TY - JOUR
T1 - Allergen-specific IgE measured by a continuous random-access immunoanalyzer
T2 - Interassay comparison and agreement with skin testing
AU - Ollert, Markus
AU - Weissenbacher, Stephanie
AU - Rakoski, Jürgen
AU - Ring, Johannes
PY - 2005
Y1 - 2005
N2 - Background: Our aims were to evaluate the performance of a fully automated system for measuring circulating allergen-specific IgE (sIgE) against an established in vitro assay and to assess the system's diagnostic accuracy against objective clinical criteria for identifying sensitization to specific allergens. Methods: Using both the IMMULITE® 2000 Allergy system (IML) and an assay based on the widely used ImmunoCAP® technology (CAP), we measured sIgE in serum samples from 169 persons with suspected allergies to airborne or insect venom allergens. Skin testing outcome served as the clinical comparison method. Results: Interassay classification agreement between the IML and CAP, relative to the usual allergen-specific IgE cutoff of 0.35 kIU/L, ranged from 76% (yellow jacket venom) to 95% (orchard grass); agreement was 88.3% for all 9 allergens combined (766 results). The 90 discordant results, when resolved by skin testing, showed better agreement with the IML (72%) than with the CAP (28%). Compared with skin testing, for each of the 9 allergens studied, the area under the ROC curve was at least as large for the IML as for the CAP, reflecting in part the more extensive working range of the IML (0.10-100 kIU/L vs 0.35-100 kIU/L for CAP). Conclusion: Laboratory testing for slgE can be performed on a fully automated, random-access system with an extended working range and with diagnostic accuracy for representative allergens equivalent to or better than that of the semiautomated CAP technology.
AB - Background: Our aims were to evaluate the performance of a fully automated system for measuring circulating allergen-specific IgE (sIgE) against an established in vitro assay and to assess the system's diagnostic accuracy against objective clinical criteria for identifying sensitization to specific allergens. Methods: Using both the IMMULITE® 2000 Allergy system (IML) and an assay based on the widely used ImmunoCAP® technology (CAP), we measured sIgE in serum samples from 169 persons with suspected allergies to airborne or insect venom allergens. Skin testing outcome served as the clinical comparison method. Results: Interassay classification agreement between the IML and CAP, relative to the usual allergen-specific IgE cutoff of 0.35 kIU/L, ranged from 76% (yellow jacket venom) to 95% (orchard grass); agreement was 88.3% for all 9 allergens combined (766 results). The 90 discordant results, when resolved by skin testing, showed better agreement with the IML (72%) than with the CAP (28%). Compared with skin testing, for each of the 9 allergens studied, the area under the ROC curve was at least as large for the IML as for the CAP, reflecting in part the more extensive working range of the IML (0.10-100 kIU/L vs 0.35-100 kIU/L for CAP). Conclusion: Laboratory testing for slgE can be performed on a fully automated, random-access system with an extended working range and with diagnostic accuracy for representative allergens equivalent to or better than that of the semiautomated CAP technology.
UR - http://www.scopus.com/inward/record.url?scp=23444436558&partnerID=8YFLogxK
U2 - 10.1373/clinchem.2004.046565
DO - 10.1373/clinchem.2004.046565
M3 - Article
C2 - 15905313
AN - SCOPUS:23444436558
SN - 0009-9147
VL - 51
SP - 1241
EP - 1249
JO - Clinical Chemistry
JF - Clinical Chemistry
IS - 7
ER -