Allergies

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Allergy

Hives on back

Skin prick testing for allergies

Allergies In Full Bloom

An allergy is a specific immunological response that certain individuals exhibit upon exposure to specific substances, referred to as allergens. Rooted in the Greek lexicon, the term "allergy" originates from allos, meaning "other", and ergon, denoting "work". Primarily, allergies involve Type I hypersensitivity, where the body overreacts to ordinary proteins by producing IgE antibodies.

Mechanism of Allergic Reactions[edit | edit source]

Upon exposure to allergens, hypersensitized individuals may experience a surge in immunoglobulin E production, which can overstimulate mast cells and basophils. This process can trigger a systemic inflammatory response. Depending on the severity, allergic manifestations range from minor inconveniences, like a runny nose, to life-endangering conditions such as anaphylactic shock that could lead to death.

Allergic diseases affect a substantial portion of the global population. In the United States alone, over 50 million people grapple with allergies, positioning them as the 6th primary cause of chronic illness. The annual financial burden of treating allergic diseases is a staggering $18 billion (Allergy statistics).

Signs and Symptoms[edit | edit source]

The allergic reaction is hallmarked by a localized or generalized inflammatory reaction:

Local Symptoms[edit | edit source]

Nose: Nasal mucosa swelling results in allergic rhinitis. A common behavioral symptom is the nasal salute or allergy salute, typified by an upward nose wipe due to itchiness. Eyes: The conjunctiva becomes red and itchy, leading to allergic conjunctivitis. Airways: Manifestations include bronchoconstriction, wheezing, breathlessness, and at times, asthma episodes. Ears: Individuals may experience a sensation of fullness, potential pain, and hearing impairment due to hindered eustachian tube drainage. Skin: Rashes are common, with types including eczema, hives (urticaria), and contact dermatitis.

Systemic Symptoms[edit | edit source]

The extensive allergic response, termed anaphylaxis, can vary in intensity. Mild cases might present with cutaneous reactions, while severe episodes can lead to edema, hypotension, coma, and even death.

Common Allergens[edit | edit source]

Allergies like Hay fever, induced by pollen, are prevalent, impacting a significant portion of individuals. Asthma sufferers often react to dust mites. Beyond environmental allergens, individuals may also exhibit allergic reactions to certain medications.

Diagnosis and Assessment[edit | edit source]

Identifying and understanding allergies is crucial for effective management.

Skin Testing[edit | edit source]

One of the primary diagnostic tools for Type I Hypersensitivity is skin testing. Suspected allergens, or their extracts (e.g., pollen, mite proteins, peanut extract), are introduced to specific skin sites marked with pen or dye. The allergens might be injected intradermally or placed on small abrasions on the skin, commonly made with a lancet. Testing sites often include the inside forearm or the back. If allergic, the individual will typically exhibit an inflammatory reaction within 30 minutes, ranging from minor skin redness to severe hives.

Post-testing, to alleviate symptoms such as itching and inflammation, a steroid cream might be applied to the test area.

Problems with skin test[edit | edit source]

While the skin test is probably the most preferred means of testing because of its simplicity and economics, it is not without complications. Some people may display a delayed-type hypersensitivity (DTH) reaction which can occur as far as 6 hours after application of the allergen and last up to 24 hours. This can also cause serious long-lasting tissue damage to the affected area. Fortunately, these types of serious reactions are quite rare.

Additionally, the application of previously unencountered allergens can actually sensitize certain individuals to the allergen, causing the inception of a new allergy in susceptible individuals.

Skins tests also are not always able to pinpoint a patient's specific allergies if the patient has an allergy but does not react to the skin test allergen.

Total IgE count[edit | edit source]

Another method used to qualify type I hypersensitivity is measuring the amount of serum IgE contained within the patient's serum. This can be determined through the use of radiometric and colormetric immunoassays. Even the levels the amount of IgE specific to certain allergens can be measured through use of the radioallergosorbent test (RAST).

Treatment[edit | edit source]

There are limited mainstream medical treatments for allergies. Probably the most important factor in rehabilitation is the removal of sources of allergens from the home environment, and avoiding environments in which contact with allergens is likely.

Immunotherapy[edit | edit source]

Hyposensitization is a form of immunotherapy where the patient is gradually vaccinated against progressively larger doses of the allergen in question. This can either reduce the severity or eliminate hypersensitivity altogether. It relies on the progressive skewing of IgG ("the blocking antibody") production, as opposed to the excessive IgE production seen in hypersensitivity type I cases.

In the 1960s, Dr. Len McEwen in the United Kingdom developed a treatment for allergies known as enzyme potentiated desensitization, or EPD. EPD uses much lower doses of antigens than conventional treatment, with the addition of an enzyme. EPD is available in the United Kingdom and Canada, and was available in the United States until 2001, when the Food and Drug Administration revoked its approval for an investigative study being performed. Since that time an American counterpart to EPD, known as Low Dose Antigens, or LDA, has been formulated from components approved by the FDA, and is available for treatment from a small number of doctors in the United States. EPD (and LDA) is still considered experimental by many mainstream doctors and medical insurance companies, and many doubt that it is more effective than a placebo.

A third form of immunotherapy involves the intravenous injection of monoclonal anti-IgE antibodies. These bind to free and B-cell IgE signalling such sources for destruction. They do not bind to IgE already bound to the Fc receptor on basophils and mast cells as this would stimulate the allergic inflammatory response.

Chemotherapy[edit | edit source]

Several antagonistic drugs are used to block the action of allergic mediators, preventing activation of cells and degranulation processes. They include antihistamines, cortisone, epinephrine (adrenalin), theophylline and Cromolyn sodium. These drugs help alleviate the symptoms of allergy but play little role in chronic alleviation of the disorder. They can play an imperative role in the acute recovery of someone suffering from anaphylaxis (which is why those allergic to bee stings, peanuts, nuts, and shellfish often carry an adrenalin needle with them at all times).

Alternative therapies[edit | edit source]

In alternative medicine, a number of treatment modalities are considered effective by its practitioners in the treatment of allergies, particularly herbal medicine, homeopathy, traditional Chinese medicine and kinesiology. However, these claims lack well-established evidence. Treatment or management of allergies with alternative therapies is generally criticised by mainstream medical pratitioners and researchers to be supported only by anecdotes.

Pathophysiology[edit | edit source]

All hypersensitivities result from an aberration somewhere in the normal immune process. The exact cause of such malfunctions is not always apparent, however, and several arguments from genetic-basis, environmental-basis and intermediate proponents exist with varying validity and acceptance.

Acute response[edit | edit source]

The difference between a type I hypersensitivity reaction against an allergen to the normal humoral response against a foreign body is that plasma cells secrete IgE as opposed to either IgM (against novel antigens) or IgG (against immunized antigens). IgE binds to Fc receptors on the surface of mast cells and basophils, both involved in the acute inflammatory response.

When IgE is first secreted it binds to the Fc receptors on a mast cell or basophil, and such a IgE-coated cell is said to be sensitized to the allergen in question. A later exposure by the same allergen causes reactivation of these IgE, which then signals for the degranulation of the sensitized mast cell or basophil. There is now strong evidence that mast cells and basophils require costimulatory signals for degranulation in vivo, derived from GPCRs such as chemokine receptors. These granules release histamine and other inflammatory chemical mediators (cytokines, interleukins, leukotrienes, and prostaglandins) into the surrounding tissue causing several systemic effects, such as vasodilation, mucous secretion, nerve stimulation and smooth muscle contraction. This results in the previously described symptoms of rhinorrhea, itchiness, dyspnea, and anaphylaxis. Depending on the individual, allergen, and mode of introduction, the symptoms can be system-wide (calliscal anaphylaxis), or localised to particular body systems (for example, asthma to the respiratory system; eczema to the dermis).

Late-phase response[edit | edit source]

After the chemical mediators of the acute response subside, late phase responses can often occur. This is due to the migration of other leukocytes such as neutrophils, lymphocytes, eosinophils and macrophages to the initial site. The reaction is usually seen 4-6 hours after the original reaction and can last from 1-2 days. Cytokines from mast cells may also play a role in the persitence of long-term effects. Late phase responses seen in asthma are slightly different to those seen in other allergic responses.

Basis of the allergic response[edit | edit source]

Genetic basis[edit | edit source]

There is much evidence to support the genetic basis of allergy, as allergic parents are more likely to have allergic children, and their allergies are likely to be stronger than those from non-allergic parents. However some allergies are not consistent along genealogies with parents being allergic to peanuts, but having children allergic to ragweed, or siblings not sharing the same allergens. Ethnicity has also been shown to play a role in some allergies. Interestingly, in regard to asthma, it has been suggested that different genetic loci are responsible for asthma in people of Caucasian, Hispanic, Asian, and African origins. It has also been suggested that there are both general atopy genes and tissue-specific allergy genes that target the allergic response to specific mucosal tissues. Potential disease associated alleles include both coding region variation and SNPs found in gene regulatory elements.

Relationship with parasites[edit | edit source]

Some recent research has also begun to show that some kinds of common parasites, such as intestinal worms (e.g. hookworms), secrete immunosuppressant chemicals into the gut wall and hence the bloodstream which prevent the body from attacking the parasite. This gives rise to a new slant on the "hygiene hypothesis" - that co-evolution of man and parasites has in the past led to an immune system that only functions correctly in the presence of the parasites. Without them, the immune system becomes unbalanced and oversensitive. Gutworms and similar parasites are present in untreated drinking water in undeveloped countries, and in developed countries until the routine chlorination and purification of drinking water supplies. This also coincides with the time period in which a significant rise in allergies has been observed.^{[citation needed]} So far, there is only sporadic evidence to support this hypothesis - one scientist who suffered from seasonal allergic rhinitis (hayfever) infected himself with gutworms and was immediately 'cured' of his allergy with no other ill effects.^{[citation needed]} Full clinical trials have yet to be performed however. It may be that the term 'parasite' could turn out to be inappropriate, and in fact a hitherto unsuspected symbiosis is at work.^{[citation needed]}

Basis of increasing prevalence[edit | edit source]

There has been a notable increase in the commonness of allergies in the past decades, and there are multiple hypotheses explaining this phenomenon. This is in part because we know what they are, in contrast to earlier humans who would think that it is a non-important illness.

The Hygiene Hypothesis[edit | edit source]

One theory that has been gaining strength is the "hygiene hypothesis". This theory maintains that since children in more affluent countries are leading a cleaner and cleaner life (less exposure to dirt, extra use of disinfectants, etc), their immune systems have less exposure to parasites and other pathogens than children in other countries or in decades past. Their immune systems may, therefore, have many "loaded guns", cells which might have targeted, say, the intestinal worms that no longer cause trouble in affluent neighbourhoods. Having no reasonable target, these cells inadvertently become activated by environmental antigens that might only cause minor reactions in others. It is the symptoms of this exaggerated response that is seen as the allergic reaction.

Many common allergies such as asthma have seen huge increases in the years since the second world war, and many studies appear to show a correlation between this and the increasingly affluent and clean lifestyles in the West. This is supported by studies in less developed countries that do not enjoy western levels of cleanliness, and similarly do not show western levels of incidences of asthma and other allergies. During this same period, air quality, at one time considered the "obvious" cause of asthma, has shown a considerable improvement. This has led some researchers to conclude that it is our "too clean" upbringing that is to blame for the lack of immune system stimulation in early childhood.

So far the evidence to support this theory is limited. One supporting fact is that many Chinese will develop hay fever after moving into USA for three or more years. However, contradictory examples also exist.

Increasing use of chemicals[edit | edit source]

Another theory is the exponential use and abuse of chemicals in affluent nations since the second world war. Vast numbers of chemicals are introduced into our indoor and outdoor environments with little or no testing regarding their toxicity to living beings. Many believe that air quality is getting worse rather than better, particularly if one considers indoor air quality as well as outdoor. (Indoor air quality has become significantly worse since building codes changed in the 1970s to make buildings more air-tight to conserve energy. This affects buildings built since that time.) Adverse reactions to toxins vary considerably from one person to another, and can involve extremes in symptoms including the neurological and endocrine systems as well as the more commonly recognized allergy symptoms listed above.

In 2004, a joint Swedish-Danish research team (Bornehag et al.) found a very strong link between allergies in children and the phthalates DEHP and BBzP, commonly used in PVC.

Allergies are also viewed by some medical practitioners as a negative consequence of the use and abuse of antibiotics and vaccinations. This mainstream Western approach to treatment and prevention of infectious disease has been used in the more affluent world for a longer period of time than in the rest of the world, hence the much greater commonality of allergies there. It is hypothesized that use of antibiotics and vaccination affect the immune system, and that allergies are a dysfunctional immune response. There is, however, very little evidence to support this view.

Common allergens[edit | edit source]

In addition to foreign proteins found in foreign serum (from blood transfusions) and vaccines, common allergens include:

• Plant pollens (Hay fever)
  • rye grass
  • ragweed
  • timothy grass
  • birch trees
• Mold spores
• Drugs
  • penicillins
  • sulfonamides
  • salicylates (also found naturally in numerous fruits)
  • local anaesthetics
• Foods (food allergy)
  • nuts
  • sesame
  • seafood
  • egg (typically albumen, the white)
  • peas, beans, peanuts, soybeans and other legumes
  • soy
  • milk
  • wheat
  • corn or maize
• Insect stings
  • bee sting venom
  • wasp sting venom
• Animal products (animal allergy)
  • Animal hair and dander
  • cockroach calyx
  • dust mite excretion

See also[edit | edit source]

• Atopy
• Anaphylaxis
• Multiple chemical sensitivity (MCS).
• Food allergy
• Hypoallergenic
• Hay fever
• Soy allergy
• Systemic reaction

References[edit | edit source]

• Goldsby RA, Kindt TK, Osborne BA and Kuby J (2003) Immunology, 5th Edition, W.H. Freeman and Company, New York, New York, ISBN 0-7167-4947-5
• Bornehag CG, Sundell J, Weschler CJ, Sigsgaard T, Lundgren B, Hasselgren M, Hagerhed-Engman L. The association between asthma and allergic symptoms in children and phthalates in house dust: a nested case-control study. Environ Health Perspect 2004;112:1393-7. Fulltext. PMID 15471731.
• Ono SJ. Molecular genetics of allergic diseases. Annu Rev Immunol. 2000;18:347-66. Review. PMID 10837062

External links[edit | edit source]

• American Academy of Allergy, Asthma & Immunology
• Allergy On-Line Journal Club (via JournalReview.org)
• Case Studies in Environmental Medicine (CSEM): Environmental Triggers of Asthma – Agency for Toxic Substances and Disease Registry, U.S. Department of Health and Human Services.
• Bronchial Asthma Treatment

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