Evaluation of microparticle enzyme immunoassay against HPLC-mass spectrometry for the determination of whole-blood tacrolimus in heart- and lung-transplant recipients

Citation
P. Salm et al., Evaluation of microparticle enzyme immunoassay against HPLC-mass spectrometry for the determination of whole-blood tacrolimus in heart- and lung-transplant recipients, CLIN BIOCH, 33(7), 2000, pp. 557-562
Citations number
23
Categorie Soggetti
Medical Research Diagnosis & Treatment
Journal title
CLINICAL BIOCHEMISTRY
ISSN journal
00099120 → ACNP
Volume
33
Issue
7
Year of publication
2000
Pages
557 - 562
Database
ISI
SICI code
0009-9120(200010)33:7<557:EOMEIA>2.0.ZU;2-G
Abstract
Objectives: Tacrolimus is an immunosuppressant drug with a narrow therapeut ic window and thus requires therapeutic drug monitoring. This study evaluat es the suitability of the second-generation microparticle enzyme immunoassa y (MEIA II) against a specific method, high-performance liquid chromatograp hy-tandem mass spectrometry (HPLC-MS), for the measurement of tacrolimus in both heart- and lung-transplant groups. A secondary objective was to inves tigate the effect of tacrolimus concentration on MEIA II measurement. Methods: The HPLC-MS assay was conducted as per our reported method and MEI A II performed according to manufacturer's instructions. Quality-control sa mples at 5, 11, and 22 mug/L were run in each batch to ensure assay integri ty in both methods. Multiple trough samples from 18 heart patients (n = 126 ) and 17 lung patients (n = 203) were analyzed. Results: The inter-batch imprecision and analytical recovery over the quali ty-control range by HPLC-MS (n = 12) was <6% and 98.2% to 104%, respectivel y, and by MEIA II (n = 16) <15% and 92.0% to 99.1%, respectively. The mean overestimation by MEIA II between the two methods for heart- and lung-trans plant patient samples was found to be 9.9% (range: -37.4-45.4%) and 13.2% ( range: -29.2-64.3%), respectively. Stratification of these data based on th e tacrolimus concentration determined by MEIA II, yielded no statistically significant differences in bias between concentration subgroups within the clinically relevant range (p > 0.4). However, a statistically significant d ifference was detected between the highest concentration subgroup (>20.0 mu g/L) and lower concentration subgroups in both transplant populations (p < 0.05). Conclusions: This study suggests that where HPLC-MS is not available, MEIA II may be suitable for the therapeutic drug monitoring of tacrolimus in hea rt- and lung-transplant recipients. However, the clinical importance of the observed mean bias, considering the wide range in overestimation in heart- and lung-transplant patient samples, is yet to be determined. Copyright (C ) 2000 The Canadian Society of Clinical Chemists.