UC San Diego

Background

The VALID Act is a legislative effort that, if enacted, would alter the regulatory requirements of laboratory developed tests (LDTs) used for clinical testing in the United States. Benzodiazepines, which are primarily excreted into urine as glucuronidated metabolites such as lorazepam, cross-react poorly with FDA-cleared immunoassays, leading to false-negatives. This shortfall can be addressed with LDTs created by adding glucuronidase to the immunoassay reagents producing "high sensitivity" assays that detect glucuronidated metabolites.

Methods

Precision and stability of two high-sensitivity (HS) benzodiazepine immunoassays from Roche and Thermo Scientific were evaluated using manufacturer-supplied quality control (QC) material and glucuronidated QC material. The immunoassays were directly compared to an LC-MS/MS LDT benzodiazepine assay to determine clinical sensitivity/specificity using urine specimens (n = 82 for Thermo Scientific; n = 265 for Roche). The clinical impact of the HS LDT immunoassay was determined by analyzing clinical testing results 60 days before and after its implementation.

Results

The precision and clinical sensitivity/specificity of the HS-Thermo Scientific and HS-Roche benzodiazepine assays were acceptable. The reagent stability of the HS-Thermo Scientific immunoassay was poor, whereas the HS-Roche immunoassay was stable. After implementation of the HS-Roche benzodiazepine immunoassay as an LDT, there was a 30-fold increase (p-value: < 0.00001) in the percentage of lorazepam confirmations.

Conclusions

We demonstrate the development and validation of an immunoassay LDT with improved sensitivity for glucuronidated benzodiazepines. This LDT can detect glucuronidated benzodiazepines in clinical urine specimens and is stable for 60 days. Importantly, we were able to validate the immunoassay as an LDT by utilizing an LC-MS/MS LDT.