Open Access Original research

Allergy Diagnosis in Children and Adults: Performance of a New Point-of-Care Device, ImmunoCAP Rapid

Gunilla Hedlin1, Carmen Moreno2, Carl Johan Petersson8, Gunnar Lilja3, Félix Lorente Toledano4, Antonio Nieto García5, Lennart Nordvall6, Mona Palmqvist7, Sabina Rak7, Staffan Ahlstedt89 and Magnus P Borres108*

Author Affiliations

1 Astrid Lindgren Children's Hospital, Karolinska University Hospital, Stockholm, Sweden

2 Servicio Allergica-Adultos, Hospital Reina Sofia, Córdoba, Spain

3 Sachs' Children's Hospital, Stockholm, Sweden

4 Sección Alergia Pediátrica, Hospital Clínico-Universitario Salamanca, Salamanca, Spain

5 Sección Alergia Pediátrica, Hospital La Fe-Materno Infantil, Valencia, Spain

6 Uppsala University Children's Hospital, Uppsala, Sweden

7 Department of Respiratory Medicine and Allergology, Sahlgrenska University Hospital, Göteborg, Sweden

8 Phadia AB, Uppsala, Sweden

9 Institute of Environmental Medicine, Karolinska Institute, Stockholm

10 Department of Pediatrics, Sahlgrenska Academy at Göteborg University, Göteborg, Sweden

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World Allergy Organization Journal 2009, 2:138-143  doi:10.1097/WOX.0b013e3181aed85c

The electronic version of this article is the complete one and can be found online at: http://www.waojournal.org/content/2/7/138


Published:15 July 2009

© 2009 World Allergy Organization; licensee BioMed Central Ltd.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

Background

Allergy is a serious problem affecting approximately 1 of 4 individuals. The symptoms with and without allergy etiology are often difficult to distinguish from each other without using an IgE antibody test. The aim of this study was to investigate the performance of a new point-of-care (POC) test for IgE antibodies to relevant allergens in Europe.

Methods

IgE antibodies from children and adults with allergies recruited from allergy clinics in Sweden and Spain were analyzed for 10 allergens, suitable for the age groups, using the new POC test and ImmunoCAP laboratory test. The IgE antibody level best discriminating between positive and negative results (the cutoff point) for the different allergens of the POC test and the efficacy of the POC and the ImmunoCAP laboratory tests for diagnosing allergy compared with that of clinical diagnosis were investigated.

Results

The estimated cutoffs for the different allergens in the POC test ranged from 0.70 to 2.56 kUA/L. Taking into account all positive allergen results in a given patient, the POC test could identify 95% of the patients with allergies. Seventy-eight percent of the allergen-specific physicians' diagnoses were identified and 97% of the negative ones. Most allergens exhibited good performance, identifying about 80% of clinically relevant cases. However, dog, mugwort, and wall pellitory would benefit from improvement.

Conclusions

The POC test will be a valuable adjunct in the identification or exclusion of patients with allergies and their most likely offending allergens, both in specialist and general care settings.

Keywords:
IgE antibody allergy diagnosis; point-of-care test

Original research

The prevalence of allergic diseases has been increasing during the past several decades, both in the Western world and in developing countries where a more "Westernized" lifestyle has been blamed [1-3]. The diagnosis of allergic diseases demands confirmation of specific IgE antibodies in patients with symptoms. This has traditionally been done using skin prick tests (SPT) that give immediate results, but are difficult to standardize for inexperienced users. Specific IgE antibodies have also been demonstrated for more than 30 years in the blood by using fairly advanced and time-consuming laboratory tests [4]. Thus, there is a need for a well-standardized, simple, and quick point-of-care (POC) test that can be easily performed in the physician's office. The following 4 reasons why a POC test for specific IgE is needed were identified. First, allergy may affect one fourth of the population in the Western world [1,2]. These patients are seen by both allergists, who have good experience in allergy diagnosis, and by pediatricians and family physicians who have less experience in this field.

Second, only 1 to 2 of 3 patients suffering from such symptoms may actually be allergic [5,6]. It is frequently difficult to distinguish between the symptoms of an allergic explanation from a nonallergic one (wheezing, shortness of breath, dyspnea, bronchi, cough, and chest tightness; nasal congestion, sneezing, rhinorrhea, itching of nose, ears, and eyes, and postnasal drainage; nausea, vomiting, reflux, constipation, abdominal cramping, and diarrhea; itchy, erythematous, and scaly skin). The identification of allergy in patients is considerably hampered without access to an IgE antibody test [7-11].

Third, there is a consensus that knowledge of the allergic status and understanding of the environmental context of a patient will allow a more adequate choice of therapy and efficient management of the symptoms and evolving disease [12,13]. Likewise, it is important to be able to exclude allergy from other reasons for the symptoms. In particular, the presence of allergy and elevated IgE antibody levels represents a risk for acute and complicating reactions over time [14].

Fourth, even if there are hundreds of substances that can be allergenic, practical clinical experience demonstrates that a limited number of the most common allergens in the environment will identify more than 90% of the individuals with allergies [15].

The most effective clinical tool should be simple enough to be used in the physician's office and possess the ability to verify or exclude the presence of allergy. In addition, this tool should also not be confused with low-grade sensitization that can be difficult to interpret,[4,14,16-18] even in combination with case history and physical examination [7,10,11,14,19].

We report on the evaluation of a safe and simple tool for POC testing of relevant IgE antibodies to environmental allergens in Europe that gives results in a few minutes.

Whereas Diaz-Vazquez et al and Eigenmann et al [20,21] evaluated this POC exclusively in children, this study also addressed adults with similar symptoms.

Materials and Methods

Patients

This one-visit multicenter study involved 229 patients at 7 allergy centers. In Sweden, 3 centers were pediatric clinics and 1 center an adult clinic. In Spain, 2 centers were pediatric clinics and 1 was an adult clinic. Patients with a history of symptoms and sensitization to 1 or more of the allergens to be evaluated were invited to participate in the study. Patients between 0 and 18 years of age were recruited in the pediatric clinics and patients between 19 and 65 years of age in the adult clinics. For inclusion, the patient needed to have ongoing symptoms of wheeze/asthma and/or rhinitis. Also, the patient had to agree to have a 110-μL capillary and a 4-mL venous blood sample taken and to accept participation by signing an informed consent form. Subjects infected with HIV and those with a history of hepatitis were excluded from the study. Case history of allergy-like symptoms and potential factors giving the patients symptoms of allergy were recorded. The distribution of patients by demographic characteristics and participating country was similar for both pediatric and adult clinics and can be provided by the authors upon request. In the 2 adult clinics, there was a predominance of females, particularly in Sweden. The adult patients in Spain were somewhat younger, median 26 years compared with 36 years in Sweden.

The protocol for this study was reviewed and approved by the following: Comite Etico Investigacion Clinica Hospital "Reina Sofia", Cordoba, Spain; Comite Etico Investigacion Clinica Hospital Universitario La Fe, Valencia, Spain; Comite Etico Investigacion Clinica Hospital Universitario Salamanca, Spain; Forskningsetikkommittén vid Karolinska Institutet, Stockhlm, Sweden; and Forskning-setikkommittén vid Göteborgs Universitet, Gothenburg, Sweden. Patient informed-consent forms were signed by all patients--parents and children (age permitting) and adults--before enrollment.

Point-of-Care Test

Specific IgE antibodies for a total of 10 allergens were qualitatively determined using 2 test profiles representative of the regions from where the patients were recruited: 1 for children (ImmunoCAP Rapid Wheeze-Rhinitis Child) and 1 for adults (ImmunoCAP Rapid Asthma/Rhinitis Adult) (Phadia AB, Uppsala, Sweden). Each profile included 2 control areas and 10 allergens identifiable on an individualized basis. For the 2 profiles there were 8 common and 2 profile-specific allergens. The common allergens were timothy (Phleum pratense), birch (Betula verrucosa), olive (Olea europaea), wall pellitory (Parietaria judaica), mugwort (Artemisia vulgaris), cat dander, dog dander, and house dust mite (Dermatophagoides pteronyssinus). The 2 profile-specific allergens for the child test were egg white and milk and, for the adult test, Alternaria alternata and cockroach (Blatella germanica). The compositions of the profiles were based on the most frequent specific allergens known to occur (in Europe) in the 2 target populations: children and adults with allergy-related symptoms. The allergen reagents on the POC test included natural extracts and purified allergen components and recombinant allergens. To achieve an optimal allergen preparation, a combination of purified original extract spiked with critical allergen components was often necessary. Examples of preparations where an increased sensitivity without a decrease in specificity could be achieved were for olive pollen, where the original extract was spiked with purified Ole e 1 (a major component in olive pollen) and for dog spiked with recombinant Can f 1 and Can f 2 (major components in dog epithelia).

At each center, the POC test was performed by an appointed study nurse and the results remained blind for the physician until the end of the study. The total time for running the POC test was 20 minutes after 110 μL of blood was applied to the assay device. Plasma separated from blood cells by capillary force and flowed onto the 2 parallel visible test strips. If present, specific IgE antibodies bound to the zone on the test strip containing the corresponding allergen. After 5 minutes, a developer solution was added into a separate well, releasing a dried gold conjugate that similarly flowed onto the test trips. After an additional 15 minutes, the conjugate formed a visible pink-red complex with any bound IgE antibodies for a positive allergen in the test strip. A invisible line was read as negative, indicating that specific IgE antibodies were undetectable with this POC test. Two control windows, one on each strip, indicated whether the test run should be approved or not. The principle of the test has also been published elsewhere [20,22].

Reproducibility studies performed by the manufacturer have shown the same response (positive or negative) in 94% of the tests when repeated on different occasions and across different batches. High levels of total IgE, up to 3000 kU/L, did not interfere with the test results. Similarly, no measurable cross-reactivity was observed of the IgE-specific conjugate with human IgG, IgA, IgD, or IgM and no interference from hemoglobin, bilirubin, triglycerides, or cholesterol was detected within normal concentration ranges. Test results were not affected by hematocrit levels up to 48% [22].

Quantitative Allergen-Specific IgE Measurements

For all patients the quantitative specific IgE antibody level was determined for each allergen included in the new tests by using the venous blood sample (ImmunoCAP, Phadia AB, Uppsala, Sweden). A patient with IgE antibody levels above 0.35 kUA/L to an individual allergen was considered sensitized.

Clinical Evaluation of the POC Test

Each patient was examined separately for each of the 10 allergens where each allergen was classified as "positive", "negative", or "inconclusive". At each center, there was 1 physician responsible for the clinical judgment of the participating patients. The physician's judgment was based on, besides case history and physical examination, SPT results (SPT cutoff point: wheal diameter ≥ 3 mm) and/or Immuno-CAP specific IgE determinations (cutoff point: ≥ 0.35 kUA/L) when necessary. An inconclusive diagnosis was set when case history and the laboratory IgE test result or any previous test result did not correspond.

For the evaluation of the diagnostic performance of the POC test, the results for each allergen were compared with the positive and negative classifications made by the physicians.

Data Analysis and Statistical Methods

The percentage agreement of a positive POC test with the physician's positive diagnosis and the percentage agreement of a negative POC test with the physician's negative diagnosis were calculated for each separate allergen and for all allergens collectively.

For each allergen, receiver-operating characteristic (ROC) analysis [23] was used in a reversed manner to estimate cutoff levels for the quantitative laboratory test, using the results of the POC test as the reference, that is, to estimate specific IgE levels that best discriminated between positive and negative results of the POC test. This was done using all available observations, irrespective of allergen diagnosis.

On the basis of the physician's positive or negative classification, the clinical performance of the POC test was compared with the performance of the ImmunoCAP Specific IgE using both the standard cutoff and the cutoff estimated from the data.

Statistical analyses were performed using the SAS statistical software system (v8.2). Microsoft Excel 2003 was used for figures and plots.

Results

Overall, in the pediatric clinics, 73 children (60%) presented with a diagnosis of asthma and 101 children (84%) with rhinitis. The prevalence of asthma and allergic rhinitis in Swedish children was 90% for each, whereas that in the children from Spain was 24% for asthma and 76% for rhinitis. In the adult clinics, a similar number of patients were seen in the 2 countries with 90% symptoms for rhinitis and 64% for asthma. In the pediatric clinics, the most common self-reported allergens were tree pollen (55%), cat dander (50%), and grass pollen (49%). Infection headed the list of nonallergen triggering factors (49%). The percentage of each triggering factor was generally higher in Sweden than in Spain. In the adult clinics, the most common allergens reported were tree pollen (75%), house dust mite (62%), and cat dander (46%). Nonallergen triggering factors, such as smoking (57%), infection (51%), and exercise (48%), were similar in both countries.

Estimated Cutoffs per Allergen for the POC Test Calculated Using the Quantitative Laboratory Blood Test

The cutoff for each allergen of the new POC test was calculated with the laboratory test by estimating the kUA/L levels giving the best discrimination between positive and negative POC test results. Different levels were found for the different allergens, ranging from a low of 0.70 kUA/L for milk to a high of 2.56 kUA/L for wall pellitory (Table 1). This gave a percentage agreement between the laboratory test results with the positive and negative POC test results ranging from 92% and 94% respectively for milk to 77% and 95% respectively for wall pellitory, with all other allergens falling in between.

Table 1. Agreement of the POC and Laboratory Test (Using Different Cutoff Values) With Doctor's Diagnosis

Performance of the POC Test and the Laboratory Test Compared with the Physician's Diagnosis

In total, 218 of the 229 patients tested positive to at least 1 allergen in the POC test. Of these patients, 216 had at least 1 positive allergen diagnosis made by the physician. In addition, 9 of the 11 subjects with negative POC test had at least 1 such positive allergen diagnosis made by the physician. Thus, of the 225 patients with at least 1 positive clinical allergen diagnosis, the POC test recognized 216 or 95% of them.

In total, 2284 allergen-specific diagnoses were made in the 229 patients. The number of positive and negative diagnoses were 653 and 1165, respectively. The number of inconclusive diagnoses was 466. For each single allergen the distribution of the POC test results versus the physicians' positive and negative diagnoses is shown in Table 1. In total, 78% of the physicians' positive allergen diagnoses were associated with a positive result in the POC test. In the case of the physicians' negative allergen diagnoses, the POC test results were negative in 97% of the cases. This resulted in an overall agreement of the study test compared with the positive and negative diagnoses of 90%. The results from children and adults were comparable (Figure 1) as were those from Spain and Sweden (not shown), justifying analysis as a single group.

thumbnailFigure 1. Percentage agreement of the POC test results with the physician's diagnosis for (A) children and (B) adults.

The performance of the POC test compared with that of the laboratory test using the clinical diagnosis as the discriminator is shown in Figure 1 and Table 1. The agreement of a positive POC test result and a laboratory test result above the cutoff value, as estimated for the individual allergens in the POC test with a clinical diagnosis, was above 80% for most allergens (Table 1). However, the concordance of the results was lower for dog and mugwort. The concordance of positive POC test results with results of positive clinical diagnosis was compared with the concordance of positive specific IgE results from the laboratory test using the ordinary 0.35 kUA/L cutoff for the individual allergens with results of positive clinical diagnosis. It was found that the performance of the POC test was about 15% lower, with the exception of dog and mugwort where the differences were 46% and 41% lower, respectively (Table 1).

The corresponding analysis of the agreement of negative POC test results with negative clinical diagnosis showed concordant results, with values well above 90% and, for many allergens, close to 100% when compared with the laboratory test (Table 1). As expected, when compared with the regular 0.35 kUA/L cutoff, most allergens showed better agreement with the physician's diagnosis in the POC test, albeit in most instances less than 15% than for the laboratory ImmunoCAP test. The exception was for dog where there was a 21% better outcome in the POC test. In all these analyses the results were very similar for both children and adults (Figure 1) and both Spain and Sweden (not shown).

In the recruited patients, the number of inconclusive clinical classifications per allergen was, in total, 466 (20%), that is, discordant results between clinical history and laboratory IgE antibody test, or any previous test results. Of these results, 30% were positive in the POC test. One of the most difficult allergens to diagnose in this study, resulting in inconclusive diagnosis, was wall pellitory in both countries (31% in Spain and 18% in Sweden). Likewise, inconclusive diagnosis was high for birch in Spain (34%) and for olive tree in Sweden (25%).

Discussion

The POC test was able to identify 95% of the patients having a diagnosis of allergic disease. Despite this excellent result this new test exhibited somewhat lower sensitivity than the conventional laboratory test ImmunoCAP [24]. It could correctly identify 78% of the allergen-specific diagnoses and 97% of the negative allergen-specific diagnoses, giving an overall concordance of 90%. These results are in accordance with the results obtained in previous studies using the POC test [20,21]. However, in this study it was found that the results between the specific allergens varied within a wide range; that is, the range in sensitivity was from around 50% for dog, mugwort, and cockroach to around 90% for A. alternata and birch. Concerning the relatively low values for the allergens for dog, mugwort, and cockroach, they would probably benefit from a manufacturer's test improvement.

To increase the prevalence of clinical allergy and sensitization to the employed allergens, it was decided to include patients previously recognized as having allergies. This approach enriched the population of people with allergies compared with a consecutive enrollment but still allowed analysis of clinical and serological reactivity to both offending and nonoffending allergens. Therefore, it was not surprising that 218 patients of 229 were positive in the POC test to 1 or more of the employed allergens and 225 patients had a positive general allergy diagnosis. In an attempt to cover different regions of exposure, patients from both Spain and Sweden were included, consisting of both adults and children. There was no indication that the inclusion of patients from northern and southern Europe and of different ages blurred the results. Individual allergen results showed that there was a difference in the number of inconclusive results in patients for birch pollen in Spain and for olive and wall pellitory in Sweden. This may be due to the fact that these pollens do not occur in the respective region and the results may be due to cross-reactivity between allergens. For example, ash (Fraxinus), lilac (Syringa), and privet (Ligustrum) are trees present in the northern European region and belong to the same family (Oleaceae) as olive (Olea). As such, these results may be considered as irrelevant.

In the present study there was a positive or negative diagnosis for the majority of the individual allergens in the recruited patients. However, there were also those with inconclusive diagnoses. Many of those cases exhibited low IgE antibody levels to the allergens (unpublished results). This finding may be taken as proof of the difficulty to link low-grade sensitization and low IgE antibody levels with actual clinical symptoms.

The POC test exhibited somewhat lower sensitivity than the laboratory test. Therefore, the cutoffs for the different allergens in the POC test were estimated and interpreted in relation to the laboratory test using a reversed ROC method. Normally, ROC analysis could be used to select a cutoff for a quantitative test versus a qualitative (positive or negative) reference. In this study, however, the laboratory test was used as the quantitative test and the test in question, the POC test, as the qualitative reference. The estimation of the cutoff could thus be performed to provide the best agreement with the laboratory test ImmunoCAP Specific IgE. Many individuals may have detectable IgE antibodies without having any symptoms at the given moment. This is seen in both small children [25] and adults [26] who become sensitized before symptoms evolve. Furthermore, in food allergy, probability curves have been developed to find a better association between clinical reactivity and IgE antibody levels higher than the generally accepted cutoff level of 0.35 kUA/L [27-30]. Similarly, in respiratory allergy, elevated IgE antibody levels have been shown to be more closely associated with current symptoms [10,14,18,19] and decreased lung function [18] than lower IgE antibody levels. This pattern is also accentuated in determining the risk for acute asthma exacerbations [14]. After this, one can speculate that the use of a test with a higher cutoff will probably identify patients with a higher likelihood of allergy problems and could therefore be appropriate as a first-line diagnostic tool, especially if used in settings with patients presenting with a lower prevalence of allergy. Furthermore, it can be seen in the literature that different authors choose cutoffs above 0.35 kUA/L in their clinical practical use of IgE antibody testing [31].

There was a concern that patients seen by a specialist are generally more heavily sensitized with higher IgE antibody levels than patients seen by primary care physicians. This may lower the usefulness of a less sensitive test such as the POC test compared with the regular laboratory test. However, with re-analysis of previously published data from primary care in Italy and Spain [9] and in allergist clinics in Italy, Germany, The Netherlands, and England,[32] we were able to confirm that this was not the case (unpublished results).

Conclusions

In conclusion, this study revealed that this POC test for IgE antibodies has a high capability of identifying patients with allergic etiology for their symptoms, despite somewhat higher cutoffs for the different allergens employed than those currently used in laboratory tests.

References

  1. Global Initiative for Asthma (GINA): Global Strategy for Asthma Management and Prevention. Bethesda, MD: National Institutes of Health (NIH), National Heart, Lung, and Blood Institute; 1995.

    NHLBI/WHO Workshop Report. NIH Publication No. 95-3650

    OpenURL

  2. Platts-Mills TA, Erwin E, Heymann P, Woodfolk J: Is the hygiene hypothesis still a viable explanation for the increased prevalence of asthma?

    Allergy 2005, 60(suppl 79):25-31. PubMed Abstract | Publisher Full Text OpenURL

  3. Ring J: Allergy is a global problem.

    World Allergy Org J 2008, 1:3. Publisher Full Text OpenURL

  4. Ahlstedt S: Understanding the usefulness of specific IgE blood tests in allergy.

    Clin Exp Allergy 2002, 32:11-16. PubMed Abstract | Publisher Full Text OpenURL

  5. Kurukulaaratchy RJ, Matthews S, Arshad SH: Defining childhood atopic phenotypes to investigate the association of atopic sensitization with allergic disease.

    Allergy 2005, 60:1280-1286. PubMed Abstract | Publisher Full Text OpenURL

  6. Settipane RA: Demographics and epidemiology of allergic and nonallergic rhinitis.

    Allergy Asthma Proc 2001, 22:185-189. PubMed Abstract | Publisher Full Text OpenURL

  7. Ad Hoc Committee of the Practice, Diagnostics and Therapeutics Committee, Cohn JR, Bahna SL, Wallace DV, Goldstein S, Hamilton RG: AAAAI Work Group Report: Allergy Diagnosis in Clinical Practice. [http:/ / www.aaaai.org/ members/ academy_statements/ practice_papers/ allergy_diagnosis.pdf] webcite

    2006.

    Accessed January 21, 2007

  8. Crobach MJ, Hermans J, Kaptein AA, Ridderikhoff J, Petri H, Mulder JD: The diagnosis of allergic rhinitis: How to combine the medical history with the results of radioallergosorbent tests and skin prick tests.

    Scand J Prim Health Care 1998, 16:30-36. PubMed Abstract | Publisher Full Text OpenURL

  9. Duran-Tauleria E, Vignati G, Guedan MJ, Petersson CJ: The utility of specific immunoglobulin E measurements in primary care.

    Allergy 2004, 59(suppl 78):35-41. PubMed Abstract | Publisher Full Text OpenURL

  10. Williams PB, Ahlstedt S, Barnes JH, Söderström L, Portnoy J: Are our impressions of allergy test performances correct?

    Ann Allergy Asthma Immunol 2003, 91:26-33. PubMed Abstract | Publisher Full Text OpenURL

  11. Wood RA: The diagnosis of allergy: Why is it so difficult?

    Ann Allergy Asthma Immunol 2003, 91:1-2. PubMed Abstract | Publisher Full Text OpenURL

  12. Gendo K, Larson EB: Evidence-based diagnostic strategies for evaluating suspected allergic rhinitis.

    Ann Intern Med 2004, 140:278-289. PubMed Abstract | Publisher Full Text OpenURL

  13. Greiner AN, Meltzer EO: Pharmacologic rationale for treating allergic and nonallergic rhinitis.

    J Allergy Clin Immunol 2006, 118:985-998. PubMed Abstract | Publisher Full Text OpenURL

  14. Ahlstedt S, Murray CS: In vitro diagnosis of allergy: How to interpret IgE antibody results in clinical practice.

    Prim Care Respir J 2006, 15:228-236. PubMed Abstract | Publisher Full Text OpenURL

  15. Sunyer J, Jarvis D, Pekkanen J, Chinn S, Janson C, et al.: Geographic variations in the effect of atopy on asthma in the European Community Respiratory Health Study.

    J Allergy Clin Immunol 2004, 114:1033-1039. PubMed Abstract | Publisher Full Text OpenURL

  16. Illi S, von Mutius E, Lau S, Niggemann B, Grüber C, Wahn U, Multicentre Allergy Study (MAS) Group: Perennial allergen sensitisation early in life and chronic asthma in children: A birth cohort study.

    Lancet 2006, 368:763-770. PubMed Abstract | Publisher Full Text OpenURL

  17. Kulig M, Bergmann R, Tacke U, Wahn U, Guggenmoos-Holzmann I: Long-lasting sensitization to food during the first two years precedes allergic airway disease. The MAS Study Group, Germany.

    Pediatr Allergy Immunol 1998, 9:61-67. PubMed Abstract | Publisher Full Text OpenURL

  18. Simpson A, Soderstrom L, Ahlstedt S, Murray CS, Woodcock A, Custovic A: IgE antibody quantification and the probability of wheeze in preschool children.

    J Allergy Clin Immunol 2005, 116:744-749. PubMed Abstract | Publisher Full Text OpenURL

  19. Wickman M, Lilja G, Söderström L, van Hage-Hamsten M, Ahlstedt S: Quantitative analysis of IgE antibodies to food and inhalant allergens in 4-year-old children reflects their likelihood of allergic disease.

    Allergy 2005, 60(5):650-657.

    [published correction appears in Allergy. 2005 Nov;60(11):1458. Note: van Hage-Hamsten, M corrected to van Hage-Hamsten M]

    PubMed Abstract | Publisher Full Text OpenURL

  20. Diaz-Vazquez C, Torregrosa-Bertet MJ, Carvajal-Urueña I, Cano A, Fos-Escriva E, et al.: Accuracy of ImmunoCAP Rapid in the diagnosis of allergic sensitization in children between 1 and 14 years with recurrent wheezing. The IReNE Study.

    Pediatr Allergy Immunol, in press.

    DOI: 10.1111/j.1399-3038.2008.00827.x

    OpenURL

  21. Eigenmann P, Kuenzli M, D'Apuzzo V, Kehrt R, Joerg W, et al.: The ImmunoCAP Rapid Wheeze/Rhinitis Child test is useful in the initial allergy diagnosis of children with respiratory symptoms.

    Pediatr Allergy Immunol, in press.

    DOI: 10.1111/j.1399-3038.2009.00866.x

    OpenURL

  22. ImmunoCAP Rapid [http://www.immunocaprapid.com] webcite

    Accessed April 21, 2008

  23. Zweig MH, Campbell G: Receiver-operating characteristic (ROC) plots: A fundamental evaluation tool in clinical medicine.

    Clin Chem 1993, 39:561-577. PubMed Abstract | Publisher Full Text OpenURL

  24. Yman L: Standardization of in vitro methods.

    Allergy 2001, 56(suppl 67):70-74. PubMed Abstract | Publisher Full Text OpenURL

  25. Govaere E, Van Gysel D, Verhamme K, Doli E, De Baets F: The association of allergic symptoms with sensitization to inhalant allergens in childhood.

    Pediatr Allergy Immunol, in press.

    DOI: 10.1111/j.1399-3038.2008.00805.x

    OpenURL

  26. Litonjua AA, Sparrow D, Weiss ST, O'Connor GT, Long AA, Ohman JL Jr: Sensitization to cat allergen is associated with asthma in older men and predicts new-onset airway hyperresponsiveness. The Normative Aging Study.

    Am J Respir Crit Care Med 1997, 156(1):23-27. PubMed Abstract | Publisher Full Text OpenURL

  27. Boyano Martínez T, García-Ara C, Díaz-Pena JM, Muñoz FM, García Sánchez G, Esteban MM: Validity of specific IgE antibodies in children with egg allergy.

    Clin Exp Allergy 2001, 31:1464-1469. PubMed Abstract | Publisher Full Text OpenURL

  28. García-Ara C, Boyano-Martínez T, Díaz-Pena JM, Martín-Muñoz F, Reche-Frutos M, Martín-Esteban M: Specific IgE levels in the diagnosis of immediate hypersensitivity to cows' milk protein in the infant.

    J Allergy Clin Immunol 2001, 107:185-190. PubMed Abstract | Publisher Full Text OpenURL

  29. Roberts G, Lack G: Diagnosing peanut allergy with skin prick and specific IgE testing.

    J Allergy Clin Immunol 2005, 115:1291-1296. PubMed Abstract | Publisher Full Text OpenURL

  30. Sampson HA: Utility of food-specific IgE concentrations in predicting symptomatic food allergy.

    J Allergy Clin Immunol 2001, 107:891-896. PubMed Abstract | Publisher Full Text OpenURL

  31. Høst A, Andrae S, Charkin S, Diaz-Vázquez C, Dreborg S, et al.: Allergy testing in children: Why, who, when and how?

    Allergy 2003, 58:559-569. PubMed Abstract | Publisher Full Text OpenURL

  32. Söderström L, Kober A, Ahlstedt S, de Groot H, Lange CE, et al.: A further evaluation of the clinical use of specific IgE antibody testing in allergic diseases.

    Allergy 2003, 58:921-928. PubMed Abstract | Publisher Full Text OpenURL