Posts Tagged ‘principle’

dornase alfa A recombinant form of human deoxyribonuclease (rhDNase) used in cystic fibrosis. The viscous purulent airways secretion of that disease is due to the presence of large amounts of extra-cellular DNA from degenerating leucocytes. Dornase alfa breaks down the DNA and reduces the sputum viscosity. Dose: 2500 units daily by inhalation from it jet nebulizer. Daily treatment is necessary to maintain the response. (Ptilillozvme).
dorzolamide An inhibitor of carbonic anhydrase that reduces the amount of sodium bicarbonate in the aqueous humour of the eye. It is used as eye drops (2%) 2 or 3 times a day as adjunctive therapy in ocular hypertension when beta-blockers are unsuitable or ineffective. (Trusopt). See page 138 and Table 16.
dothiepin (dosulepin) A tricyclic antidepressant with the uses and side-effects of antitriptyline. It is used in the treatment of depression when a sedative action is also indicated.
Dose: 75-150 mg daily. It may also be given as a single nightly dose to reduce daytime drowsiness. (Prothiaden). See page 128 and Table 11.
doxapram A respiratory stimulant useful in postoperative respiratory failure under expert control.
Dose: by i.v. injection 1-1.5 nig1kg according to need. It is also given by i.v. infusion in doses controlled by arterial food gas studies. Side-effects include hypertension, Ypertension, bronchospasin and tachycardia. (Dopram).
doxepin An antidepressant with the actions, uses and side-effects of dothiepin.
Dose: 30–300 nig daily; a single dose of I Ito mg is sometimes given at night. (Sinequan). See page 128 and Table 11.
doxorubicin A cytotoxic antibiotic widely used in leukaemia, lymphosarcoma, breast and lung cancer.
Dose: by fast i.v. infusion 60-75 nigIm’ at intervals of 3 weeks, or 20-25 mg/m’ daily for 3 days. It is also used by bladder installation (50 mg in 50 nil of saline solution) for superficial bladder tumours. Side-effects include bone marrow depression, cardiac damage, alopecia, buccal ulceration and nausea. Doxorubicin is it skin irritant, and should he handled with care. See page 122 and Table 8.
doxycycline A long-acting tetracycline. Dose: 200 mg initially, followed by 100 ing its a single daily (lose. In acne, a dose of 50 mg daily is given for some weeks. It should be taken with adequate fluid, with the patient in a sitting or standing position. (Nordox; Vibramycin).
droperidol A tranquillizer with unusual properties. It is given in severe psychotic conditions such as mania, in drug-induced nausea and vomiting and for preoperative sedation. It is also given with fentanyl to produce a state of detachment (neuroleptanalgesia).
Dose: 20-120 ing daily; 5-10 ing by injection; in cancer therapy induced vomiting (loses of 1-3 nig/hr have been given by continuous i.v. infusion. Side-effects are those of chlorpromazine and haloperidol. (Droleptan).
doxazocin An alpha-adrenoceptor blocking agent of the prazosin type, but with a longer action that permits a single daily dose.
Dose: in hypertension I mg initially, slowly increased after 7-14 days to 2 mg daily, up to a daily maximum of 16 ing, usually in association with other amihypertensive drugs. It is also used in Iliesymptcunitic treatment ofbenign prostatic . P
hy erplasia. Side-effects are
dydrogesterone An orally active progestogen that is virtually free from
any oestrogenic or androgenic side-effects. It is used in amenorrhoea, endometriosis, functional uterine bleeding, and threatened abortion.
Dose: 10-30 mg daily. (Ouphastort).

econazole An antifungal agent similar in actions and uses to clotrimazole. (Ecostatin; Pcvaryl).
ecothiopate A potent and long-acting iniotic that has been used in glaucoma as eye drops of 0.03-0.25%. It may cause cataract; its availability is strictly limited.
edrophonium A very short-acting drug of the neostigniine type. It is used in the diagnosis of myasthenia gravis.
Dose: 2-10 nig by i.v. injection, which causes a marked but transient increase in muscle power if myasthenia gravis is present.
eformoterol A selective P2 stimulant (agonist) with a rapid initial action, used as supplementary treatment in patients receiving other bronchodilator therapy for reversible airway obstruction.
Dose: by inhalation: 12µg twice daily, doubled if necessary. (.are is necessary in ischaernic heart disease and diabetes. Not to be used for acute attacks. (Foradil). Sec page 118 and Table 6.
enalapril An ACE inhibitor used in the treatment of all types of hypertension, and in congestic heart failure, often together with a diuretic.
Dose: i ing daily initially, increase(] as required up to 40 mg daily, and often given as a single dose. Dizziness, hypotension and loss of taste are some side-effects. ! I imov.i, :. See page 148 and Table 21.
enflurane An inhalation anaesthetic with the actions and uses of halothane, but less potent.
epoetin alfa and beta Recombinant fornis of human erythropoietin. (Eprex; Recormon). See erythropoietin.
epoprostenol A prostaglandin present in the walls of blood vessels that inhibits platelet aggregation. It is used to prevent platelet aggregation during cardiopulmonary bypass and charcoal haemoperfusion, and as an alternative to heparin in renal dialysis.
Dose: 10-20 ng1kShnin by continuous i.v. infusion. Smaller doses in renal dialysis. It is also a vasodilator, and side-effects are flushing and hypotension. (Flolan).
enoxaparin A low-molecular weight and longer acting form of heparin. It has the general properties of heparin, but with less effect on blood platelet activity. It is used in the prevention of venous thrombosis. Dose: 20 mg by sx. injection once daily ( I hour before surgery) for 7-10 days. (Clexane). See certoparin, dalteparin and tinzaparin.
enoximone An inhibitor of the enzyme phosphodiesterase. It has a digoxin-like action on the myocardium and is used in
eptacog alfa See Factor VIIa.
ergocalciferol See calciferol.
ergometrine The principal alkaloid of ergot. It promotes uterine contraction and is used for the rapid control of postpartum haemorrhage. Dangerous in the early stages of labour.
Dose: 05-1 nig orally; or 200-500 jig by injection. It is often used together with oxycytocin as Syntometrine. Side-effects are nausea and transient hypertension.

ergot A fungus that develops in rye and replaces the normal grain. The active principles include ergometrine and ergotamine. Chronic toxic effects characterized by gangrene of the extremities have followed the use of ergot-contaminated rye bread.
ergotamine Air alkaloid of ergot that constricts the cranial arteries, and is used solely for the relief of migraine not responding to analgesic therapy. Early treatment evokes the best response.
Dose: 2 mg initially up to 6 ing during an attack, not to be repeated until after an interval of some days.”I oral dose in I week: 10– 12 mg. It is also given by oral inhalation in doses of 360pg ( I puff), repeated after 5 minutes, up to a maximum of 6 puffs daily. Side-effects include headache and nausea, and the drug should be withdrawn if tingling of the extremities occurs.
trot suitable for prophylaxis because of the risks of toxicity. (Lingriine). Sec page 154
erythromycin Air antibiotic, resembling penicillin in its general range of activity, with the advantage of being active orally. It is useful in streptococcal and respiratory infections and in penicillin-resistant staphylococcal infections. Erythromycin is also of value in penicillin-sensitive patients. It is also given as a prophylactic before dental surgery. Dose: up to 4 g daily; in severe infections it may lie given by slow i.v. infusion in closes of 50 mg/kg daily. Side-effects include nausea and vomiting, and diarrhoea may occur after high doses. Gore is necessary in hepatic impairment. Preparations of erythromycin estolate are contraindicated in liver disease. Erythromycin may potentiate the action of warfarin. It should not be given with aslenii/.ole or terfenadine.
erythropoietin (epoetin) A renal hormone that regulates blood cell production in the bone marrow. Patients with renal failure maintained by haemodialysis do not
produce epoetin, and so become anaemic. A recombinant form of erythropoietin is available for replacement therapy.
Dose: 20-50 units/kg 3 times a week by s.c. or i.v. injection under haematological control. Side-effects include headache and hypertension, but a sudden migraine-like pain may indicate air impending hypertensive crisis. (Eprex; Itecormon).
eserine See physotiginine.
esmolol A very short-acting betaadrenoceptor blocker used in the emergency treatment of supra-ventricular arrhythmias, tachycardia and perioperative hypertension.
Dose: by i.v. infusion 50-200pg/kg/rniri under close control. (Brevibloc).
estramustine A compound of oestradiol and inustine, designed to release mustinc at oestrogen-receptor sites. It has a more localized action and so causes less myelodepression. It is used mainly in prostatic carcinoma, especially when resistant to other therapy.
Dose: 0.56-1.4 g daily. It should not be taken with food or milk products. Side-effects include gastrointestinal disturbances, nausea and gynaccomastia. (Fstracyt). See page 122 and Table 8.
ethacrynic acid A loop diuretic with a rapid and intense action used mainly in oliguria due to renal failure.
Dose: 50 ing daily initially, increased as required up to a maximum of400rng daily or on alternate days. Ethacrynic acid is also given by slow i.v. iniection in doses of 50-100 mg in acute or refractory conditions. Side-effects include nausea, diarrhoea and deafness. Some hypotension may occur initially. (Edecrin).
ethambutol An antitubercular drug.
Dose: 15 mg/kg daily, together with i i lo i i ipic in or isoniazid. Lower doses should be given in renal damage. It may cause visual disturbances with loss of acuity, but recovery is usually complete on withdrawal of the drug. (Myarnbutol). See page 170 and Table 31.
ethamsylate A haemostatic used in the prophylaxis and treatment of periventricular haemorrhage in low birth-weight infants.
Dose: 12.5 mg/kg by injection 6-hourly within 2 hours of birth and continued for 4 days. It is also used orally in menorrhagia. Dose: 2g daily. (Dicynene).
ethanolamine oleate A sclerosing agent used for varicose veins and bleeding oesophageal varices.
Dose: by local i.v. injection, 2-5 nil.
ether A colourless inflammable liquid, once widely used as a general anaesthetic but now replaced by halothane.

Homeopathy
`We believe that a serious effort to research homeopathy is clearly warranted despite its implausibility.’ That was the conclusion of a group of German and American scientific

researchers who, in 1997, looked at every study of homeopathy they could find. This prestigious trans-Atlantic team carefully assessed the scientific validity of each study, and

then considered the data from studies that were of reasonably good quality.
This kind of study, in which all the available research data on a topic are combined, is called a meta-analysis. There were 119 research studies which were good enough to be

included in this meta-analysis and, taken together, these studies suggested that homeopathy does indeed have some real effects. In other words, it produces significantly more

benefits than simple placebo effect – the psychosomatic improvement which tends to occur with any treatment, even a dummy pill (see p. 233).
Some of the most convincing scientific studies included in the meta-analysis were those relating to homeopathic remedies for allergic conditions (see p. 217). But what exactly

does this mean for allergy sufferers? Is homeopathy a treatment that is worth a try? Unfortunately, it is difficult to say.
Firstly, the evidence from the homeopathy meta-analysis is far from overwhelming, as the researchers themselves point out. The observed improvements – the overall differences

between the placebo and the homeopathic remedy – are not huge. Secondly, even if there are some homeopathic treatments that have real effects, it does not mean that every kind

of homeopathic treatment works. Homeopathy is a very broad field, with a multitude of different approaches. The types of homeopathy that have been tested, and appear to help,

may bear little or no relation to the homeopathic remedies that are generally available (see p. 217).
`Let like cure like’
The central idea in homeopathy – often known as the principle of similars – is that a substance which causes a particular set of symptoms can also, if handled in the right way,

cure symptoms of
a similar kind. In the words of Samuel Hahnemann, the German doctor who invented homeopathy at the beginning of the 19th century, ‘Let like cure like.’
The natural substances that form the basis for homeopathic remedies are mostly derived from toxic plants or minerals. (Sometimes extracts from diseased tissue – called nosodes –

are used instead, but this is a relatively recent development. So is the use of allergen extracts, such as pollen, described on p. 217.) Hahnemann himself began with the

standard drugs of his own day, such as belladonna and arsenic compounds. His innovation was to use them in very much smaller doses than his fellow physicians, and to apply them

to entirely different diseases.
Hahnemann worked by first discovering what the effects of the drugs were, when taken by a healthy person (he experimented on himself and his family for this). Then he tried to

match the symptom pattern produced by the drug with the symptoms of a particular disease. For example, he observed that belladonna produces hallucinations and a hot, dry skin –

symptoms that were also seen in children with scarlet fever. He claimed that, by giving belladonna in very small doses, much less than was normally used, he could stimulate the

body to heal itself of scarlet fever.
Hahnemann, unlike his medical contemporaries, also advocated a good diet, fresh air and exercise. And he was heartily opposed to the conventional medicine of his day, a brutal

business that involved a great deal of blood-letting and large doses of very toxic medicines. Considering how useless, and indeed dangerous, the orthodox medicine of the time

frequently was, Hahnemann’s successes were not really surprising.Less is more’
Homeopathy today is the ultimate version of the ‘less is more’ philosophy. A homeopathic remedy is prepared by taking the basic ingredient, dissolving it in water, and then

diluting that solution over and over again. Imagine pouring a bottle of wine into the Pacific Ocean, and you have a rough idea of how dilute homeopathic remedies are. Making

extreme dilutions was an idea introduced by some of Hahnemann’s followers, after his death.
Dilution is only part of the story, however. With each dilution, homeopaths apply a special shaking-and-tapping technique known as percussing. This was originally done by hand,

but now is often done mechanically. Homeopaths believe that percussing makes the active substance more powerful, despite the dilution. The term used by homeopaths is potency,

and a homeopathic remedy of the highest potency is the one that has been most thorDughly diluted and percussed.
In fact, a simple calculation, using the basic laws of physics, shows that there is nothing there at all but water – many homeo pathic remedies are watered down so thoroughly

that not one Jingle molecule of the active substance is likely to remain. It is  which leads medical researchers to use words such as ,nplausibility’ (see p. 216) when talking

about homeopathy.
Nhat homeopaths do
\ homeopath starts by considering all your symptoms (not just allergies, but any other symptoms as well) and various other characteristics that conventional doctors do not

usually consider, including physical appearance and psychological traits. The homeopath then chooses a substance which, if taken at full strength, would produce a comparable set

of symptoms and characteristics. This approach is called classical homeopathy.
In addition, homeopaths often give advice on diet, sleep, exercise and allergen avoidance. As in the early days of homeopathy, this may be the most important part of the

treatment.
Like many other complementary therapists, homeopaths will listen if you need to talk about personal problems and emotional difficulties, and will offer reassurance or advice.

This can be valuable, though not everyone would agree that a homeopath is the best source for such help. There are two distinct traditions within homeopathy – a scientifically

inclined tradition (represented today by experiments with homeopathic immunotherapy – see right) and a highly metaphysical tradition. Among the many ideas floating about within

the metaphysical tradition is the notion that all illness is a result of psychological or moral failings. Attitudes of this kind, which are quite common among complementary

therapists, can be very damaging (see p. 209).
Sometimes homeopaths recommend avoiding certain foods, on the assumption that the patient suffers from food intolerance, though they rarely use an elimination diet (see p. 194),

the only way to achieve accurate diagnosis.
In addition to all this, some homeopaths also give herbal remedies where they think it will help. This approach is called complex homeopathy.
A much more recent development within homeopathy is homeopathic immunotherapy or HIT, which uses an extreme dilution of an allergen (such as pollen or dust mite) to treat people

who are allergic to that substance. While homeopathic immunotherapy was inspired by conventional immunotherapy, the relationship between the two is a very distant one indeed.

The extensive dilution process means that the liquid used for homeopathic immunotherapy is unlikely to contain even one molecule of the allergen. This puts it in a completely

separate realm from conventional immunotherapy, where the presence of the allergen, and the steadily increasing dose with successive injections, is what produces the beneficial

effect (see p. 166).
Does it work for allergy?
Two scientific trials suggest that HIT makes a difference, albeit a small one, for hayfever and pollen asthma. In the meta-analysis described on p. 216, one of these trials was

given a good rating for scientific reliability, and the other was considered fairly good.
Another type of homeopathic treatment that appeared to be effective for patients with allergic asthma was one using a nosode – an extract of the asthmatic airway itself. A small

sample of the airway was taken from each asthmatic patient, diluted and per-cussed, then given to the patient as a treatment. It seemed to work, and the scientific rating of

this trial was very high.
The third homeopathic treatment that appeared to have an effect in valid scientific studies was Galphimia, used for symptoms in the eye caused by pollen allergy.
If you go to a local homeopath, it is very unlikely that you will be given either of the first two treatments – these are only used experimentally, in large research centres.
The Galphimia treatment might be available from a local homeopath, but it will not necessarily be in the same form as the treatment used in the scientific trial.
Note that all the studies described above are trials with a positive outcome. If you are trying to assess homeopathy overall, you should also consider the many trials that found

no effect. For example, a very careful study of homeopathy for children with asthma, carried out at the University of Exeter and published in 2003, found no benefit from

individualised homeopathy treatment.

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.