Background: Non-standard body fluids (NSBFs) can provide essential clinical information otherwise unobtainable with conventional biological specimens. However, as most commercial chemistry reagents are only validated for serum, plasma, and urine by manufacturers, individual laboratories have to validate testing with NSBF to comply with regulatory standards. However, the heightened level of oversight and uncertainty of validation requirements to comply with regulatory standards pose a significant challenge for NSBF testing in clinical laboratories.
Methods: 28 combinations of high-volume chemistry tests requested on NSBF with established clinical utility were selected from retrospective data analysis. Specimens were analyzed with both closed and open channel chemistry reagents on a LABOSPECT 008AS platform (Hitachi High-Tech Co., Tokyo, Japan). Recovery studies were performed using a high concentration serum sample and 5 clinical NSBF samples at varying concentrations for each analyte. Acceptable performance limits were defined as 100 ± 10% of expected recovery.
Results: The average percent recovery ranged from 94.5% to 106.6% depending on the analyte/NSBF combination evaluated, and for each of the 28 combinations, the average percent recovery was within the predefined acceptable limits of ± 10%.
Conclusions: The recovery results from this study on the LABOSPECT 008AS platform demonstrates that any systematic matrix interference of high-volume chemistry testing on NSBF samples is well within the defined limits of acceptability. This work also demonstrates recovery studies performed by an individual laboratory are practial and it is feasible to demonstrate compliance with regulatory requirements for accuracy of chemistry testing on NSBF samples.
Keywords: Body fluid; Clinical chemistry testing; Hitachi LABOSPECT 008AS; Matrix interference; Spiking.
Copyright © 2021 The Canadian Society of Clinical Chemists. Published by Elsevier Inc. All rights reserved.