Food allergy: an overview. (Mini-Monograph).Food allergy food allergy Allergy medicine A condition, the incidence of which–0.3-7.5%–is obscured by controversial data and differing disease definitions; food-induced reactions of immediate-hypersensitivity type are common and include anaphylaxis, angioedema, affects between 5% and 7.5% of children and between 1% and 2% of adults. The greater prevalence of food allergy in children reflects both the increased predisposition of children to develop food allergies Food Allergies Definition Food allergies are the body's abnormal responses to harmless foods; the reactions are caused by the immune system's reaction to some food proteins. and the development of immunologic tolerance to certain foods over time. Immunoglobulin (Ig) E-mediated food allergies can be classified as those that persist indefinitely and those that are predominantly transient. Although there is overlap between the two groups, certain foods are more likely than others to be tolerated in late childhood and adulthood. The diagnosis of food allergy rests with the detection of food-specific IgE in the context of a convincing history of type I hypersensitivity-mediated symptoms after ingestion ingestion /in·ges·tion/ (-chun) the taking of food, drugs, etc., into the body by mouth. in·ges·tion n. 1. The act of taking food and drink into the body by the mouth. 2. of the suspected food or by eliciting IgE-mediated symptoms after controlled administration of the suspected food. Presently, the only available treatment of food allergies is dietary vigilance and administration of self-injectable epinephrine. Key words: epidemiology, food allergy, IgE-mediated hypersensitivity hypersensitivity, heightened response in a body tissue to an antigen or foreign substance. The body normally responds to an antigen by producing specific antibodies against it. The antibodies impart immunity for any later exposure to that antigen. . Environ Health Perspect 111:223-225 (2003). [Online 21 January 2003] doi:10.1289/ehp.5702 available via http://dx.doi.org/ ********** As many as 30% of American adults self-report food allergy and alter their eating habits accordingly (Sloan and Powers 1986). Similarly, nearly one-third of parents perceive adverse food reactions to be responsible for a multitude of symptoms in their children and modify their children's diets in response (Bock Noun 1. bock - a very strong lager traditionally brewed in the fall and aged through the winter for consumption in the spring bock beer lager beer, lager - a general term for beer made with bottom fermenting yeast (usually by decoction mashing); originally 1987). Although accurate and recent epidemiologic data are scarce, current estimates of the prevalence of food allergy suggest that approximately 5% of young children and 1-2% of adults have reproducible symptoms resulting from food allergy (Bock 1987; Niestijl et al. 1994). Despite greater awareness and recognition of food allergy by both physicians and patients, many allergists believe that the actual prevalence has risen substantially over the past decade, similar to the rise in prevalence of other atopic atopic /atop·ic/ (a-top´ik) (ah-top´ik) 1. ectopic. 2. pertaining to atopy; allergic. atopic 1. displaced; ectopic. 2. pertaining to atopy. conditions such as asthma and allergic rhinitis Allergic Rhinitis Definition Allergic rhinitis, more commonly referred to as hay fever, is an inflammation of the nasal passages caused by allergic reaction to airborne substances. (Ninan and Russell 1992; Peat et al. 1994; Sears 1996). An adverse reaction to food refers to any abnormal reaction after the ingestion of food or food additives food additives, substances added to foods by manufacturers to prevent spoilage or to enhance appearance, taste, texture, or nutritive value. By quantity, the most common food additives are flavorings, which include spices, vinegar, synthetic flavors, and, in the . Adverse reactions adverse reactions, n.pl unfavorable reactions resulting from administration of a local anesthetic; responsible factors include the drug used, concentration, and route of administration. to foods may result from enzyme deficiencies such as lactose intolerance Lactose Intolerance Definition Lactose intolerance refers to the inability of the body to digest lactose. Description Lactose is the form of sugar present in milk. , exaggerated pharmacologic responses to natural or added chemical agents such as vasoactive amines in wines, or immunologic responses. Immunologic responses to foods can be further defined mechanistically as immunoglobulin (Ig) E mediated and non-IgE mediated. The best-characterized adverse reactions to food are those that are Type I hypersensitivity reactions hypersensitivity reactions, n.pl any of several forms of overly responsive actions of the immune system to normally encountered, antigens. Also called allergic reactions. , i.e., IgE mediated. The spectrum of food allergy ranges from cutaneous cutaneous /cu·ta·ne·ous/ (ku-ta´ne-us) pertaining to the skin. cu·ta·ne·ous adj. Of, relating to, or affecting the skin. Cutaneous Pertaining to the skin. symptoms, such as atopic dermatitis Atopic Dermatitis Definition Eczema is a general term used to describe a variety of conditions that cause an itchy, inflamed skin rash. Atopic dermatitis, a form of eczema, is a non-contagious disorder characterized by chronically inflamed skin and , appearing several hours after the ingestion of the responsible food to potentially life-threatening symptoms occurring immediately upon ingestion. Additionally, some individuals experience allergic symptoms only if the food is eaten before specific physical stimuli (for example, vigorous exercise vigorous exercise A form of exercise that is intense enough to cause sweating and/or heavy breathing/ and/or ↑ heart rate to near maximum; VE is formally defined as that which requires > 6 METs; there is a graded inverse relationship between total physical ) or if the individual has concomitant seasonal allergies, whereby certain foods elicit oral symptoms, such as pruritis and local swelling upon ingestion. This article is limited to classic type I hypersensitivity allergic reactions to foods. Diagnosis The diagnosis of food allergy rests with the detection of food-specific IgE and a history compatible with IgE-mediated symptoms occurring within an acceptable time frame (usually < 1 hr) after the isolated ingestion of the food in question. Symptoms that result from IgE-mediated mast cell mast cell n. A cell found in connective tissue that contains numerous basophilic granules and releases substances such as heparin and histamine in response to injury or inflammation of bodily tissues. Also called labrocyte, mastocyte. degranulation degranulation the loss of granules; usually refers to the secretory granules in certain cells, e.g. pituitary chromophobes, acidophils and basophils. In basophils and mast cells, it is associated with the release of active substances from the cells and is characteristic of type I products include flushing, urticaria urticaria /ur·ti·ca·ria/ (ur?ti-kar´e-ah) hives; a vascular reaction of the upper dermis marked by transient appearance of slightly elevated patches (wheals) which are redder or paler than the surrounding skin and often attended by , stridor Stridor Definition Stridor is a term used to describe noisy breathing in general, and to refer specifically to a high-pitched crowing sound associated with croup, respiratory infection, and airway obstruction. or wheeze wheeze (hwez) a whistling type of continuous sound. wheeze v. To breathe with difficulty, producing a hoarse whistling sound. n. A wheezing sound. , and gastrointestinal symptoms such as abdominal pain Abdominal pain can be one of the symptoms associated with transient disorders or serious disease. Making a definitive diagnosis of the cause of abdominal pain can be difficult, because many diseases can result in this symptom. Abdominal pain is a common problem. or vomiting. Detection of food-specific IgE can be measured either with a skin prick test or, in vitro in vitro /in vi·tro/ (in ve´tro) [L.] within a glass; observable in a test tube; in an artificial environment. in vi·tro adj. In an artificial environment outside a living organism. , with food-specific IgE. Skin prick tests are inexpensive, simple tests and can be performed in individuals of all ages. Skin prick tests have excellent sensitivity and negative predictive value The negative predictive value is the proportion of patients with negative test results who are correctly diagnosed. Worked example
Condition (as determined by "Gold standard") True False , but variable specificity and positive predictive values Positive predictive value (PPV) The probability that a person with a positive test result has, or will get, the disease. Mentioned in: Genetic Testing positive predictive value ; therefore skin tests, particularly when performed with fresh foods, can reliably exclude food allergies when negative, but cannot confirm food allergy when positive (Bock et al. 1978; May 1976; Sampson 1988). When measured with the ImmunoCAP method (Pharmacia & Upjohn Diagnostics AB, Uppsala, Sweden), a fluoroenzymatic immunoassay Immunoassay An assay that quantifies antigen or antibody by immunochemical means. The antigen can be a relatively simple substance such as a drug, or a complex one such as a protein or a virus. , quantitative measures of food-specific IgE can be determined, and these measurements can be useful in the diagnosis of food allergy. The positive and negative predictive values of a limited number of food-specific IgE determinations have been published that define cutoff values that reliably predict the likelihood of food allergy when compared with double-blind, placebo-controlled, food challenges (DBPCFC DBPCFC Double Blind, Placebo-Controlled Food Challenges ) (Sampson 2001). The DBPCFC is the "gold standard" of food allergy diagnosis and requires the administration of incremental quantities of the suspected food to the patient in a controlled, blinded, and supervised setting, where observation and documentation of objective allergic signs are noted. The procedure and safety of DBPCFC have been described elsewhere (Bock et al. 1988). Thus, the diagnosis of food allergy can be made when the history is convincing of an IgE-mediated reaction and confirmatory skin tests or specific IgE assays are positive. However, when the history elicited is not clearly typical of an IgE-mediated reaction, either by description of symptoms or in timing, or when the meal that produced the reaction contained several allergic possibilities, positive skin tests or specific IgE measurements must be confirmed with DBPCFC before an accurate diagnosis of food allergy is made. Clearly, when the history and lab tests are convincing of food allergy, the DBPCFC is not indicated. Natural History of Food Allergy Most food allergies have their onset in infancy or early childhood, depending on when the food is introduced into the diet. Theoretically, any food containing a protein could elicit an allergic reaction; however, eight common foods are responsible for > 90% of food allergies (Hefle et al. 1996). The natural history of food allergy varies with the individual food, but many of the foods that elicit allergic reactions in young children can be eventually reintroduced into the diet. Thus, most food allergies can be classified as "likely to resolve" or "likely to persist." Food allergies that usually resolve include milk, soy, egg, and wheat. These allergies typically present in infancy and usually resolve by school age. Food allergies that usually persist include peanut, tree nuts, fish, and shellfish. These, too, usually present in early childhood, shortly after the introduction of these foods into the usual diet. Although most individuals with allergies to foods in this latter group tend to persist with these allergies indefinitely, some children will develop tolerance to these foods and will be able to reintroduce them safely into their diet. Milk allergy Milk allergy is an immunologically mediated adverse reaction to one or more cow's milk proteins. In some people the ingestion of cow's milk can trigger the body into launching an inappropriate immune response to the proteins in milk resulting in an allergic reaction. almost always presents in the first year of life, soon after the introduction of cow's milk or cow's milk-based infant formula Infant formula is an artificial substitute for human breast milk. Formulas are designed for infant consumption, and are usually based on either cow milk or soy milk. Use of infant formula has been decreasing in industrial countries for over forty years as a result of antenatal , and usually resolves by school age. Most infants with cow's milk allergy develop gastrointestinal symptoms, approximately 50-70% have cutaneous features, and about 20-30% will have respiratory symptoms (Host 1994). Milk allergy affects up to 2.5% of infants, with approximately 1% of all children developing IgE-mediated milk allergy and approximately 1.5% of children developing non-IgE-mediated milk allergy (Host and Halken 1990). In a prospective study by Host and Halken (1990), 39 infants in a birth cohort of 1,749 unselected newborns were diagnosed with cow's milk protein allergy/intolerance based on elimination diets and milk rechallenges. Of 39 infants diagnosed with milk allergy or milk intolerance milk intolerance Lactose intolerance, see there. See Lactose tolerance test. , 21 infants had positive skin or serum IgE tests to milk and 18 had non-IgE-mediated cow's milk intolerance. Of the total group, 56% were able to tolerate milk by 1 year of age, 77% by 2 years, and 87% by 3 years. Of children with IgE-mediated cow's milk allergy, 14% had persistent milk allergy at the age of 5 and 10 years. All of the children with non-IgE-mediated cow's milk allergy and most children with IgE-mediated cow's milk allergy were able to reintroduce milk products by age 5; however, 3 of 21 of the IgE-mediated group remained allergic well into mid-childhood. Thus, in an unselected population, milk allergy usually resolves by school age, but among highly atopic children, milk allergy is more likely to persist (Bishop et al. 1990; Tikkanen et al. 2000). Risk factors for persistence of milk allergy include early dermatitis dermatitis (dûr'mətī`tĭs), nonspecific irritation of the skin. The causative agent may be a bacterium, fungus, or parasite; it can also be a foreign substance, known as an allergen. presentation of milk allergy; development of other atopic conditions, including other food allergies, asthma, and allergic rhinitis; and persistence of elevated levels of milk-specific IgE (Sicherer and Sampson 1999; Zeiger et al. 1999). In general, as tolerance to IgE-mediated milk allergy is achieved, the size of the wheal wheal (hwel) a localized area of edema on the body surface, often attended with severe itching and usually evanescent; it is the typical lesion of urticaria. wheal n. and flare on the skin prick tests decreases; however, it may continue to remain positive beyond acquisition of clinical tolerance. Serum-specific IgE, measured by the ImmunoCAP system, appears to be a more sensitive measure for the prediction of food allergy resolution, especially in patients with atopic dermatitis (Sampson 2001). Soy is considered a major food allergen allergen /al·ler·gen/ (al´er-jen) an antigenic substance capable of producing immediate hypersensitivity (allergy).allergen´ic pollen allergen and is a food introduced to infants in the form of infant formulas and cereals. Soy-based infant formulas are recommended for families following vegetarian dietary restrictions, for children with congenital or acquired lactose intolerance, and for infants with diagnosed IgE-mediated cow's milk allergy. Of children with IgE-mediated cow's milk allergy, fewer than 15% will develop a concomitant allergy to soy, but most infants will tolerate soy protein without difficulty (Zeiger et al. 1999). The prevalence of soy allergy/soy intolerance varies with the frequency with which soy is introduced into regional diets, but it appears to affect 1-6% of infants (Giampietro et al. 1997; Magnolfi et al. 1996). Symptoms associated with soy allergy include typical IgE-mediated features as well as non-IgE-mediated--gastrointestinal symptoms such as hematochezia and malabsorption malabsorption /mal·ab·sorp·tion/ (mal?ab-sorp´shun) impaired intestinal absorption of nutrients. mal·ab·sorp·tion n. Defective or inadequate absorption of nutrients from the intestinal tract. . Both skin prick tests and food-specific IgE are used to detect the presence of IgE; however, both modalities have poor specificity and positive predictive values (Giampietro et al. 1997; Sampson 2001). The natural history of IgE-mediated soy allergy is similar to that of other "predominantly transient" allergies, and most children can tolerate soy products by school age. The prevalence of egg allergy is estimated at 1.6-2.6% of the general pediatric pediatric /pe·di·at·ric/ (pe?de-at´rik) pertaining to the health of children. pe·di·at·ric adj. Of or relating to pediatrics. population but is significantly higher among individuals with atopic dermatitis and other collateral atopic conditions (Danneus et al. 1977; Eggesbo et al. 2001). Most children developing allergic symptoms to ingestion of egg develop symptoms within 30 min. More than 85% of egg-allergic children develop cutaneous symptoms, 60% have gastrointestinal symptoms, and up to 40% will have associated respiratory symptoms (Eggesbo et al. 2001; Ford and Taylor 1982). In Ford and Taylor's (1982) description of the natural history of egg allergy, 44% of egg-allergic children were able to reintroduce egg products into their diet by school age, but the remaining 56% persisted with egg allergy. Children with persistent egg allergy had significantly more target organs affected at the time of the initial allergic reaction, were more likely to acquire additional atopic conditions, and continued to have positive prick skin tests to egg. Egg-specific IgE, measured by the ImmunoCAP method, is useful in predicting the likelihood of positive challenges, and cutoff values have been proposed for this effect (Sampson 2001). Peanuts, nuts, fish, and seafood allergies generally persist indefinitely. Other foods, particularly seeds (e.g., sesame, poppy, mustard), might also be added to this list. Uncommonly, reports of tolerance developing to these foods have been published, but until very recently, the persistence of these food allergies has been expected. Peanut allergy peanut allergy Immunology A common cause of anaphylactic reactions which, unlike some allergies, is rarely outgrown; PA is the most common cause of food allergy in the US, and a leading cause of food-induced anaphylaxis and death after accidental exposure deserves particular attention because it almost always presents early in life, is often severe, generally persists indefinitely, and is the most common cause of fatal food-related anaphylaxis anaphylaxis (ăn'əfəlăk`sĭs), hypersensitive state that may develop after introduction of a foreign protein or other antigen into the body tissues. (Bock and Atkins 1989; Sampson et al. 1992). Additionally, because of peanut's relative ubiquity, accidental exposures occur frequently, despite vigilant attempts to avoid peanut-containing foods (Bock and Atkins 1989; Vander Leek leek: see onion. leek Hardy, vigorous, biennial plant (Allium porrum) of the lily family, native to the eastern Mediterranean and the Middle East. It has a mild, sweet, onionlike flavour. et al. 2000). The prevalence of peanut allergy is approximately 0.6%, and there is some evidence that this has increased (Grundy et al. 2002; Sampson 1996; Sicherer et al. 1999; Tariq et al. 1996). Tariq et al. (1996) described the prevalence of peanut allergy and peanut sensitization sensitization /sen·si·ti·za·tion/ (sen?si-ti-za´shun) 1. administration of an antigen to induce a primary immune response. 2. exposure to allergen that results in the development of hypersensitivity. in a birth cohort of children born between 1989 and 1990. The prevalence of sensitization to peanut was 1.1% and the prevalence of confirmed peanut allergy was 0.5%. In 2001, a similar birth cohort, born between 1994 and 1996, was prospectively followed for evidence of peanut sensitization and allergy. The sensitization prevalence had increased to 3.2%, and the peanut allergy prevalence rose to 1.5% (Grundy et al. 2002). Approximately 80% of peanut-allergic children develop allergic symptoms at the time of their first known exposure to peanut, > 90% develop symptoms within 30 min of ingestion, 90% have cutaneous features, 40% have respiratory symptoms, and 50% develop allergic manifestations to contact alone (Hourihane et al. 1997; Sicherer et al. 1998). After diagnosis and despite avoidance measures, most peanut-allergic children have accidental exposures to peanut resulting in allergic symptoms, and > 40% of subsequent allergic reactions may be more severe than the initial reaction (Bock and Atkins 1989; Vander Leek et al. 2000). However, in a subset of peanut-allergic children, up to 20% will become tolerant to peanut and will be able to reintroduce peanut into their diets (Hourihane et al. 1998; Skolnick et al. 2001; Spergel et al. 2000). Factors that appear to predict resolution of peanut allergy include mild cutaneous allergic features at onset, fewer associated atopic features, loss or diminution of skin prick test reactions to peanut, and low levels of peanut-specific IgE. Studies on the natural history of allergies to other foods considered to be "lifelong" are scant. Although it does appear that most adults with shellfish allergy remain allergic to crustaceans, reports of individuals becoming tolerant to shrimp have been published (Daul et al. 1990). Likewise, it is possible that tolerance to other "persistent" food allergies may develop in some individuals, but publications provide little guidance in determining which patients may resume eating these foods. In the interim, patients with allergies to nuts, seeds, fish, and crustaceans are advised to avoid ingesting these foods indefinitely, unless oral challenge tests demonstrate acquisition of tolerance. Treatment The treatment of food allergy is limited to encouraging strict dietary vigilance and the ability to self-treat an allergic reaction if it were to occur. Maintaining dietary vigilance is difficult and stressful but can reduce the likelihood of experiencing an accidental ingestion of the allergic food (Bock and Atkins 1989; Ewan and Clark 2001; Primeau et al. 2000; Vander Leek et al. 2000). Currently, the only available therapy for food allergy is avoidance and self-treatment with auto-injectable epinephrine. Early administration of epinephrine is life-saving, and proper technique should be taught to all food-allergic individuals (Sampson et al. 1992). Promising immunotherapy interventions are being developed to diminish the severity of life-threatening food allergies but are not yet commercially available. Conclusion Food allergies affect between 5% and 8% of the pediatric population and between 1% and 2% of the adult population and appear to be rising. Many food allergies are "outgrown" during childhood, but some individuals never develop tolerance to some of the more commonly seen "transient" food allergens and remain symptomatic indefinitely. Factors associated with the persistence of "transient" food allergies include early onset, greater severity of allergy expression, collateral atopic conditions, persistence of skin prick test reactions, and elevated food-specific IgE. Conversely, a minority of individuals with allergy to foods traditionally believed to persist indefinitely have demonstrated loss of the allergy and clinical tolerance. Further research into the risk factors and associated clinical and laboratory tests that may predict persistence or resolution of food allergy may help to characterize this dichotomy. REFERENCES Bishop J, Hill D, Hosking C. 1990. Natural history of cow milk allergy: clinical outcome. J Pediatr 116:862-867. Bock S. 1987. Prospective appraisal of complaints of adverse reactions to foods in children during the first 3 years of life. Pediatrics 79:683-688. Bock S, Lee W, Remigio L, Holst A, May C. 1978. Appraisal of skin tests with food extracts for diagnosis of food hypersensitivity food hypersensitivity See Food allergy, food intolerance. . Clin Allergy 8:559-664. Bock S, Sampson H, Atkins F, Zeiger R, Lehrer S, Sachs M, et al. 1988. Double-blind, placebo-controlled food challenge (DBPCFC) as an office procedure: a manual. J Allergy Clin Immunol 82:986-997. Bock SA, Atkins FM. 1989. The natural history of peanut allergy. J Allergy Clin Immunol 83:900-904. Danneus A, Jhansson S, Foucard T, Ohman S. 1977. Clinical and immunological aspects of food allergy in childhood: estimation of IgG, IgA and IgE antibodies to food antigens in children with food allergy and atopic dermatitis. Acta Paediatr Scand 66:31-37. Daul C, Morgan J, Lehrer S. 1990. The natural history of shrimp hypersensitivity. J Allergy Clin Immunol 86:488-493. Eggesbo M, Botten G, Halvorsen R, Magnus P. 2001. The prevalence of allergy to egg: a population-based study in young children. Allergy 56:403-411. Ewan PW, Clark AT, 2001. Long-term prospective observational study of patients with peanut and nut allergy after participation in a management plan, Lancet 357:111-115. Ford R, Taylor B. 1982. Natural history of egg hypersensitivity. Arch Dis Child 57:649-652. Giampietro B, Buercio M, Giovannini L, Lovati C, Paolucci P, Quaglio L, et al. 1997. Soy allergy is not common in atopic children: a multicenter study. Pediatr Allergy Immunol 8:190-193. Grundy J, Matthews S, Bateman B, Dean T, Arshad SH. 2002. Rising prevalence of allergy to peanut in children: data from 2 sequential cohorts. J Allergy Clin Immunol 110(5):784-789. Hefle S, Nordlee J, Taylor S. 1996. Allergenic Allergenic A substance capable of causing an allergic reaction. Mentioned in: Echinococcosis Foods. Crit Rev Food Sci Nutr 36(suppl):S69-S89. Host A. 1994. Cow's milk protein allergy and intolerance in infancy. Some clinical, epidemiological, and immunological aspects. Pediatr Allergy Immunol 5:5-36. Host A, Halken S. 1990. A prospective study of cow milk allergy in Danish infants during the first 3 years of life: clinical course in relation to clinical and immunological type of hypersensitivity reaction. Allergy 45:587-596. Hourihane JO, Roberts SA, Warner JO. 1998. Resolution of peanut allergy: case-control study case-control study, n an investigation employing an epidemiologic approach in which previously existing incidents of a medical condition are used in lieu of gathering new information from a randomized population. . Br Mad J 316:1271-1275. Hourihane JO, Kilburn SA, Dean P, Warner JO. 1997. Clinical characteristics of peanut allergy. Clin Exp Allergy 27:634-639. Magnolfi CF, Zani G, Lacava L, Patria PATRIA. The country; the men of the neighborhood competent to serve on a jury; a jury. This word is nearly synonymous with pais. (.q.v.) MF, Bardare M. 1996. Soy allergy in atopic children. Ann Allergy Asthma Immunol 77:197-201. May C. 1976. Objective clinical and laboratory studies of immediate hypersensitivity immediate hypersensitivity, n a type-1 hypersensitivity reaction in which exposure to an antigen causes an rapid immune response. Immuno-globulin E binds to the antigen, thus causing release of cytokine and histamine. reactions to food in asthmatic children. J Allergy Clin Immunol 58:500-515. Niestijl J, Kardinall A, Huijbers G, Vlieg-Boerstra B, Marten marten, name for carnivorous, largely arboreal mammals (genus Martes) of the weasel family, widely distributed in North America, Europe, and central Asia. Martens are larger, heavier-bodied animals than weasels, with thick fur and bushy tails. B, Ockhuizen T. 1994. Prevalence of food allergy and intolerance in the adult Dutch population. J Allergy Clin Immunol 93:446-456. Ninan T, Russell G. 1992. Respiratory symptoms and atopy atopy /at·o·py/ (at´ah-pe) a genetic predisposition toward the development of immediate hypersensitivity reactions against common environmental antigens (atopic allergy), most commonly manifested as allergic rhinitis but also as in Aberdeen schoolchildren schoolchildren school npl → écoliers mpl; (at secondary school) → collégiens mpl; lycéens mpl schoolchildren school : evidence from two surveys 22 years apart. Br Med J 304:873-875. Peat J, Berg RV, Green W, Mellis C, Leeder S, Woolcock A. 1994. Changing prevalence of asthma in Australian children. Br Med J 308:1591-1596. Primeau MN, Kagan R, Joseph L, Lim H, Dufresne C, Duffy C, et al. 2000. The psychological burden of peanut allergy as perceived by adults with peanut allergy and the parents of peanut-allergic children. Clin Exp Allergy 30:1135-1143. Sampson H, 1988. Comparative study of commercial food antigen extracts for the diagnosis of food hypersensitivity. J Allergy Clin Immunol 82:718-726. Sampson H. 1996. Epidemiology of food allergy, Pediatr Allergy Immunol 7:42-50. Sampson H, Mendelson L, Rosen J. 1992. Fatal and near-fatal anaphylactic anaphylactic /ana·phy·lac·tic/ (an?ah-fi-lak´tik) pertaining to anaphylaxis. anaphylactic (an´ reactions to food in children and adolescents. N Engl J Med 327:380-384. Sampson HA. 2001. Utility of food-specific IgE concentrations in predicting symptomatic food allergy. J Allergy Clin Immunol 107:891-896. Sears M. 1996. Epidemiologic trends in asthma. Can Resp J 3:261-268. Sicherer S, Burks A, Sampson H. 1998. Clinical features of acute allergic reactions to peanut and tree nuts in children [Abstract]. Pediatrics 102:e6. Sicherer S, Sampson H. 1999. Cow's milk protein-specific IgE concentrations in two age groups of milk-allergic children and in children achieving clinical tolerance. Clin Exp Allergy 29:507-512. Sicherer SH, Munoz-Furlong A, Burks AW, Sampson HA. 1999. Prevalence of peanut and tree nut allergy in the US determined by a random digit dial telephone survey. J Allergy Clin Immunol 103:559-562. Skolnick HS, Conover-Walker MK, Koerner CB, Sampson HA, Burks W, Wood RA. 2001. The natural history of peanut allergy. J Allergy Clin Immunol 107:367-374. Sloan A, Powers M. 1986. A perspective on popular perceptions of adverse reactions to foods. J Allergy Clin Immunol 78:127-133. Spergel J, Beausoleil J, Pawlowski N. 2000. Resolution of childhood peanut allergy. Ann Allergy Asthma Immunol 85:473-476. Tariq SM, Stevens M, Matthews S, Ridout S, Twiselton R, Hide DW. 1996. Cohort study of peanut and tree nut sensitisation Noun 1. sensitisation - the state of being sensitive (as to an antigen) sensitization irritation - (pathology) abnormal sensitivity to stimulation; "any food produced irritation of the stomach" by age of 4 years. Br Med J 313:514-517. Tikkanen S, Kokkonen J, Juntti H, Niinimaki A. 2000. Status of children with cow's milk allergy in infancy by 10 years of age. Acta Paeditr 89:1174-1180. Vander Leek TK, Liu AH, Stefanski K, Blacker B, Bock SA. 2000. The natural history of peanut allergy in young children and its association with serum peanut-specific IgE. J Pediatr 137:749-755. Zeiger R, Sampson H, Bock S, Burks A, Harden K, Noone S, et al. 1999. Soy allergy in infants and children with IgE-associated cow's milk allergy. J Pediatr 134:614-622. Divisions of Allergy and Clinical Immunology and Rheumatology rheumatology /rheu·ma·tol·o·gy/ (-tol´ah-je) the branch of medicine dealing with rheumatic disorders, their causes, pathology, diagnosis, treatment, etc. rheu·ma·tol·o·gy n. , Department of Pediatrics, Montreal Children's Hospital Montreal Children's Hospital is a pediatric health centre in Montreal and one of a few in Canada. It is affiliated with the McGill University Health Center. Although it is much smaller than its Montreal counterpart, the Centre hospitalier universitaire Sainte-Justine (144 , McGill University Health Centre The McGill University Health Centre (MUHC) (in French, Centre universitaire de santé McGill) is a network of five teaching hospitals in Montreal, Quebec, Canada, all of which are affiliated with McGill University. , Montreal, Quebec, Canada Address correspondence to R. Kagan, The Montreal Children's Hospital, 2300 Tupper Street, Room C-510, Montreal, Quebec H3H 1P3 Canada. Telephone: (514) 412-4470. Fax: (514) 412-4390. E-mail: rhoda.kagan@muhc.mcgill.ca This article is part of the mini-monograph "Animal Models to Detect Allergenicity to Foods and Genetically Modified Products." Received 9 April 2002; accepted 2 October 2002. |
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