pyelography.
sodium aurothiomalate A gold compound used in the treatment of active rheumatoid arthritis. It is no value in other forms of the disease, or where bone change has already occurred.
Dose: 10 mg by deep Lin. injection weekly initially, slowly increased to 50 mg weekly. and continued until a remission occurs, or until a total dose of I g has been given.
Blood and urine tests are essential after each injection. After remission, 20-50 mg may be given every 2-1 weeks for many months. Side-effects are common, and include blood disorders, skin reactions, mouth ulcers and oedenia, anti may require withdrawal of the drug. It is contraindicated in renal and hepatic disease, blood dyscrasias and hypertension. (Myocrisin). See auranoran,
page 165 and Table 29.
sodium bicarbonate A soluble antacid, often used in association with less soluble antacids such as magnesium carbonate or trisilicate.
Dose: 1-4 g. In severe metabolic acidosis it is given by slow i.v. injection as an 8.4% solution. For alkalization of the urine, up to 3 g orally 2-hourly with further 10 g
doses daily as required.
sodium calcium edetate A chelating or binding agent used in poisoning by lead and other heavy metals.
Dose: 80 mg/kg daily by i.v. infusion in glucose/saline solution. Nausea and cramp are side-effects, and care is necessary in renal impairment. Medclair).
sodium cellulose phosphate An ion-exchange compound that binds with calcium in the intestines, and so reduces calcium absorption. Used in the oral treatment of hypercalcaemia and renal stones, and as an adjunct to low-calcium diets. Dose: 15 g daily. Diarrhoea is an occasional side-effect. (Calcisorb)•

sodium chloride An important constituent of blood and tissues. It is widely used by i.v. infusion as normal saline solution (0.9%), or as glucose-saline in the treatment of dehydration, shock and other conditions of sodium depletion. It is also useful when given orally as Sodium Chloride with Glucose Oral Powder (BNF) (after solution in water), for children with diarrhoea to offset any loss of salt. Its use as an emetic in the treatment of poisoning is no longer recommended. It is used externally as saline solution when a simple cleansing lotion is required.
sodium citrate An alkaline diuretic similar to potassium citrate and given for similar purposes.
Dose: 1-4 g. For citrating milk, 100 mg to each feed may be used. A 3% solution is used by bladder irrigation for the dissolution of blood clots.
sodium clodronate See clodronate, editronate and pamidronate.
sodium cromoglycate An antiallergic agent with a specific action and used for the prophylactic treatment of asthma by inhalation. It stabilizes mast cells and inhibits the release of histamine and other spasmogens that cause bronchospasm. Dose: by powder inhalation from a `Spinhaler* 20 mg up to 9 times a day; by aerosol inhalation, 10 mg (2 puffs) up to 8 times a day. Dose in the treatment for food allergy associated with local inflammation, 800 mg daily orally. It is also of value as eye drops (2%) and eye ointment (40/4) in allergic conjunctivitis, and as nasal drops or spray (2%) in the prophylaxis of allergic rhinitis. (Intal, Rvilacrom). See page I I O and Table 2.
sodium fluoride The fluoride present in dentifrices used to reduce dental caries. It may also be given orally when more intensive treatment is required.
Dose: 250-5001igdaily.
daily by i.v. infusion. Side-effects include nausea, rash and jaundice. Liver function tests should be carried out during treatment. (Fucidiu).
sodium hypochlorite A weak solution of sodium hypochlorite containing 0.25% of available chlorine is used as eusol, for the cleansing of wounds and ulcers. The
Solution is unstable and should be freshly prepared. Its value has recently been questioned. Stronger, stabilized solutions are used for the general disinfection of surfaces contaminated with blood and other body fluids. Their use reduces the risk of transmission of hepatitis and other viral infections.
sodium ironedetate (sodium feredetate) A soluble iron complex available as a solution containing 27.5 mg of iron per 5 nil. It is used in the oral treatment of iron-deficiency anaemias, and is of value when other iron preparations are not tolerated. Dose: 15-30 nil daily. (Sytron). See page 112 and Table 3.
sodium lactate Has been used as M/6 solution, or as Hartmann’s solution, by i.v. infusion for metabolic acidosis, but sodium bicarbonate is now preferred.
sodium nitrite A cyanide antidote.
Dose: as it 30/b solution by i.v. injection of 10 nil, followed by the slow injection of 25 nil of sodium thiosulphate solution (50%). Early treatment is essential. See kelocyanor.
sodium nitroprusside A short-acting arteriovenous vasodilator used in hypertensive crisis and for controlled hypotension during anaesthesia.
Dose: by i.v. infusion, 0.3-1 pg1kg/juin, the lower doses being used to obtain hy
, poten-
sion during surgery. It is also used in acute heart failure in doses of 10-1 5 pg/niin, increased as required to 2001ighnin.
sodium fusidate An antibiotic used mainly in penicillin- resistant staphylococcal infections, although a secondary anti-staphylococcal antibiotic is often given to increase the response and inhibit drug-resistance. It is useful in osteomyelitis and similar conditions as it penetrates into bone tissues.
Dose: 2 g daily. In severe infections, 1.5 g
sodium perborate White powder soluble in water, with antiseptic and deodorant properties similar to hydrogen peroxide. A 2% solution is used as a mouthwash.
sodium phosphate A solution of sodium phosphate with sodium acid phosphate is sometimes used by enema as a laxative.

dimethicone Activated dimethicone is an antifoaming agent, said to reduce flatulence and protect mucous
membranes. It is a constituent of many antacid preparations. It is also present in some water-repellent skin creams.
dipipanana A rapidly acting morphine-like analgesic of value in the sever rain 4 to -1 dk–
Dose: 30-3450 mg (fail),, but it is usually• given in association with cyclizine as Diconal. The side-effects are similar to those of morphine.
dipivefrine A pro-drug that is converted into adrenaline after absorption. It is used
in chronic open angled- glaucoma as eye
drops (0.1%). (Propine). See page 138 and Table 16.
dimethylsulphoxide (DMSO) An organic liquid, it has been used for the symptomatic relief of interstitial cystitis
(Hunner’s ulcer) by the bladder instillation of 50 ml of a 50% solution. (Rimso-50).
dinoprost Prostaglandin F,.. It has actions and uses similar to dinoprostone.
(Prostin 112).
dinoprostone A synthetic form of prostaglandin E,. It has been used to initiate contractions of the pregnant uterus. Dose: 500 pg orally to induce labour, repeated if necessary at hourly intervals; as vaginal tablets or gel, 3 mg. Side-effects are nausea, diarrhoea, shivering and dizziness. (Prostin E2; Prepidil).
dioctyl sodium sulphosuccinate See dOCUSalC.
diodone injection A solution of a complex organic iodine compound, used as a contrast agent in X-ray examination of kidneys and ureters.
diphenhydramine One of the early antihistamines, with a more sedative action, and use(] in the temporary relief of insomnia. Dose: 10-25 trig. (Medinex. Nytol). It is also present in some cough preparations and nasal decongestants.
diphenoxylate A derivative that resembles codeine III reducing intestinal activity. It is used for the symptomatic relief of diarrhoea, and is usually given with a small dose of atropine to discourage excessive dosage and to reduce the risk of dependence. Dose: 10 mg initially, then 5 nig every 6 hours as required. (Lomotil;’Fropergen).
diphenylpyraline An antihistamine used as .I decongestant in colds and sinusitis. Present in Eskornadc.
dipyridamole An inhibitor of thrombus formation by reducing the adhesiveness of blood platelets in the arterial circulation. Dose: 300-600 mg daily before food. s I
ide-effects include nausea, diarrhoea and headache. (Persantill).
disodium cromoglycate See sodium cromoglycatc.
disodium etidronate See etidronate. disodium pamidronate See pamidronate.
disopyramide A quinidine-like drug used in the treatment of cardiac arrhythmias especially after myocardial infarction. Dose: 300-800 mg daily; dose by slow i.v. injection under ECG cover, 2 nig/kg up to 150 mg, followed by oral therapy as soon as possible. By its anticholinergic action care is necessary in glaucoma and prostatic enlargement. Contraindicated in heart block. (Dirythmin; Rythmodan). See page 1;6 and “fable 24.
distigmine An inhibitor of cholinesterase similar to neostigmine but with a longer action.
Dose: in the control of myasthenia gravis 5-20 mg as a single morning dose before breakfast; in urinary retention after surgery, 5 trig daily. It is sometimes used in neurogenic bladder disorders. Side-effects are nausea, abdominal cramp, diarrhoea and weakness. (Ubretid).
disulfiram When taken with even small amounts of alcohol, disulfiram permits the accumulation of acetaldehyde in the body, with side-effects such a flushing, giddiness, vomiting and headache that may be severe. Distilfiram is used in chronic alcoholism, but prolonged treatment and co-operation of the patient are essential.

Dose: after at least 24 alcohol free hours: 800 nig on the first day, falling over 5 days to 100-200 mg daily. Acute confusion may occur if given at the same time as tucLro-
llidazole. (Antabuse).
dithranol Synthetic compound used locally in the treatment of psoriasis. It is a powerful irritant, and treatment should be commenced with a simple ointment or zinc paste containing 0.1% ofdithranol, gradually increased to 1% if well tolerated. Higher concentrations are sometimes used in ’short -contact -time’ therapy.
Dose: 100 mg/m’ by i.v. infusion over
I hour. Rapid and severe hypersensitivity reactions (hypotension, bronchospasm) may occur, and treatment must be irrnediat4y available. Reaction risks may be reduced by premedication with jexalnetha&one given the day before treatment and continued for 5 days. Rash, pruritus and neutropenia may occur, and blood counts and liver function tests are necessary. (Taxotere). See page 122 and Table 8.
docusate A surface-active agent used as a faeces -softening laxative.
Dose: ill, to 500 nig daily. (Dioctyl).
diuretics The most widely used group of diuretics is the thiazides, represented by bendrofluazide (see page 14I ). They act mainly by increasing the excretion of
sodium by inhibiting its re-absorption by the distal tubule of the kidney, and evoke a rapid response which may persist over 12-24 hours, although some, such as chlorthalidone, have a still longer action. They are given in mild cardiac failure, oedema and in hypertension, but in more severe conditions, and in pulmonary occlema, the more powerful ‘loop’ diuretics, such as frusemide, which act at a different point, are preferred. A side-effect of some thiazides is an increase in the excretion of potassium which may require the use of potassium supplements or a change to a potassium sparing diuretic such as trianiterene. Spironolactone, an aldosterone antagonist, is a more powerful diuretic, of value in resistant oedema. Osmotic diuretics such as mannitol are used mainly in cerebral oedema. Simple diuretics such as potas slum citrate arc mainly used to alkalize the urine and promote diuresis in cystitis and similar conditions. See page 141 and Table 18.
dobutamine A sympathomimetic agent similar to isoprenaline, but with a more selective stimulant action on the beta, receptors in the heart. It increases cardiac contractility but is less likely to cause tachycardia. Useful in acute heart failure and cardiogenic and septic shock. Dose: 2.5-5 pg/kg/min by i.v, infusion, carefully adjusted to need. (Dobutr= Posiject). See page 141 and Table 18.
docetaxel A potent cytotoxic agent derived from the Pacific Yew. Used in advanced breast cancer resistant to other therapy.
domperidone An antiemetic that functions as a dopamine antagonist, as it prevents dopamine from reaching the receptors in the chemoreceptor trigger zone (see antiemetics). It is mainly of value in the severe nausea and vomiting caused by cytotoxic drugs, and is also useful in fum clonal dyspepsia. It is of little value in postoperative and travel sickness.
Dose: 10-20 mg 4-8-hourly; 30-60 nig by suppository. Sedative side-effects are infrequent, as domperidone does not cross the blood-brain barrier. (Motilium). See page 77.
donepezil A reversible inhibitor of anti-cholinesterase. Alzheimer’s disease is linked with a deficiency of acetylcholine in the brain, and donepezil may relieve sonic of the symptoms of that disease by increasing brain acetylcholine.
Dose: 5-10 mg at night. Diarrhoea and muscle cramps are side-effects. (Aricept ).
dopamine A sympathomimetic agent with actions and uses similar to dobutamine. Dose: 2.5-10 pg/kg/min by slow i.v. infusion. Careful control ofdose is essential, as dopamine may cause vasoconstriction with higher doses and increase the risk of heart failure. (Intropin). Dopamine is also a central neurotransinifter, and a deficiency is associated with parkinsonism. See levodopa, page 141 and “table 18.
dopexamine A short-acting drug of the dopamine type but with a more powerful action on the 0,-receptors. It is used in heart failure during cardiac surgery.

A-Z Principal Drugs (antidepressants - astemizole)
antidepressants The drugs used in the treatment of depression fall into two main groups, the so-called tricyclic antidepressants and the monoamine oxidase inhibitors (MA01s). (Unrelated drugs include lithium carbonate, used only for the prophylaxis and treatment of manic depressive illness.) The tricyclic group, which also includes sonic other compounds with a similar action, appear to act by blocking the neuronal uptake of central transmitters such as noradrenaline and serotonin. They are more widely used than the MAOIs because they are more generally effective, and interact less extensively with other drugs and certain foods. The tricyclic drugs are widely used in endogenous depression, particularly when sleep disturbances are present, but the onset of action is slow, and improvement may not commence until after 2-4 weeks of treatment. Extended therapy is usually required to avoid the risk of a relapse, and patients should be advised accordingly. Sonic tricyclic antidepressants, such as amitriptyline, have a sedative action of value when anxiety is a complicating factor, whereas a less sedating drug such as imipramine may be useful in patients exhibiting apathy and withdrawal. Some of the side-effects, such as dryness of the mouth, are linked with their anti-
cholinergic activity, but tolerance may develop with continued treatment. They also influence the cardio-vascular system and may cause arrhythmias, tachycardia and hypotension, and may interfere with the action of some antihypertensive drugs, although the response to beta-blocking agents is unaffected. Care is necessary in cardiac disease, and with the elderly initial doses should be low. The use of tricyclic antidepressants in epileptic patients may result in a lowering of the convulsive threshold. See page 128 and Table 11.
antidiabetic agents Diabetes mellitus is a deficiency disease due to a lack of insulin, and is characterized by an excessive level of glucose in the blood and urine. Treatment is either replacement therapy with daily injection of insulin, or orally by hypoglycaemic agents such as chlorpropamide. Such agents act by stimulating insulin secretion and release by the beta-cells of the pancreas, and are ineffective in the absence of such cells. See page 132 and Tables 12 & 13.
anti-D(Rh.) immunoglobulin An ininiurioglobulin that is given to a rhesus-negative mother to prevent her forming anti-bodies against fetal rhesus-positive cells which may pass into the maternal circulation during childbirth or abortion and which, in a later pregnancy, could cause haemolytic disease.
Dose: 504) units Lin. within 60-72 hours of delivery or abortion. Doses of 1250 units are given prophylactically. It is of no value it’given after anti-D antibodies have been formed. The inimunoglobulin has also been given after the transfusion of rhesus-incompatible blood. (Partobulin).
antiemetics Nausea and vomiting may be due to several causes, including stimulation of the chemoreceptor trigger zone in the reticular formation of the brain. Man), antiemetics have some degree of central activity, and in some cases their action may be mediated by blocking the effects of dopamine on the trigger zone. Effective drugs include some antihistamines and sonic phenothiazine-based tranquillizers such as prochlorperazine. The alkaloid hyoscine is widely used in travel sickness. More powerful drugs such as domperidone, metoclopramide, nabilone and ondansetron, are of value in the control of the severe nausea and vomiting induced by cytotoxic drugs. The use of antiemetics in early pregnancy requires great care, and is seldom essential.
antiepileptics See anticonvulsants, page 136 and’] able 15.
antihistamines Drugs such as promethazine are of value in conditions associated with the release of histamine from mast cells, such as hayfever, rhinitis, urticaria, pruritus, insect bites and stings. They are also useful in drug allergies. Some antihistamines also have antienietic properties, and are useful in travel sickness. Although all antihistamines have the same basic action, the degree and duration of response and the severity of side-effects may vary. Some antihistamines pass easily into the central nervous system arid are more likely to cause drowsiness. Others may have reduced anticholinergic properties, and cause less dryness of the mouth and blurring of vision. Care is necessary in epilepsy, glaucoma, hepatic disease or prostatic enlargement. See page 110 and Table 2.

antihypertensive agents See page 148 and Table 2 1.
anti-inflammatory agents See non-steroidal anti-inflammatory drugs (NSAIDS) and page 165 and Table 29.
antimetabolites Cytotoxic drugs that appear to act by combining irreversibly with cell enzymes, and so prevent cell division. Methotrexate and mercaptopurine are examples. See page 122 and Table 8.
dermatology and pruritus as oily calamine lotion. Arachis oil enema is used to soften impacted faeces.
argipressin A synthetic form of vasopressin.
artificial tears Some chronic sore eye con clitions may occur in rheumatoid arthritis, and may be due to tear deficiency. Solutions of itypromellose or polyvinylalcohol, sometimes referred to as’artificial tears’, are useful as a bland lubricant to replace the tear deficiency. (Isopto; Hypotears).
antimuscarinic agents See anticholinergic agent” page 160 and Table 26.
antineoplastic agents Anti-cancer drugs. See page 122 and ‘rabic 8.
antipsychotic agents See pages 117 & 1(,8, and Tables 5 & 30.
antitetanus immunoglobulin aulloglobulin obtained from plasma is used in injured patients who have not previously been immunized, and when tetanus is a definite risk. Dose: 250 units jan. A course of tetanus vaccine should also be commenced,
antitubercular agents See rifampicin, page 170 and I able 31.
antiviral agents See page 144 and Table 19.
anxiolytics See page H 7 and Table 5.
apomorphine A morphine derivative formerly used as a powerful emetic, but now considered to be too toxic. Occasionally used in the hospital treatment of parkinsonism. (Britaject).
apraclorildine A clonidine derivative used as eye drops I 9A, to control intraocular
pressure during ophthalmic surgery. Some absorption may occur, so care is necessary in severe cardiovascular disease. (lopidine).
aprotinin An inhibitor of the proteolytic enzyme plasmin, obtained from bovine lung tissue. It is used in the severe haemorrhage due to hyperplasminaemia.
Dose: 500 000-1 000 000 units by i.v. infu.ioll. (Trasylol).
arachis oil Groundnut or peanut oil. It has
emollient properties, and is used in
ascorbic acid (vitamin C) Present in many citrus fruits. Deficiency is not uncommon in the elderly receiving inadequate diets. Severe deficiency causes scurvy, once the bane of seafarers.
Dose: for prophylaxis 25-75 mg daily; therapeutic dose 200-500 mg daily. Doses of 4 g daily are given for acidification of the urine. Claims that vitamin C prevents colds are unproven.
asparaginase Crisantaspase. See page 122 and Table 8.
aspirin (acetylsalicylic acid) Widely used as a mild analgesic and anti-inflammatory agent, often in association with other drugs such as paracetamol and codeine. Dose: 1.2-4 g daily, but in acute rheumatoid conditions doses of 4-8 g daily have been given. Long-term treatment with (loses of 75 mg daily are given liar the prophylaxis of cardiovascular disease. Side-effects include gastric irritation with some blood loss, hyperventilation, and bonitos, with the risk of deafness, may occur with high doses. Aspirin may cause rash and bronchospasm in asthmatic and other sensitive patients. As aspirin is now thought to be associated with Reye’s syndrome, the drug should not be given to children under 12 years of age unless specifically indicated. Aspirin may increase the effects of certain hypoglycaemic and anticoagulant drugs.
astemizole An antihistamine with an extended action and reduced sedative effects.
Dose: Wring once daily before food, and must not be exceeded. Higher doses may cause cardiotoxic side-effects such as ventricular tachycardia. Arrhythmias may follow combined treatment with many other drugs. (Hismanol; Pollen-ese). See page 110 and Table 2.

Using inhalers
The value of using an inhaler rather than taking tablets or syrup is explained on p. 141 for steroids. The same principle applies to all drugs.
The oldest type of inhaler is the ‘puffer’ or aerosol inhaler, properly called a ‘pressurised metered-dose inhaler’ or MDI. It delivers the drug as a fine, moist, spray. In addition, there are now many devices that deliver drugs in dry-powder form.
If you or your child find the aerosol inhalers difficult, you may do better with a dry-powder inhaler. Your doctor should have several different inhalers available for you to try out, to see which one suits you best.
When you are given an inhaler you must be shown how to use it by a doctor or asthma nurse. A great many asthma patients have a ‘poor inhaler technique’, and get too little of the drug as a result. This often leads to their asthma getting out of control. The advice given here for using inhalers is no substitute for proper training, and should only be used to supplement what your doctor or asthma nurse has told you.
When using an aerosol inhaler or MDI, remember to shake the inhaler well or you will not get the right dose. Your in-breath must coincide exactly with pressing the canister down: this is the part that many people find difficult. You must breathe in slowly and deeply, otherwise you do not get much of the drug into your airways.
Many asthmatics stop inhaling the moment the
spray from the aerosol inhaler hits the back of the
throat. The spray contains a propellant, which
makes it very cold, and there is a natural reflex
response to this cold liquid which stops inhalation.
This response may be impossible to control. If so,
you need a dry-powder inhaler (see right), or a
spacer to use with your aerosol inhaler (see p. 162).
Breath-operated aerosol inhalers such as the
Autohaler can be useful for those who find ordinary
aerosol inhalers too hard to use. With these devices, you do not have to push the canister down because your in-breath triggers the release of the drug. Take care not to block the air-intake holes with your hands and don’t stop breathing when you hear the inhaler click. (If there is no click, start again and breathe in more forcefully this time.)
One hazard with aerosol inhalers is that, when almost empty, they produce no drug – just the propellant. Although they still ‘puff’ normally, they are not effective. It may be hard to tell when your inhaler is running low. Ask your doctor or asthma nurse for advice about this.
Many asthmatics find dry-powder inhalers such as the Spinhaler, Rotahaler, Diskhaler, Accuhaler, Clickhaler and Turbohaler are the easiest to use. They have no aerosol device, so none of the problems associated with the coldness of the propellant.
On the other hand, nothing pushes the drug into your mouth and lungs with a dry-powder inhaler: you have to do all the work yourself. This means you have to breathe in quite hard and fast. During a severe asthma attack you may not be able to breathe in hard enough to get a good dose of the drug. Some asthmatics have an aerosol inhaler as well, often combined with a spacer (see p. 162), for use during severe attacks.
For the parents of asthmatics, who want to keep an eye on how much of a drug is being used, most of the dry-powder inhalers allow you to do so.
Arthritis and inhalers
Those who suffer from arthritis in their hands often find inhalers difficult to use. There are several aids now available to help with this problem – ask your doctor or asthma nurse about these.
Do hold your breath
Whichever type of inhaler you use, it is important to give the drugs a chance to do their work. After inhaling, and when your lungs are full, you should hold your breath for at least ten seconds. Then breathe out, but wait at least another 30 seconds before breathing in again.
Side effects from non-drug ingredients
There are other ingredients in inhalers, besides the drug, and they occasionally cause side effects.
Aerosol inhalers are the worst offenders. They can contain up to five non-drug ingredients, such as propellants and surfactants. Some asthmatics are sensitive to one of these, and respond with coughing or bronchospasm when they inhale them.
If inhaled in large amounts, the propellants in aerosol inhalers can give a mild ‘high’, and asthmatic teenagers and their friends may - very rarely - begin abusing inhaled beta-2 relievers. Parents should be alert for the possibility of such problems, but not worry unduly.
Dry-powder inhalers do not need propellants or surfactants, so they are suitable for anyone who develops a sensitivity to these. However, they may contain lactose, or milk sugar, in addition to the drug. Enough lactose is deposited in the mouth and swallowed to provoke symptoms, such as diarrhoea and wind, in people who suffer from severe lactose intolerance (see box on p. 79). Trace amounts of milk proteins in the lactose may be a problem for people with severe milk allergy.
CFCs and inhalers
Aerosol inhalers have long contained CFCs, which are very inert gases (at ground level) and perfectly safe to inhale. Unfortunately, they cause serious damage when they reach the ozone layer high above the earth, so they are being phased out in asthma inhalers, as they are in all aerosols. Other propellants, called hydrofluoroalkanes (HFAs), are being introduced to take their place. The spray from an HFA inhaler may taste and feel different, but it should do exactly the same job as a CFC inhaler: the drug it contains remains the same. Research suggests that these new propellants are very safe, but tell your doctor if your reaction to your inhaler seems to change suddenly.
These new propellants deliver medication more efficiently into the lungs, so that usually only half the previous dose is required. Unlike CFC-type inhalers, they will deliver a constant dose until empty. In addition, they are not affected as much by below-freezing temperatures.
Inhale - then clean your teeth
Asthmatic children are more prone to dental decay than other children, and inhalers are suspected of causing the problem. No one knows, as yet, exactly which ingredient of the inhalers is the culprit - it could be a drug, or a non-drug additive such as a propellant. Alternatively, the fact that the spray from some inhalers is slightly acidic could explain this side effect. Brushing the teeth after using the inhaler, or just rinsing out the mouth with water, is recommended as a preventive measure.
Using spacers
A spacer is a large empty chamber that can be fitted to an aerosol inhaler (a puffer or MIDI). to make it more effective and easier to use. The aerosol spray goes into one end of the spacer, and the asthmatic breathes it in from the other end.
When using a spacer, you can breathe normally: you don’t have to take all the drug in at once. or hold your breath after you’ve inhaled. But you should try to breathe as deeply as possible, and hold your breath for up to ten seconds if you can.
Note that spacers are for use with aerosol inhalers only. Spacers allow the aerosol propellant (see p. 161) to evaporate, leaving tiny airborne droplets of the drug to be inhaled. Once the propellant has evaporated, these droplets are no longer cold, so the reflex response that stops inhalation is avoided.
During an asthma attack, spacers are immensely valuable because they allow you to get some of the drug into your airways even though you are unable to take a deep breath. There is a collapsible spacer, called the E-Z Spacer, which folds up into a plastic case small enough to be slipped into a pocket. In a severe asthma attack, having such a spacer could save your life.
In an emergency, if no spacer is available, you can improvise one (see p. 100).
Babies and small children, who cannot yet coordinate the in-breath with pushing the aerosol canister down, need spacers for everyday use. There are spacers designed for children under two years, with masks that fit over the nose and mouth.
When using a spacer, shake the inhaler and then spray it into the spacer once only. Inhale within five seconds. During an asthma attack, you can add another dose from the inhaler every ten seconds, until the attack begins to subside, but keep a count of how many puffs you use (see p. 100).
For a young child, shake the inhaler well, and fit it to the spacer. Put the mouthpiece into the child’s mouth, or put the mask on. Tell the child to breathe in and out steadily. Listen for the clicking of the valve on the spacer - this shows that it is opening and closing. When the child’s breathing is regular, puff a single dose into the spacer. The child should breathe in and out 5-8 times.
Priming a spacer
Prime a new spacer, or one that has been washed, by firing the inhaler into it about five times. Do this before you actually need to use the spacer.
The drug will coat the spacer walls, due to an electrostatic charge on the plastic. You won’t be able to see the drug as it forms a very thin coating.
When you come to use the spacer, no more of the drug will stick to the spacer walls, because they are already coated, so the full dose will be available for you or your child to inhale.
Priming new spacers is particularly important when the asthmatic is a young child, because there may be some delay between firing the inhaler and the child actually getting a proper lungful of the drug. The longer the delay, the more chance the drug has to stick to the unprimed spacer walls.
A spacer can be used on a baby while it is asleep, which may make life easier for you both. If you need to use the spacer while the baby or toddler is awake, stroke the mask against the child’s cheek first. Keep smiling and talking so that the situation doesn’t seem so frightening. If the baby does start to cry, keep the mask in place: crying will bring on a deep in-breath which is just what is needed.
For an older child, decorating the spacer with coloured stickers can make it appear less daunting. Try to make using the spacer seem like a game. If this fails, don’t get into a battle with the child – leave it a while and try again later.
Playing with the spacer when feeling well will help the child to see it as something familiar, not as a frightening piece of equipment associated with asthma attacks.
Nebulisers
A nebuliser delivers high doses of asthma drugs in an easily inhaled form. It is generally used for severe asthma only, or in an emergency to relieve asthma attacks.
A nebuliser can be attached to an oxygen cylinder, which enriches the air–drug mixture with oxygen. This is useful in severe asthma.
The only people who need to have a nebuliser at home for emergencies are those with brittle asthma, whose condition can deteriorate very suddenly and sharply.
For routine use, only a very small minority of asthmatics require a nebuliser. They include:
• Those with such severe asthma that they depend on large doses of drugs to control their symptoms
• Very small children or elderly people with severe asthma, who have difficulty using inhalers. For them, a nebuliser may be the easiest way to take their drugs.
The fact that the hospital’s nebuliser is so effective in an emergency gives it a special mystique for many people, who assume that nebulisers are a magical cure for asthma. Nebulisers are widely advertised in specialist publications for asthmatics and, while they are expensive, they can look like the answer to a prayer. Many asthmatics, or their parents, mistakenly believe that owning a nebuliser would be the answer to all their problems. In fact the nebuliser only works so well because it delivers a much higher dose of the reliever drug – a dose which also carries a higher risk of side effects. This high-dose treatment should not be used on a regular basis unless it is absolutely essential. No one should buy a nebuliser without first discussing the matter with their doctor.
Asthmatics who own a nebuliser should have detailed written instructions from a doctor about when and how to use it, and how much of the drug to put in. One hazard of owning a nebuliser is that it may give you a false sense of security during emergencies, and delay you from getting expert medical help when you need it. If the nebuliser is for emergency use you should be told the exact signs that indicate a need to use it and – no less important – the signs that show the attack is out of control and needs hospital treatment.
Take care, when using a nebuliser, not to allow the mist to escape and settle on the face or eyes. Regular exposure to steroid mist can cause cataracts in the eyes, and thinning of the skin on the face. Anti-cholinergics (see p. 156) can cause glaucoma if they come into contact with the eye. The mask must fit very tightly. As an additional precaution, place a scarf around the upper edge of the mask to cover any gaps. Wash the face after using the nebuliser for steroids.
Keep off the cough mixture
Coughing can be a useful reaction in asthma, evicting mucus from the lungs. But in some asthmatics the cough does not produce mucus and seems to be no more than a reflex reaction to the airway inflammation. This type of cough can be debilitating, but it is not a good idea to treat it with cough mixture which has no benefit and may mask the seriousness of the asthma. Tackling the airway inflammation with preventer drugs such as steroids is the best course. Simple expectorants, which loosen mucus, may be of value – ask your pharmacist about these.

Theophylline
Theophylline-type drugs are also known as xanthines or methylxanthines. These drugs are chemically similar to caffeine. They cannot be inhaled, so are taken as tablets or syrup. They start working about 30 minutes after being taken and their effects last for 6-8 hours. Slow-release preparations take 90 minutes to start working, but they last 12-24 hours, and are therefore useful for nocturnal asthma.
In Britain, doctors generally regard theophylline-type drugs as reliever drugs (see p. 152), but rather risky ones whose use is only justified for people with severe asthma. They are given, as an additional treatment, to asthmatics who are not responding well to the usual drug programme (see p. 160). Unfortunately, fairly high doses are needed for theophylline-type drugs to act as relievers, i.e. to reverse bronchospasm. There is a very narrow margin between such a dose and one that causes major (and sometimes dangerous) side effects.
Such side effects usually occur when the doctor is still trying to work out the correct dose – this varies from one person to another, so prescribing theophylline-type drugs is no easy matter. Once you are established on a safe dose (and provided your general health and your intake of alcohol, nicotine and medicinal drugs does not vary – see p. 158) you can usually continue taking theophylline without serious side effects.
In the United States, many doctors also give theophyllinetype drugs, at much lower doses, to people with mild asthma. At these low doses they do not act as relievers, but they have a slight anti-inflammatory effect and therefore act as preventers. The risk of toxicity is much less. Taking low doses of theophylline allows people with mild asthma to reduce their use of beta-2 relievers. However, inhaled steroids are usually more effective in this role, and are the preferred treatment outside the United States.
Side effects
Typical side effects include nausea, vomiting, stomach pains, diarrhoea (sometimes with blood), headache, anxiety, restlessness, insomnia, dizziness, and a pounding heart or irregular heartbeat.
Any side effect of these drugs should be taken seriously and reported to your doctor as soon as possible. If you cannot get an appointment quickly, it may be best to stop taking the drug before seeing the doctor, as long as you have other drugs to control your asthma. Call your doctor for advice.
It is remarkably easy to overdose when taking these drugs at higher doses (see p. 157). Such overdoses can be fatal. The symptoms include repeated vomiting, shaking, feeling unusually hot, needing to urinate frequently, severe thirst, maniacal behaviour, and irregular heartbeat (palpitations). Delirium and convulsions may occur shortly afterwards, so get hospital treatment urgently if you have any of these symptoms.
Unfortunately, a serious overdose can sometimes occur in people who have taken theophylline-type drugs without trouble for many years. There may be no advance warning that anything is wrong - no mild side effects preceding the serious ones. To protect yourself against this, you need regular blood tests from your doctor.
One fundamental problem with theophylline-type drugs is that many different factors - including diet, illnesses other than asthma, and taking other drugs - can alter the way your body deals with the drug. If your liver is breaking down the drug more slowly than usual, the amount in your blood will rapidly increase, and can reach toxic levels.
These are steps that can help prevent an overdose with theophylline-type drugs:
• If you start taking a new drug of any kind, or stop taking a drug (especially the contraceptive pill), or if you change your intake of nicotine or alcohol, ask your doctor - preferably in advance - if your dose of theophylline-type drug needs to be changed.
• A great many drugs interact with theophylline-type drugs, including the new anti - leukotriene drugs. You should always be cautious with any new drug, but take particular care with two antibiotics - ciprofloxacin (brand name Ciproxin) and erythromycin (various brand names) - and with cimetidine (various brand names), used for stomach ulcers and heartburn.
• If you have flu vaccinations, or develop certain illnesses, especially viral infections, heart disease or liver disease, watch for the typical side effects of theophylline-type drugs (see above) and consult your doctor immediately if any occur. These conditions all change the effects of theophylline-type drugs.
• Don’t eat meals that are very high in fats or oils. A lot of fatty food causes too much of the drug to be released at once from the slow-release preparations and increases the risk of side effects. Avoid sudden, major, changes to your diet.
• See your doctor regularly for check-ups. Simply getting older changes your reaction to these drugs: your dose may need to change over the years.
• If you are at all forgetful about tablets, keep a careful record of when you have taken your theophylline-type drugs. Be very careful never to take a second dose by mistake.
• Talk to your doctor if you are not taking a slow-release form of theophylline (see box below for brand names). There are usually fewer side effects from these than from the ordinary forms of the drug.
• Wear a Medic Alert bracelet (see box on p. 95) saying that you are taking theophylline-type drugs. If you have a severe asthma attack and are taken to hospital, it is important that medical staff know this, so that they do not give you more drugs of this type.
While pregnant or breast-feeding, it may be advisable to stop taking theophylline-type drugs: discuss this with your doctor. Although the drugs do not affect most unborn or newborn babies, there are occasional reports of toxicity. Less seriously, theophylline-type drugs go through into breast milk, and may make babies irritable and restless. This problem can be solved by always taking the drug just after a feed - this reduces the amount in the milk.
Theophylline-type drugs might produce behavioural problems and learning difficulties in young children although this is unproven. Research shows that there are no problems for children over six.
Anti-IgE drugs
For asthmatics with strong allergic reactions, who are not doing well on ordinary treatment, the new anti-IgE drugs, such as omalizumab may be very valuable (see p. 149). They are given as a depot injection under the skin.
Some common brand names
Common brand names of theophylline-type drugs include: slow-release preparations — Lasma, Nuelin SA, Phyllocontin Continus, Slo-Phyllin, Theo-Dur, Uniphyllin Continus
ordinary preparations - Aminophylline, Nuelin Ketotifen
Ketotifen (brand name Zaditen) is an antihistamine (see p. 138), although it has other effects in addition to those of ordinary antihistamines. Most significantly, it stabilises mast cells in a similar way to cromoglycate.
One advantage of ketotifen to many people is that it is taken by mouth, in capsule, tablet or syrup form. When it was first introduced, doctors hoped that it would be of particular help in asthma, but it has not lived up to expectations. However, some asthmatics do find it effective. It is worth trying because, it it works, it could permit you to reduce your dose of steroids.
Ketotifen requires up to six weeks to take effect, so continue taking your previous drugs (e.g. steroids) for at least six weeks, or you will risk losing control of your asthma.
Side effects
Minor side effects from ketotifen include nausea, headache, increased appetite and weight gain, drowsiness, dry mouth and slight dizziness. Do not drive until you are sure that ketotifen does not make you drowsy. Alcohol may pack a more powerful punch than usual, so drink very moderately at first. If drowsiness is a problem, take the drug in the late evening. The sleepy feeling may wear off after a few weeks of taking the drug.
There are no serious side effects from ketotifen, except if taken with drugs for diabetes.
Anti-leukotriene drugs
Leukotrienes are among the messenger chemicals that are produced by mast cells during an allergic reaction (see box on p. 12). They help to perpetuate the inflammatory process begun by histamine, and they amplify the reaction by attracting more immune cells into the area.
The anti - leukotriene drugs fall into two distinct groups:
• those that bind to the receptors for leukotrienes, called leu kotriene- receptor antagonists. Currently, there are two drugs in this group, montelukast (brand name Singulair) and zafirlukast (brand name Accolate). A third drug, pranlukast, is in the pipeline and currently going through its safety trials.
• those that block the production of the leukotrienes altogether, called 5-lipoxygenase inhibitors. There is only one drug in this group at present, zileuton (brand names Leutrol, Zyflo); it is not yet available in Britain.
As regards tackling inflammation, the anti - leukotriene drugs work in a completely different way from either steroids or cromoglycate. This makes them useful as an add-on treatment, supplementing the effects of existing anti-allergy drugs.
For asthmatics, anti-leukotriene drugs may be particularly good in combination with antihistamines – whereas antihistamines alone are singularly unsuccessful in asthma (see p. 138). Recent research suggests that taking antihistamines together with antileukotriene drugs is an effective way to control airway inflammation. However, there have been no large-scale trials of this treatment option yet, and it may be a while before it comes into general use.
In the airways of people with asthma, leukotrienes can directly trigger bronchospasm (contraction of the airway muscles) as well as fostering inflammation and increasing mucus production. This multiple action of leukotrienes makes anti-leukotriene drugs very valuable for asthmatics because they act as both relievers (reversing bronchospasm) and preventers (tackling inflammation). They are especially useful for exercise-induced asthma.
All the anti-leukotriene drugs are taken in tablet form. If you are trying an anti - leu kotriene drug for the first time, don’t expect any noticeable effects to occur for about three days. Once you are taking the drug regularly, each dose requires 2-4 hours to have its full effect, but goes on working for 12-24 hours in total.
Although anti - leu kotriene drugs have a reliever effect, they cannot give you immediate relief from bronchospasm. Asthmatics must therefore carry a short-acting beta-2 reliever (see pp. 152-3) as well, in case of an asthma attack.
For those who dislike inhalers, or tend to forget to use them, the fact that these drugs are taken once a day in tablet form makes them an attractive option. However, they are expensive, and at present doctors prescribe them mainly for young children who have difficulty inhaling their usual drugs.
Side effects
The side effects noted in safety trials of these drugs were all minor ones:
• zafirlukast – headache, nausea, diarrhoea, pain
• montelukast – headache, diarrhoea, abdominal pain, cough, and flu-like symptoms
• zileuton – upset stomach
As with all new drugs, you should report any unusual symptoms to your doctor, just in case these represent a rare or longterm side effect of the drug (see p. 137).
Very occasionally montelukast provokes allergic reactions, with symptoms such as itchiness, widespread nettle rash (urticaria) or swelling (angioedema).
Zafirlukast and zileuton can both cause liver damage, but this is rare. Your liver function should be closely monitored by the doctor, by means of regular blood tests, and the drug withdrawn at the first sign of trouble. Montelukast can also affect the liver, but this is extremely rare.
The most worrying development noticed to date is the appearance, in a very few people taking zafirlukast or montelukast, of a disorder called Churg-Strauss Syndrome. The symptoms may include a blotchy purplish rash (due to vasculitis – see lower box on p. 73), a flu-like illness, worsening asthma, and numbness or tingling in the limbs. The heart, lungs and nerves are all affected, because eosinophils (see p. 19) are present in large numbers and cause damaging inflammation.
A study of the cases reported so far suggests that this syndrome may not be due to the anti-leukotriene drugs themselves but to other causes – usually (though not always) a reduction in the dose of steroids. Other patients who are not taking antileukotriene drugs, but are reducing or stopping steroids, may also (again, very rarely) develop Churg-Strauss Syndrome. Doctors now suspect that all these patients were already suffering from an underlying eosinophilic disease, which first showed itself simply as asthma, and was quelled by the steroid treatment prescribed for the asthma. The disease was thoroughly masked as long as the patient was using steroids, but when steroids were withdrawn, the underlying disease flared up, producing a wide range of symptoms. In most cases, reintroducing steroids brings these symptoms under control again.
Putting it all together
What is the ideal combination of all these asthma drugs? That is something your doctor can only work out slowly, because it varies from one individual to another.
The conventional approach to asthma treatment is to start patients on a short-acting beta-2 reliever and then, if the symptoms are not controlled, to add other drugs. This approach is called ’stepping up’. The standard steps, or stages, are as follows:
1. Use a short-acting beta-2 reliever only.
2. Add cromoglycate or low-dose inhaled steroids.
3. Try a higher dose of inhaled steroid or a long-acting beta-2 reliever.
4. Try out each of the following in turn: theophylline, anticholinergic drugs, cromoglycate and higher doses of beta-2 relievers (either inhaled or as tablets/syrup).
5. If there is still no success in controlling symptoms, add regular steroid tablets.
Short courses of steroid tablets may be used at any stage, for the control of sudden, severe, attacks.
Over the last ten years, there has been a change of strategy, and very few people are now kept on Stage 1. Inhaled steroids are now given to most asthmatics, even those with relatively mild asthma. Research from Sweden, where widespread use of
inhaled steroids first became general policy, shows considerable benefits to this approach.
If you have gone beyond Stage 2, ’stepping up’ is usually followed by ’stepping down’. In other words, when the symptoms have been well controlled for 3-6 months, doses of some drugs are reduced, or certain drugs stopped altogether. If the asthma flares up again, the dose is increased or the drug reinstated. If there are no problems, and symptoms remain stable for a month or two, another reduction is tried.
An entirely different approach to asthma management is now being tried with some patients – starting off with moderate to high doses of inhaled steroids (equivalent to Stage 3) and then ’stepping down’. The idea is to get the inflammation under control promptly and fully at the outset. This often seems to be the best strategy.
A few asthmatics don’t get much benefit from steroids. If your dose of steroid needs to be raised repeatedly, or you still need to use your reliever daily in spite of taking steroids, you may have steroid-resistant asthma. There are other drugs that can help, including anti-leukotriene drugs and the more powerful anti-allergy drugs (see p. 149).
Alcohol, caffeine and asthma
Some asthmatics experience bronchodilation (opening up of the airways) when they drink alcohol, while others experience
bronchospasm (tightening of the airways). For those whose airways open up, there is probably no harm in sometimes having a drink to relieve your asthma symptoms, assuming these are fairly mild. Clearly, it would not be a good idea to make a daily habit of this.
If your airways tighten up with alcohol, you will probably be pleased to hear that it may not be the alcohol itself. Alcoholic drinks contain a great variety of other ingredients, either derived from the original ingredients or generated during the fermentation process. Called ‘congeners’, these vary from one type of alcoholic drink to another, and they are often the culprits in asthma. So you may well find that, while one kind of alcoholic drink has a bad effect, another is fine.
Caffeine has a far more uniform effect — for most asthmatics it opens up the airways. However, the amount needed to relieve an asthma attack will also produce unpleasant side effects, such as a pounding heart or shaky hands. There are also long-term problems with such high doses of caffeine, including insomnia, headaches, nervousness and ‘restless legs’. It is much better to use your reliever inhaler to control an attack: the drug in the inhaler has been chemically tailored to give the maximum therapeutic benefit with the minimum of side effects. Anyone who consumes tea or coffee excessively can make themselves seriously ill, either physically or mentally, and it is not always obvious that caffeine is the cause (see p. 235).

Asthma.
Tom works for the Post Office, sorting mail on a night shift. ‘After work, I come out of the sorting office - it’s about five or six in the morning, and really cold - and when I suddenly hit the cold air, I feel as if I just can’t breathe. My chest clamps up like anything, so much that it hurts. Then, when I get in the car and put the heater on, it’s fine again.’
What Tom is describing is bronchospasm, the key event in asthma – a sudden, but reversible, tightening of the bands of muscle that surround the airways. The narrowed airways stop air from leaving the lungs at the normal speed, which means the lungs are still half-full when it’s time for the next in-breath.
Taking more air into half-full lungs produces pain and tightness in the chest, as the lungs become over-inflated. (This can be alarming, because it can seem like pain from the heart, but it is just the rib joints and chest muscles hurting as they become stretched.)
Insufficient oxygen reaches the bloodstream because there is so much stale air in the lungs, so the asthmatic also feels breathless. Meanwhile, the air being forced through the narrowed airways makes a whistling sound called wheezing.
Those are the common symptoms of asthma, but there are others:
• Coughing, rather than wheezing, is the main symptom for some people (see box on p. 40).
• Sometimes there is vomiting during an asthma attack, especially in children, because the
overexpanded lungs put a great deal of pressure on the stomach.
• A few asthmatics suffer narrowing in the trachea (the upper part of the windpipe) rather than
in the airways lower down, and therefore feel as if they are being strangled.
Bronchospasm is just the endpoint of the disease process in asthma, a process which begins with inflammation of the lining of the airways. Although the airway muscles relax when an asthma attack is over, and you therefore feel much better, the underlying inflammation of the airways remains.
Airway inflammation may be caused, or partially caused, by allergy. Among asthmatic children, allergies are detected in 80-90%.
Inflammation makes the lining of the airways swell up, which itself narrows the airways a little. The inflamed airway lining often makes more mucus than usual, in an effort to protect itself (this is basically a healthy response – mucus works like a sponge mopping up irritating dust particles so that they can be ejected by coughing – but it’s excessive in asthma). This mucus can clog up the airways even more. Finally, the inflamed airways send nerve impulses direct to the airway muscles telling them to contract.
Mucus alert
Asthmatic mucus is white or clear, and sometimes frothy. Greenish or yellowish mucus suggests an infection and should be reported to your doctor.
In severe cases of asthma, a lump of mucus can completely block an airway, leading part of the lung to collapse. It is vital to clear mucus from the lungs, and a physiotherapist can help with this.
What causes asthma?
This question can be answered at three different levels:
1 What makes someone predisposed to asthma?
2 What starts asthma off – in other words, what starts the inflammation process in the airways?
3 What triggers asthma attacks (episodes of bronchospasm)?
What makes someone predisposed to asthma?
The predisposition to asthma is partly inherited (see p. and partly a matter of lifestyle: a poor
diet makes asthma more likely (see p. 206), as does too much cleanliness (see p. 21), obesity and lack of exercise.
What starts off the inflammation?
The predisposition to asthma sets the stage, but it does not, in itself, start the inflammation of the airways. That is often begun by an allergic reaction to something in the air – such as house-dust mite or pet allergens.
Alternatively, the initiating factor could be a viral infection, especially a kind known as Respiratory

Syncytial Virus or RSV – there are epidemics of RSV every two or three years. Those predisposed to

asthma may make an abnormal kind of immune response to chest infections caused by viruses, a response

that shifts the balance of the immune system towards Th2 cells (see p. 11) and allergy-type reactions.

Although the infection is defeated by the immune system, some inflammation of the airway lining

remains.
A heavy dose of certain irritants, such as chlorine, or the substances used in spray-painting cars, can

also initiate asthma; this mainly occurs in a workplace setting, causing occupational asthma (see box

on p. 133).
What triggers asthma attacks?
Once the inflammation of the airways has begun, the airways are ‘twitchy’ –oversensitive – and the

airway muscles contract (i.e. bronchospasm occurs) at the smallest provocation. This contraction of the

muscles – an asthma attack –can be caused by irritants in the air, such as tobacco smoke, or a great

variety of other things. The possible triggers range from cold air or the scent of hyacinths, to

thunderstorms, laughter or anxiety – see p. 39 for a full list. Exposure to the allergens that started

the inflammation will also trigger an asthma attack, as will a virus (viral) infection such as a cold

or flu.
For many asthmatics, the breathing pattern is disturbed by the asthma attacks, and may remain abnormal

between attacks. Hyperventilation or ‘over-breathing’ can begin quite easily for asthmatics, and then

adds to the overall problems. It may be difficult to tell if you hyperventilate or not, because your

habitual pattern of breathing will seem normal to you, but there may be tell-tale symptoms such as

dizziness, tingling of the hands and feet, numbness and muscle cramps. For a full list of symptoms see

p. 227.
Mind power
The muscle of the airways is the kind of muscle over which we have no conscious control, like that of

the heart. It is known as involuntary muscle, whereas muscles in the arms and legs, which contract or

relax when we tell them to, are called voluntary muscles. Studies with biofeedback have shown that

asthmatics may, with training, gain some degree of control over these involuntary muscles. Experienced

yoga practitioners are able to influence certain involuntary muscles, including those in the airways.
There are also various ways in which the mind, or a person’s social and emotional situation, can make

asthma worse (see p. 234) but the damaging idea that it is an entirely ‘psychological’ disease is now

discounted.
Allergens and irritants
Understanding the difference between allergens and irritants is important for asthmatics. Allergens are

specific — either pollen is an allergen for you or it isn’t, depending on how your immune system reacts

to it. They are also a basic cause of asthma — they start it off.
Irritants, on the other hand, are non-specific: they affect every asthmatic if sufficiently

concentrated, causing bronchospasm by aggravating the airway lining. And, at the levels usually

encountered, they only cause trouble because the inflammation of the airways has already occurred.

Irritants include cigarette smoke, other smoke and some industrial fumes, ozone (see p. 130), sulphur

dioxide (given off by some foods and drinks — see box on p. 207), fly spray, air freshener and other

aerosols.
Diagnosis
There are four separate aspects to diagnosis:
1 Is this really asthma or something else entirely?
2 Is it combined with other diseases, and how are they affecting the asthma?
3 What is the basic cause of the inflammation in the airways, and can this be avoided?
4 What sort of factors trigger the asthma attacks?
You may not get this full diagnostic programme, but you can probably help in finding answers to some of

the questions.
Is this really asthma or something else entirely?
There are no tests that can diagnose asthma with complete certainty, but the average case of adult

asthma is pretty easy to spot, and the same is true for children over five. It is also true, however,

that some patients now described as asthmatic would have been given a different diagnosis (e.g. wheezy

bronchitis) thirty years ago. To some extent, this is because asthma was under-diagnosed in the past:

doctors were hesitant about giving a diagnosis of asthma, because of the supposed overtones of

psychosomatic disease. Sweeping away that stigma has been of immense value, but certain patients

(especially young children) may now get diagnosed as asthmatic without sufficient evidence. However,

there are also many instances of asthma being missed.
There are two tests that should be carried out before you are given a diagnosis of asthma:
1 Peak flow is the top speed of the outgoing air from your lungs, usually measured with a simple

portable machine called a peak-flow meter. Because of the narrowed airways, asthmatics have a lower

peak flow than normal.
2 The reversibility test depends on measuring peak flow before and after inhaling a beta-2 reliever

drug which relaxes the airway muscles (see p. 152). If the drug improves peak flow by more than 15%,

this strongly suggests asthma.
Asthma may be difficult to diagnose in certain situations:
• In babies, who often wheeze, especially when they have colds or chest infections. This

generally clears up later and does not automatically develop into asthma. There is great controversy

about whether wheezy babies should be labelled ‘asthmatic’ or not, and how bad the wheezing should be

before they are given asthma drugs. Views on this vary, so you may want to see a different doctor for a

second opinion. For older children who wheeze only when they get chest infections, most doctors feel it

is valuable to use asthma drugs – such treatment does not ‘turn wheezing into asthma’
as is sometimes claimed. (There are several things you can do to minimise the chance of early wheezing

turning into asthma later – see pp. 244-9.)
• When the main symptom is coughing (see box on p. 40).
• When asthma occurs only at night. In some asthmatics, even intensive testing reveals no

abnormality in the airways during the day. The only way to diagnose the condition is to use a peak-flow

meter at home, morning and evening.
• When there is a sudden one-off asthma attack in response to a powerful allergen load. This

sometimes happens to hayfever sufferers at the height of the pollen season (especially during

thunderstorms). Some doctors will want to start asthma drugs immediately, but it may be better to get

the hayfever well controlled with antihistamines and see what happens. Often there are no further

asthma attacks.
Then there are conditions that can be mistaken for asthma:
• In children, an inhaled object – such as a nut or part of a toy – becoming stuck in the

airways. In babies it can also be inhalation of milk droplets; if so, the ‘asthma’ comes on mainly

after feeding.
• Post-nasal drip (see p. 29)
• Heiner’s Syndrome – (see p. 72)
• Bronchiolitis: a viral infection (generally caused by RSV –see p. 37) which affects the small

airways (the bronchioles) of babies and toddlers. Unlike asthma, it usually produces fever.
• Gastro-oesophageal reflux (GER), or the rising of acid from the stomach into the oesophagus.

(This is commonly called heartburn, after its most typical symptom, but you can suffer from GER without

having heartburn.) GER can aggravate existing asthma, and it can also be an asthma mimic. Babies,

children and adults can all suffer from this problem. There will usually be clues such as symptoms that

come on at night after a late supper, or whenever lying down.
• Hyperventilation (see p. 227) in non-asthmatics can be misdiagnosed as asthma if it causes

breathlessness.
• Aspergillosis (see box on p. 18)
• Problems with the vocal cords. Habitually contracting the vocal cords on the in-breath makes a

loud wheezing sound and can cause breathlessness. This problem can mimic asthma, but it also affects

those who really are asthmatic. The cause may be psychological.
• Low-level carbon monoxide poisoning, generally from gas fires, which can cause breathlessness

and fatigue.
• Bronchlectasis: stretching and damage to the airways caused by diseases caught in childhood,

such as pneumonia or whooping cough. This causes lifelong breathlessness.
Is it combined with other diseases, and how are they affecting the asthma?
Any allergic problems in the nose will contribute to asthmatic symptoms in the lungs, because there are

nerve-connections between the two. Long-term sinusitis can also make matters worse. Optimum treatment

for the nasal and sinus symptoms (see pp. 28-35) will help considerably with the asthma.
One unlikely source of asthmatic symptoms has only recently been recognised: allergies can develop to

the fungi causing athlete’s foot, or other diseases (see pp. 16-17).
GER (see p. 38) can contribute substantially to asthma. In some people, the reflux causes no obvious

symptoms, apart from worsening the asthma; medical tests can show that reflux is occurring. Your doctor

can advise on this, and on treatment.
For older people, especially veteran smokers, asthma may be part of a larger picture of inflammation

and damage to the air sacs of the lung (emphysema) and/or to the airways (bronchitis). This mosaic of

problems is known as chronic obstructive pulmonary disease (COPD). It may be difficult to tell if there

is asthma present, or how much it is contributing to the overall problem. Since many patients with COPD

are helped by asthma drugs, and trying out the drugs does no harm, doctors often prescribe them just to

see what happens.
What is the basic cause of airway inflammation? Skin-prick tests are usually needed here, to check for

allergic reactions. It may be difficult to get these in Britain, where there is a shortage of

allergists (see p. 89).
Simple detective work may pinpoint allergens without the need for tests. The likely suspects are all

airborne allergens – see p. 28. Remember that the reaction does not generally start as soon as exposure

to the allergen begins: there is a time-lag. So a new dog or cat, or an allergen encountered at work,

may cause no trouble for the first year or two.
Some irritants can also be a basic cause of asthma, but only if encountered in high doses, which

usually occur in the workplace. These are called asthmagens (see box on p. 133).
In all cases, removing the allergen or irritant from the airways should be a top priority. The sooner

you can end the exposure, the more likely you are to shake off the asthma, rather than have it for

ever. Once the inflammation of the airways is firmly established, it just fuels itself – so act

quickly.
In a minority of cases, food sensitivity is the initiating cause of asthma. The reaction to food is

delayed, so the link will not be obvious. Skin-prick tests for the culprit food are usually negative,

so an elimination diet (see p. 194) is needed to diagnose this problem and identify the food concerned.

Those most likely to benefit are brittle asthmatics (those most severely affected) – as many as 60%

have a food sensitivity. There are various other clues that food could be a factor (see p. 69).
When asthma begins in adulthood, there may be no clear initiating cause – it is just a question of

long-term damage and irritation to the airways. But there can be allergens playing a part, so it is

worth investigating this possibility.
What sort of factors trigger the asthma attacks?
Most asthmatics will recognise one or more of these as triggers:
• cold or dry air
• strong smells including perfume and fragrant flowers
• irritants in the air (such as cigarette smoke and other indoor pollutants, traffic fumes,

industrial pollutants); indoor pollution is often the worst, especially if you have a gas cooker

without adequate ventilation, so there is a lot you can do to improve the air you breathe (see pp.

128-30)
• sulphur dioxide given off by preservatives used in some food and drink (see box on p. 207)
• weather conditions, particularly thunderstorms
• laughing, sighing, yawning, coughing or any other altered breathing pattern
• stress or anxiety
• strong emotions such as fear, anger or excitement
• situations or people that evoke unpleasant memories –including traumatic childhood memories;

sometimes psychotherapy is needed to sort out such problems (see p. 233)
• exercise (because breathing hard dries out the airways)
• the allergens responsible for the asthma, e.g. cat allergen
• colds, flu and chest infections.
Recording your symptoms day-by-day should help to identify the triggers that are most powerful for you.

Generally speaking, such triggers should be avoided, but this is not the case for exercise which does

much more good than harm, in the long run – without exercise, your asthma will get far worse (see p.

41).
Take care with aspirin
Aspirin sensitivity can develop unexpectedly in asthmatics, especially those with allergic rhinitis

and/or nasal polyps (see box on p. 28). It can produce a severe, even fatal, asthma attack in someone

who has previously been able to take aspirin (see p. 151).
Treatment
The first and most important aspect of asthma is environmental control – to try to minimise contact

with allergens and irritants. If you are asthmatic and you smoke, you must stop, because this will only

make matters worse by stoking up the inflammation. Any other smokers in the family should accept that

from now on this is an outdoor activity.
One of the aims of good asthma treatment is to calm the airways down, so that they are less sensitive

and ‘twitchy’. This means tackling the inflammation. You can do this with preventer drugs such as

steroids or cromoglycate (see p. 157), or with the new anti - leu kotriene drugs (see p. 159), or you

can simply remove the basic cause of the trouble, if it is a domestic allergen source, such as a cat, a

dog or house-dust mites.
Treating associated diseases such as sinusitis, hayfever, perennial allergic rhinifis, gastroesophageal

reflux (GER – see p. 38) and athlete’s foot (where this is adding to the symptoms – see p. 16) can also

help in reducing the airway inflammation. Eating a better diet may make a further contribution to

calming the airways down (see p. 206).
The second strand of treatment is to deal with bronchospasm (contraction of the airway muscles) when it

occurs. This is done with reliever drugs such as Ventolin and Atrovent (see p. 152). Note that these

only relieve the symptoms of an asthma attack, and do not address the underlying problem of

inflammation. What is more, if used too frequently (more than once a day) they may increase the risk of

a fatal or near-fatal asthma attack (see p. 153).
At one time, reliever drugs were the mainstay of asthma treatment, and were perceived as entirely safe,

while preventer drugs such as steroids were only given to those with severe asthma. All this has

changed, and most asthmatics, other than those with very infrequent attacks, are now given a

pre-venter. If your drug regime has not been reviewed for some time, make an appointment with your

doctor and check that you are getting the best of the modern treatments.
Drug treatment of asthma is not something you can just hand over to the doctor – it requires a lot of

personal decision - making. If you usually get worse when you have a cold, for example, you need to
Just a cough?
For some, coughing is the main symptom of asthma. Known as cough-variant asthma, this is not always

diagnosed correctly, especially in children. For children with recurrent coughing (two or more episodes

per year of coughing without a cold) it may be a long time before the doctor considers asthma. But

other doctors may diagnose a coughing child as `asthmatic’ all too readily, without doing enough tests.

The important point is that asthma involves episodes of bronchospasm – contraction of the airway

muscles. Without this it is not asthma. Bronchospasm can be detected by medical tests such as peak-flow

readings. Wheezing is one possible symptom of bronchospasm, but coughing is another.
If there is only coughing as a symptom, and never any wheezing, this is probably not asthma. Among

children with this pattern of symptoms, allergies are unlikely to be involved. The cause of such

coughing may be:
• in children, the effects of parental smoking
• in those with perennial allergic rhinitis (see pp. 28-9) mucus from the nose running into the

lungs. This is called post-nasal drip and produces a persistent cough.
• in the middle-aged, eosinophilic bronchitis. This is caused by an influx of eosinophils (see p.

19) into the airway lining, causing inflammation. Allergies do not seem to play a part (it is no more

common in atopics than anyone else) and the airway muscles do not contract abnormally. Treatment is

with inhaled steroids.
• in atopics (those prone to allergies), a condition sometimes called atopic cough. It involves

eosinophils congregating in the trachea (windpipe) and bronchi, but not in the lower airways. There is

inflammation but no airway narrowing. Very little is known about this disease at present; it may or may

not involve allergies. Again, inhaled steroids are effective.
• for a few people, habitual coughing. This is usually an expression of some underlying emotional

difficulty and responds to psychological treatments. The cough often has a honking or barking sound.
Any of these can be misdiagnosed as asthma. For patients with eosinophilic bronchitis or atopic cough,

this is no tragedy as they will probably get the right treatment (inhaled steroids) anyway. But if more

exact diagnostic criteria are being used (e.g. a reversibility test – see p. 38) such patients will not

be classed as asthmatic – this is more of a problem because they may not get appropriate treatment.
increase your dose of preventer as soon as a cold appears, to stop airway inflammation before it

starts. You also need to know when an asthma attack is serious enough to warrant calling an ambulance.

A management plan, worked out with your doctor, is a useful aid (see p. 96). Using a peak-flow meter,

night and morning, to monitor your asthma will also be valuable (see p. 97).
The third strand of asthma treatment is to deal with associated problems:
• Panicky reactions during asthma attacks –which make matters infinitely worse – can be dealt

with by meditation, yoga, relaxation techniques or martial arts training (see p. 222).
• Hyperventilation, which plays a much larger role in asthma than previously suspected, can be

tackled by a variety of methods (see p. 228).
• The distortions of the rib-cage that develop in severe asthma can be treated with osteopathy.
• Losing weight, if you are very heavy, will help ease the burden on your breathing.
Exercise and asthma
Exercise-induced asthma is best tackled, paradoxically, by taking exercise. As your fitness improves,

you don’t pant so hard when exercising, so your airways dry out much less. Countless asthmatics will

tell you that once you overcome the first hurdle – of wheezing the minute you start to exercise –

things get a great deal easier. You will need reliever drugs, and possibly extra preventer, to help you

over this hurdle, but it’s worth it. Warming up with a few sharp sprints, separated by a rest period,

will also help. (If you get an asthma attack while exercising, however, you should always stop –

carrying on regardless can be fatal – literally. Always have your reliever inhaler with you when you

exercise and use it if you get an attack.)
Swimming is an excellent starting point for unfit asthmatics, because the moist air prevents the

airways from drying out. Swim outdoors if you can, since chlorine can be an irritant.
Once you are fitter, regular strenuous exercise makes the breathing muscles stronger, which is of great

benefit – this can also be achieved with special exercises (see p. 231).
Don’t underestimate asthma
Asthma can be fatal, so never take it too lightly. If you often wake up in the night with asthma, you

cannot keep up with most other people your age, or are frequently breathless when climbing stairs or

walking uphill, then your asthma is not under control. The same is true if you need your reliever

inhaler more than once a day, or frequently need steroid tablets. Review your treatment with your

doctor because you probably need more preventive treatment such as inhaled steroids (see p. 157) or

anti-leukotriene drugs (see p. 149).
Recognising an asthma attack and knowing when to call for help, or go to the hospital, is also crucial

(see p. 100). Remember that fatal asthma attacks often come on very quickly – half those who die do so

within two hours of the attack starting, and a quarter die within 30 minutes. Those who die are

generally people who have neglected their preventer medication, or have been exposed to very high

levels of allergens.
There is a major organisation involved in asthma prevention, by the name of Asthma UK. They work together with people with asthma, health professionals and researchers, to develop and share expertise to help people increase their understanding of asthma, and asthma prevention, allowing them to voice their concerns to the people who matter and reduce the effect of it on their lives. They are the only charity dedicated to asthma prevention by improving the health and well-being of people with asthma and are funded by voluntary donations, indeed they are responsible for nearly £3m of asthma research each year for the cause of asthma prevention.

A form of asthma prevention can be in the improvements in environmental quality to benefit everyone in the school building because pollutants have a universally negative effect. For example, for the benefit of the students, schools should undertake extensive building repairs, painting, cleaning, and extermination during long vacations. They should replace plastic furniture and carpeting, which often emit pollutants in the form of noxious gases. For further asthma prevention, they should limit use of cleaning supplies and equipment that emit toxic fumes and strong odours which again are pollutants, and require good ventilation when they are used. They should have the entire building (particularly the heating and ventilation system) cleaned regularly to eliminate dust mites, mildew, animal dander, feathers, cockroaches, and other possible asthma and allergy triggers, and make sure that leaks of water and plaster dust are stopped and quickly cleaned up. Additionally the can help in asthma prevention by regularly monitoring the air quality of schools, especially those in sealed buildings and try to increase the ventilation so that pollutants can escape. All this can help with asthma prevention. So whilst schools may not be able to eliminate other pollutants, such as chalk dust, they can, as an act of asthma prevention, find out which of them are triggers for particular students and try to limit the student’s exposure to them. Further, sensitive scheduling can keep students with specific sensitivities away from certain art supplies and animals, which may enhance the education of some students but sicken students with asthma.

As an asthma prevention in Scandinavia, cross-country skiers sometimes wear breathing masks which store the heat and moisture from the air they breathe out and then return it to the air they breathe in. This is helpful in avoiding exercise-induced asthma. Good control of your asthma, whether by breathing in a ‘preventer’ treatment or by avoiding causes of asthma such as house dust mites and pets can have a tremendously helpful effect on exercise-induced asthma. Reliever inhalers can be tremendously helpful in asthma prevention if you use them just before you exercise. This applies especially to the so-called ‘beta-2 stimulants’ such as salbutamol (albuterol) or terbutaline. The benefit should last for hours. Long-acting reliever inhalers are also very helpful; they just work for longer. If you are a competitive athlete or sportsman, you may be concerned about disqualification because you use drugs. The good news is that all the ordinary asthma medicines, used in the medically recommended way and dosage, are acceptable to sporting bodies provided you use them correctly for asthma. The wise thing is to check with your sports authority or sports doctor. Asthma prevention is good asthma management!
There are oral asthma medications that an individual can take to control their asthma, inhaled at the onset of an asthma attack. People with asthma can carry a peak flow meter; a hand-held tool for measuring their air flow to determine whether an attack is imminent, thus requiring their asthma medications. With help from medical providers and age-appropriate printed materials, children can learn to monitor their asthma and self-medicate with their asthma medications. Taking such control of their asthma medications not only decreases its symptoms, but also promotes the children’s feelings of self-confidence, with the management of their asthma and its medications.

There are dozens of asthma medications available in the UK; the most frequently prescribed of these medications being: Ventolin; Bricanyl; Becodite; Pulmicort; Intal and Tilade. The first 2 asthma medications are essentially relievers, whilst the others are preventers. The preventer drugs are taken by an inhaled route and must be taken regularly to gain maximum effect. They belong to either the steroid or anti-inflammatory groups of asthma medications. The reliever drugs do not need to be taken as often; indeed there is evidence to support that these medications are more effective when they are taken only occasionally. Naturally there will be a concern about side effects, but in the main, asthma medications are safe and free from problems.

One such treatment which can have side effects is a steroid called prednisolone; which is taken by tablet form. These asthma medications dampen down and reduces inflammation, swelling and phlegm. There is a soluble form of these medications called Prednesol, which is useful for children and people who struggle to swallow tablets. If used in short courses there should be no risks at all; it is only when these asthma medications are prescribed over a period of years that certain side effects can occur. These include skin changes, thinning of the bones, increased blood pressure, indigestion, ulcers and the development of diabetes. Once again the emphasis is on serious long term prescriptions of these asthma medications and a brief course has no history of causing any of the above side effects.

Asthma is not an allergy as such, but there are asthma triggers, which can be caused by an allergic reaction to any number of incidents. If you have asthma, your air passages are irritable. This means things which are harmless to other people may be asthma triggers to an asthma sufferer. Various asthma triggers include: (i) Emotional stress - people with asthma often say their asthma gets worse if they are upset. (ii) Cold air - if you move from warm indoor air to cold air outdoors it can affect the air passeges. (iii) Pollution, in particular tobacco smoke - e.g. in a pub, can be one of the more common asthma triggers. (iv) Grass pollen - particularly when exposed to a recently mown lawn. (v) House dust mites - often attracted by central heating. (vii) Pet fur - especially during the malting season can affect the air passeges. (viii) Exercise - can provoke narrowing of the air passages. (ix) Infections of the lining of the breathing passages - e.g. colds and ‘flu. (x) Some drugs - especially medicines called beta blockers used for high blood pressure or heart disease have been known to be asthma triggers. (xi) Indigestion - also called gastro-oesophageal reflux, with stomach acid coming up into your gullet. (xii) Laughing - so don’t laugh! (Only joking, but it can happen). All the above reflect the irritability of the air passages in asthma, even if some of them do so in somewhat different ways, they all can be asthma triggers.

There have been significant changes in air quality over the past few decades. Pollution, from the burning of coal, which resulted in emissions of sulphur dioxide and particulate matter has decreased considerably; however, the frequency of peaks of traffic related pollution and the geographical extent of it have probably increased. Episodes of pollution from secondary pollutants, notably ozone, produced by photochemical oxidation, have also increased and this is one of the chief asthma triggers. Moreover, there have also been changes in people’s diet, lifestyle, and in homes and other indoor environments. For example, homes have tended to become warmer and, in this and other ways, much more appealing to cohabitation by dust mites, a real enemy of asthma sufferers. All these can act as asthma triggers. Cinemas and theatres can also surprisingly act as asthma triggers for some people. Research carried out recently found low levels of bacteria and moulds on carpets and seats, but high concentrations of cat allergens; presumably brought in on the clothes of members of the audience. Maybe get a DVD next time!