Posts Tagged ‘itchiness’

Allergens and irritants at work
Some workplaces have very high concentrations of allergens in the air, especially if proper safety procedures are not being followed. Occupational allergies can begin with symptoms in the nose, such as sneezing, blockage or constant streaming (allergic rhinitis). You may also suffer with itchy or watery eyes (conjunctivitis), a cough, sweating and a feverish feeling. Alternatively, direct contact with the allergen can produce a skin rash (dermatitis) or itchiness and swelling (contact urticaria/nettle rash and angioedema).
If you work somewhere with an allergy risk (see pp. 133-4), be vigilant for such symptoms and see your doctor immediately. These symptoms can be the forerunners of occupational asthma, which is a serious and potentially irreversible problem. Some allergens, such as latex, can even produce anaphylactic shock (a life-threatening allergic collapse).
Skin-prick tests (see p. 91) can show if you have an allergy to a substance encountered at work.
Acting promptly gives you the best possible chance of recovery and is vital if you have occupational asthma. Only if exposure to the allergen stops promptly do you have a good chance of shaking off the asthma. See your doctor as soon as possible and ask for a referral to a chest specialist, so that a definite diagnosis can be made. This is essential if you are going to make a claim for compensation.
Far too many people with occupational asthma are just sent off with an inhaler when they first see their doctor. By delaying the moment when work is identified as the source of the problem, and the exposure to the allergen is stopped, drug treatment can turn occupational asthma into a disabling lifelong problem. Although drugs can be helpful in speeding your recovery once exposure to the allergen
Latex allergy
Sensitisation to latex usually occurs at work (see pp. 133-4), or as a result of having many surgical operations. But latex allergy sometimes occurs in allergy-prone people even though they don’t work in a high-risk job and haven’t had many operations. Some doctors think that if a child with severe allergies needs surgery, this should be done in latex-free conditions, even though the child has no allergy to latex, because of the risk that the operation will sensitise.
Latex can cause either contact dermatitis (see p. 55) or a Type I allergy, whose symptoms can include urticaria, asthma and anaphylaxis. Latex allergy often goes undiagnosed. Once sensitised, you may react to balloons, elastic bands, condoms and household gloves. Latex in the air,
due to powdered latex gloves being used, can be a hazard for someone who is highly sensitive, as can latex traces in food (see box on p. 175). Medical treatment may be problematic (see p. 98 and box on p. 249). Cross-reactions to certain foods can occur (see p. 15 and p. 51).
For those avoiding latex, there are non-latex gloves (see p. 57), and non-latex condoms. Immunotherapy (see pp. 164-9) may be useful in severe cases: it can reduce sensitivity and eliminate cross-reactions to foods.
Other hazards
This article (pp. 132-5) deals mainly with allergens at work, that is, substances which provoke classical allergies (Type I reactions). In addition, there are skin irritants and antigens in workplaces which can provoke contact dermatitis (see p. 56) or contact urticaria (see p.50).
Some of the most dangerous workplace substances are those that bring on asthma but are not allergens. These are usually called low-molecular-weight asthmagens. The most notorious of these are platinum salts, isocyanates (used in cement, in the manufacture of foam, plastics and varnishes, and for spray-painting cars, aeroplanes and boats), colophony (used as a solder in electronics), glutaraldehyde (used in hospitals for sterilisation procedures), and persulphate (used in hairdressing). Powerful respiratory equipment, supplying air from outside the area (see p. 135) is needed if you work with some of these substances, e.g. isocyanates for spray-painting cars.
has ended, they should not be seen as a way of allowing you to go on working with the offending allergen or asthmagen.
If it seems plausible that your allergies or your asthma are related to your work, your doctor should be able to give you a sickness certificate, so that you can have some time away from the workplace, to see if you recover. The medical service at your workplace may be better at diagnosing occupational asthma than your own doctor, but be cautious. In some workplaces they do operate as they should and offer genuinely confidential treatment. But there have also been cases of information being passed to the management, and workers with the early signs of occupational allergies and/or asthma being dismissed on a pretext, or made redundant, to avoid a possible compensation claim. Most occupational health services claim to be independent, but they actually have to earn the trust of the workforce. Before you make any move, ask your colleagues for their views, especially those who have worked there for many years.
Choosing a job
If you have any tendency to allergies, or come from an allergy-prone family, you should be very choosy about where you work. Try to avoid workplaces where there is heavy exposure to allergens, especially airborne allergens which can provoke asthma:
• Bakeries and flour mills, where the allergens concerned may be wheat proteins in the flour, or enzymes added to the flour mix. These allergies can take years to begin.
• Other food-processing works, particularly those dealing with tea, soyabeans, other beans (e.g. gram flour), shellfish and fish (especially if automated gutting machines are used without adequate ventilation). Food preparation and sandwich-making can cause contact urticaria, if there is prolonged contact with a particular foodstuff (e.g. tomatoes).
• Farms, docks and cotton mills – or any other workplace generating dust from plant products. On farms, it is the dust from grain and hay that is often responsible, although mould spores (see p. 121) can also be the culprit. Allergies to mites (found in hay, grain and flour) sometimes occur and eczema is the most common symptom – often called simply ‘grain itch’.
• Saw mills and joineries, because of the wood dust, especially that from hardwoods and from red cedar (Thuja plicata).
• Paper recycling plants, if there is a lot of paper dust in the air.
• Detergent and pharmaceutical factories handling enzymes – these are added to ‘biological’ washing powders and are potential allergens. The risks are less these days, as the enzymes are in granule form rather than powder.
• Factories processing natural products such as psyllium or ispaghula, which are used as laxatives. Anyone who has been sensitised should avoid taking medicines containing the offending substance in the future, because these can sometimes provoke a dangerous anaphylactic reaction.
• Hospitals, clinics and dental surgeries, mainly due to latex rubber, used in gloves and equipment. Although nursing staff and surgeons are most susceptible, other staff including hospital administrative workers can occasionally be affected. Fears about the spread of the HIV virus has led to a huge increase in the use of latex gloves in medicine and dentistry, and a consequent epidemic of latex allergy. The main problem is with powdered latex gloves, which release 15,000 times as much allergen into the air as unpowdered gloves. Unpowdered, low-allergen gloves greatly reduce the risk of latex allergy developing, and non-latex gloves are even better. There are moves to ban the import of powdered latex gloves into Britain. They are already being phased out in hospitals and other medical facilities, but progress is slow in some areas.
• Other workplaces where powdered latex gloves are used, including
Making the workplace safe for everyone
Note that these choices about employment are for the individual employees to make for their own protection - an employer cannot refuse to take anyone on because they have allergies or come from an atopic (allergy-prone) family.
The reasoning behind this is that the workplace should be safe for everyone, as far as possible. As many as one in three of the population may be susceptible to allergies, and it is clearly wrong to bar all such people from major industries. Current thinking, in most countries, is that the focus should be on getting allergens and asthmagens out of the air, not keeping the more vulnerable workers out of the workplace.
hairdressers, dental surgeries, pathology laboratories and police stations. Construction workers wearing rubber gloves are also at risk. Someone who has been sensitised by powdered latex gloves may then react to other items (see box on p.132). Those severely affected can have great problems in daily life and with medical treatment, so anyone with a strong tendency to allergy should strenuously avoid becoming sensitised.
• Factories making or using rubber items may also expose workers to the risk of latex allergy. Anything made by the ‘dipping method’ (e.g. balloons, condoms, elastic bands and gloves) is highly allergenic. Moulded rubber items, such as tyres, are much less of a problem. Neoprene and other synthetic rubber items are not allergenic.
• Chiropody and podiatry clinics, where there is a risk of allergic reactions to the fungus that causes athlete’s foot. It is inhaled on skin flakes from the patients’ feet.
• Laboratories and other workplaces where animals are kept. In the case of mice, rats and other rodents, the allergen is found in the animals’ urine, and becomes airborne as the urine dries. Insects and spiders (e.g, those reared for biological pest control), are also allergenic due to small airborne particles from their bodies. Those working closely with bees (either honeybees or bumblebees, now reared for pollinating glasshouse crops) are liable to be stung frequently, and this can lead to sting allergy (see pp. 60-61).
• Hairdressing salons, where many different items are used that are potentially allergenic, including latex gloves (see above), permanent-wave solutions and henna. The risks of contact dermatitis are also high (see p. 55).
• Greenhouses, where the enclosed conditions can lead to high levels of allergens from plants, moulds and insect pests. There may also be exposure to pesticide sprays or their residues, which can greatly aggravate any underlying tendency to allergies.
If you have ever suffered from atopic eczema, work situations that can bring on contact dermatitis should also be avoided (see p. 55).
Taking a risky job
If circumstances force you to take a job with an allergy risk, observe all the safety procedures that are in place, and where you have the option of turning on extractor fans, wearing protective gear, or simply opening doors and windows, always do so. If the safety procedures seem inadequate, talk to your trade union Safety Representative, or the local Health and Safety Executive which can run a check on safety procedures in your workplace. This will be presented to the employer as a routine check, so they need never know that a member of the workforce has contacted the HSE.
Whatever you do, if you are in a risky job, don’t smoke. At a salmon processing plant in Scotland, 40% of the smokers developed allergies (resulting in asthma) to the fish allergens in the spray from the fish-gutting machine. Non-smokers - who formed the overwhelming majority of the workers - were not affected at all. In United States cotton mills, smokers are affected by levels of cotton dust in the air that are legally defined as ’safe’, while nonsmokers remain unaffected.
Passive smoking at work is also an important issue. A recent US study showed that non-smokers were more likely to develop asthma if they worked alongside a smoker. Your employer has a duty to provide you with clean air. This includes ensuring that other employees do not impose their cigarette smoke on you.
Respiratory equipment
Where respiratory equipment is needed, your employer must provide this, and it must be the right equipment for the job. It should be inspected, tested, cleaned and repaired after each use, and filters should be replaced regularly. All this is your employer’s responsibility, but check that it is being done, and always look the mask over before you put it on.
Two different types of respiratory equipment are currently in use:
• Those that give you a supply of air from outside the work area, either from a compressed-air cylinder, or via an air-hose (airline) supplied with fresh air. In Britain these are called breathing apparatus.
• Those that use the surrounding air but filter it to remove allergens and asthmagens. In Britain these are called respirators. (In some countries this term describes any kind of respiratory equipment.) Ordinary respirators may pose problems for some asthmatics because they cannot breathe in strongly enough to draw sufficient air through the filter. Powered respirators can be the answer: they have a battery-powered unit to help with pulling in the air.
There are government regulations concerning the type of equipment required for each type of allergen and asthmagen. Large companies generally follow these regulations, but small businesses, such as local sawmills, joineries and car-repainting workshops, may not even know about them.
Any respiratory equipment that has a face mask must form a tight seal with your face. Facial hair will prevent this, and so will stubble, so shave carefully. Faces vary enormously in shape, and if your face mask does not fit, ask for a different type of mask or a different type of respiratory equipment. Persist until you get one that’s right for you.
Carry out a ‘fit check’ each and every time you wear the mask. For example, with respirators, you can check the fit by covering the air intake completely with your hand and breathing in sharply: if the mask fits properly, it should collapse onto your face, and remain stuck to your face for several seconds. Look at the manufacturer’s instruction booklet as there may be a specific fit check recommended for the equipment you are using.
If there is any difficulty in breathing through the respiratory equipment, the replaceable filter cartridge or the equipment itself should be replaced. You should also take action immediately if you can smell the substance being handled – but never rely on this as a danger sign, because an extremely small amount, way beyond the detection capacity of the human nose, may be very damaging indeed to your health.
Keep your mask on throughout the work period. If you find this impossible, talk to your employer or
line manager about getting a different kind of respiratory equipment – a powered device, for example, that assists the inflow of air.
No form of respiratory equipment provides complete protection against allergens and asthmagens: there is always the chance of some small amount getting through. This is why respiratory equipment should not be used by those who have already developed occupational asthma but want to stay in their job.
Those who really cannot change jobs (e.g, farmers) are sometimes able to use a powered respirator helmet, which allows them to go on working despite the allergen. But this is not an ideal solution from a purely health point of view. Farmers can also improve matters, where moulds are the source of allergens, by keeping all harvested crops dry and thoroughly ventilated.
A lasting problem
As long as you catch the problem early, and are no longer anywhere near the allergen, your symptoms should disappear completely, but remember that you may still be highly sensitive to the allergen, even years afterwards. For a year or two at least, avoid contact with it again, even in tiny amounts. If someone else in your family works at the same place, they may bring home traces of the allergen on their clothes and hair: ask them to leave their workclothes outside the house and shower on arriving home.
With occupational allergies to airborne food particles, it is possible that the affected individual will later react to the same food when eaten. Experiment very cautiously, especially if the allergen is fish or shellfish.
The allergy may persist long after the job has ended. In one case, doctors found that a woman who had developed ‘baker’s asthma’, while working briefly in a bakery when young, was still allergic to the enzyme additive in bread 20 years later. She suffered an asthma attack whenever she ate bread.

Steroid inhalers
Most asthmatics nowadays are given a steroid inhaler at some point, as part of their asthma treatment (see p. 160). It will probably be a low-dose inhaler, and the risks of side effects from this are very small. Even at higher doses, inhaled steroids are relatively safe. Many people are unnecessarily afraid of inhaled steroids and refuse to use them until their asthma becomes really incapacitating. It is important not to delay using an inhaled steroid for too long, as this could cause permanent damage to the airways: inflammation eventually thickens the airway wall, leaving it less flexible and therefore less capable of widening.
For side effects of inhaled steroids see p. 145, and for common brand names see p. 147.
Steroid tablets
These are usually a treatment of last resort. But when you need them you need them – and if your asthma has got badly out of control, they can, quite literally, be a life-saver. On the other hand, if there are any other means by which you can tackle your asthma, so that you do not need steroid tablets again in the future –avoiding allergens and irritants, for example, or using other preventer treatments – those means should definitely be taken.
For side effects of steroid tablets see pp. 141-3, and for common brand names see p. 147.
Cromoglycate-type drugs
For asthma, these drugs are taken by inhalation only. They work by blocking the allergic reaction (see p. 148), and are therefore a type of preventer drug.
Cromoglycate-type drugs are usually inhaled four times a day, although your doctor may recommend more frequent inhalations to begin with. Once your asthma is well controlled, you may be able to reduce the dosing regime to three times a day, or possibly twice a day: ask your doctor’s advice about this.
Should you decide to stop taking these drugs at some point, talk to your doctor first. It is generally best to reduce the dose gradually, over a period of 7-10 days. Some asthmatics need to introduce (or reintroduce) steroids at this time, to maintain control of the airway inflammation.
Side effects
When inhaled, cromoglycate-type drugs can produce short-lived irritation in the throat, which may lead to coughing. This sometimes develops into temporary bronchospasm, causing you to wheeze, but this is really only a minor side effect – it does not indicate that the drug is making your asthma worse.
Asthmatics are sometimes advised to use a short-acting
beta-2 reliever (such as Ventolin) before their cromoglycate inhaler, to overcome this problem. However, this would involve using the beta-2 reliever four times a day, which is no longer considered a good idea (see pp. 153-4). Talk to your doctor again if you have been given this advice.
Inhalers that combine sodium cromoglycate with a short-acting beta-2 reliever (e.g. Aerocrom) are not recommended for the same reason.
A better way around the problem of throat irritation may be to switch to an aerosol inhaler, because the irritation is much less than with dry-powder inhalers. Using a spacer along with the aerosol inhaler (see p. 162) will help even more.
Serious side effects of these drugs are very rare (see p. 149). For common brand names, see p. 148.

Hayfever in Allergy

Foxtall grasses release their pollen - a potential source of hayfever symptoms.
`I gradually recognised that it was not an ordinary cold and that the symptoms were much worse on the

golf course or even during a nice day rowing on Loch Lomond.’ Dr John Morrison Smith, then a medical

student, began suffering from hayfever in the late 1930s. ‘At first I did not know what I had, and

neither did any other doctor I encountered in the next two or three years…’
All the classical allergic diseases (see box on p. 11) seem to be increasing, but none has exploded

quite so dramatically as hayfever. The physicians of Ancient Greece described asthma and food allergy,

and the Romans recorded allergy to horses, but there were no reports of hayfever. The only account –

and it is a doubtful one – comes from Persia in AD 925. Two hundred years ago, hayfever was unknown –

and careful research by medical historians has shown that this was not a case of it simply being

ignored, or misinterpreted as a cold.
The first case was reported in 1819, but even in the 1930s it was so rare that a succession of Scottish

doctors and medical students were baffled by Dr Morrison Smith’s symptoms. Today everyone knows what

hayfever is, since huge numbers of people sneeze and snuffle their way through the pollen season. There

are no certain explanations for this meteoric rise, but greater hygiene (21) may be an important

factor.
Symptoms of hayfever
The common symptoms of hayfever are well known:
• itchiness of the nose, mouth, throat and eyes – often the first sign
• a streaming and/or blocked nose
• frequent sneezing
• red, watery eyes (very rarely, hayfever affects the eyes only, with no symptoms in the nose).
Less commonly, there may be:
• dryness of the throat if the nasal blockage results in constant breathing through the mouth
• no sense of smell due to a blocked nose (but nasal polyps can also cause this – 30)
• a feverish sweaty feeling (but the body temperature is usually normal)
• swelling and inflammation of the eyelids, sometimes leading to blistering and ulceration: there

is a risk of blindness if this is not treated promptly
• recurrent sinusitis (30)
• earache, itching or a stuffy feeling in the ears, or ‘glue ear’ (29)
Some sufferers also experience:
• Oral Allergy Syndrome (an itchy tingling mouth) from certain fruits, nuts and vegetables (see

box on p. 63)
• a skin rash from pollen falling on the skin, direct contact with the leaves of the offending

plants, or with droplets of moisture from them – as when mowing a lawn or using a strimmer. If the skin

is cut or grazed, anaphylaxis can (rarely) result from direct contact with the plant (see pp. 58-9).
Even more rarely there can be:
• stomach upsets or even colitis (inflammation of the bowel) possibly due to pollen swallowed

with food or in the saliva
• irritation in the vagina
• migraine
• kidney inflammation (nephritis), leading to puffiness of the face and hands, and possibly other

symptoms
• joint pains.
The last two are probably caused by pollen allergens bound to their antibodies and carried in the blood

(13).
Diagnosis
The standard diagnostic tool here is the skin-prick test (see lo, 91). In diagnosing hayfever there are

three separate questions:
1 Is it actually hayfever?
2 Which pollen or pollens are responsible?
3 Are allergens other than pollen also involved?
Don’t be surprised if none of these questions is asked. In most countries, if you have hayfever-like

symptoms during the pollen season (i.e. when most hayfever sufferers have symptoms), the doctor will

conclude that you have hayfever - and that will be the end of that.
If hayfever seems plausible to you, and you respond to drug treatment, or manage well on pollen

avoidance (126), then -here is probably no reason to go further. Should you want a more thorough

investigation, you will need to be persistent. These are good reasons for requesting a full diagnosis:
• Your symptoms are worse in the pollen season, but they never really go away, suggesting that

you may be allergic to year-round allergens, such as house-dust mite or moulds, as well. It is worth

knowing which ones, so that you can avoid them. If you live in an area that is always warm (such as

California or Southern Australia) it may be that your culprit pollen is in the air all year round -

even so, knowing which pollen it is can help with avoidance. Around the Mediterranean, the pollen from

cypresses can keep hayfever going through the winter (or cause symptoms in winter only).
• Your symptoms are sometimes worse when they should be better, and vice versa. If you are

consistently worse indoors with the windows closed this could indicate that a seasonal indoor allergen

is the culprit - mould spores or cockroach perhaps (cockroach is often seasonal in regions with cold

winters - 118).
• Your symptoms begin before the pollen season begins, or go on long afterwards. Or the severity

of your symptoms does not match the daily pollen count for your suspect pollen. In Britain, the mould

Cladosporium herbarum produces spores in June, roughly coinciding with the grass-pollen season. Allergy

to this mould can easily be mistaken for grass-pollen allergy. You would need skin-prick tests for both

Cladosporium and grasses.
• You are much worse near home than elsewhere. It could just be a garden plant or tree. As one

California resident observed, ‘The worst offender was an olive tree on our front lawn. It’s been

removed.’
• You want to plan holidays free from the culprit pollen.
Moving house - especially to a region with different vegetation
- can be a spur to finding out exactly what your allergens are. If you are going for a full diagnosis

make sure it is done correctly. Don’t accept testing with ‘mixed tree and shrub pollens’ for example,

or ‘weed pollens’. The result tells you very little. Ask for tests with specific pollens.
Treatment
Too many people allow hayfever to spoil the summer months because they are anxious about taking drugs,

or feel that it is nobler to suffer. This book is not in any way complacent about the dangers from

drugs (see Chapter 5), but when it comes to hayfever there really is very little cause for concern. The

risks with drugs used for hayfever are absolutely minimal, and it is such a waste to miss out on the

best time of year.
Most hayfever responds very well to treatment with antihistamines (138). If they make you sleepy,

persist for a while, because this side effect often wears off - or ask for one of the new non-sedating

forms. The sleepiness is annoying, but it is only a minor side effect, and not an indication of the

drug causing any serious harm.
Cromoglycate drops (for the eyes or nose) do not work for everyone, but if they work for you, go for

them. These are absolutely the safest of the anti-allergy drugs. Steroid drops for the nose (144) are

also recommended. The dose of steroid involved is small, and very little gets into the bloodstream, so

there is no risk of serious side effects. If you suffer stinging, burning or dryness, it might be due

to preservatives in the drops, not the drug itself (see box on p. 33). Steroid drops for the eyes

should be used cautiously (144). Don’t use over-the-counter decongestant drops for more than three days

(29).
Immunotherapy is standard treatment for hayfever in many countries, but in Britain you will have a

struggle to get it (see pp. 164-8). Some hayfever sufferers feel they do well with homeopathy (215) or

acupuncture (214).
Pollen asthma
Some people with hayfever also have pollen asthma. Their asthma is worse in the pollen season but it

usually persists all year round (either because there are other allergens or irritants involved, or

just because the inflammation of the airways is self-perpetuating) whereas hayfever itself clears up.

Treating the hayfever fully with antihistamines helps considerably with the asthma symptoms.

 

In medical terms, this article covers a lot of ground.
First there are the classical allergic diseases
 such as hayfever and immediate food allergy, which are caused by the allergy

antibody, IgE .
Then there is non-IgE immune sensitivity, a category which includes a number of quite different

diseases, caused in a great variety of ways. They also vary in severity - there are serious lifelong

problems such as coeliac disease and minor short-lived problems such as contact dermatitis from garden

plants.
Finally the chapter looks at diseases where the immune system seems not to be involved, or

plays only a minor role: the intolerance reactions to food and synthetic chemicals. These are diverse

and rather mysterious in origin. They would not be described as ‘allergies’ by most doctors, though

they often are by complementary therapists (6).
These categories are not nearly as neat and tidy as they might sound. Some problems refuse to fit

anywhere, such as atopic eczema caused by food. A percentage of children with this problem have IgE to

the food concerned, while others do not - so where does it belong?
If you were expecting an answer to that question, you will be disappointed. Nor, quite often, are there

any certain and honest answers to questions such as ‘Has my baby really got asthma?’ or ‘Can you be

sure it’s irritable bowel syndrome?’ There are no answers to
such questions because most diseases do not exist in neat compartments, and the words we use to

describe them really denote rather abstract concepts.
This does not mean that the terms used to describe diseases are invalid - doctors and medical

researchers invent them to try to make sense of a complex, confusing and largely foggy reality. They

also argue over them, split them, unite them and redefine them. There is a constant desire to get the

medical picture of that foggy reality more precise and accurate (although medical politics gets

involved too - 7 -which is unfortunate).
Over time, thanks to huge amounts of research effort, things gradually get clearer. You’ll no longer

hear a doctor talk about ‘rheumatism’ or ‘arthritis’, because it was long since realised that these

categories were useless - they included a number of diverse diseases. And while doctors might say ‘food

poisoning’ or ‘heart attack’ or ’skin cancer’ to a patient, they use much narrower and more precise

terms when talking among themselves, and when ordering tests or prescribing treatment. Each of these

categories has been split into several well-defined sub-categories.
Ideally, this process of splitting continues until each disease category has a set of well-defined

symptoms (this set is known as a syndrome), plus a few simple and definitive diagnostic tests. This

will probably depend on the cause of the disease (the mechanism in medical jargon) being clearly

understood. Once the mechanism is clear, then a disease category is a truly satisfactory tool for

diagnosis and treatment.
Of the disease categories mentioned in this book only a few, such as coeliac disease and hayfever, have

reached that happy state. The majority are still somewhat arbitrary and debatable.
Some disease terms describe a set of symptoms with no clear underlying cause, for example, ‘irritable

bowel syndrome’. Others describe a well-defined response by the body, that can be caused in many

different ways - an endpoint that can be reached by various routes. This is true of ‘asthma’ or

‘urticaria’.
A third type describes a much less well-defined cluster of symptoms. Idiopathic food intolerance,

chemical intolerance and yeast overgrowth all come into this category. A few doctors don’t even see

some of these clusters as real diseases because the symptoms involved are so vague and so widely

encountered. Some of the arguments used to dismiss idiopathic food intolerance are dissected on pp.

74-7. A key point made against these diseases is that the symptoms they produce are non-specific -

common symptoms such as headache, fatigue and diarrhoea, which can arise in a great variety of ways.

Ever since Pasteur and the germ theory, medicine has been based on the idea of each disease having

specific symptoms and specific causes, and it has roared ahead on the basis of this assumption. This is

the prevailing paradigm of modern medicine, and like all
paradigms it blinds people to facts that don’t fit. Evidence is accumulating that there are diseases

which have multiple, non-specific and variable symptoms. Chronic Fatigue Syndrome (CFS - see box on p.

85) is one of these, and its recent transformation from a doubtful diagnosis to a reputable disease

recognised by conventional medicine suggests that the paradigm might be starting to crack.
To sum up, the business of identifying and naming diseases is a complex and uncertain process, in which

the concept of most diseases is only ever that - a concept, subject to change and refinement. This does

not make it worthless - quite the opposite. These concepts are the best we can do at the present time,

and accurate diagnosis is the key to getting the best treatment available now.
As regards both diagnosis and treatment, this book covers a very wide spectrum of medical opinion, from

the entirely orthodox to the frankly whacky. I have tried to give an objective view of these different

opinions and approaches, using the evidence currently available, in the hope that it will help readers

to improve their health while wasting as little as possible of their time or money. In using this

information, you should always try to work closely with your doctor (96), respecting the depth and

breadth of knowledge that conventional medicine has to offer.