Abstract Background Phenytoin is an anti-convulsant drug that is commonly prescribed to epileptic patients to control seizures. The drug circulates in two forms: protein-bound (90%), and the free, biologically active form (10%). In certain circumstances, such as protein-binding disruption, hypoalbuminemia, and drug-drug interactions, the total phenytoin serum concentration may not accurately reflect active phenytoin levels. Therefore, a free phenytoin level (i.e. non-protein bound) may be indicated. Until recent FDA-clearance, we utilized an in-house, laboratory-development test (LDT) to deliver these needed results. The purpose of this study was to validate the FDA-cleared assay and compare its performance characteristics to a free phenytoin LDT. Methods Validation of the FDA-cleared assay was performed on an automated chemistry analyzer (Roche Diagnostics, cobas c502), utilizing a kinetic interaction of microparticles in a solution (KIMS) method. Both the FDA and LDT assay used the same free phenytoin reagent, however the calibrators and pipetting parameters for each assay were different. FDA assay used a six-point calibration at concentrations of: 0, 2.5, 5, 10, 20, 40 µg/mL (Preciset TDM I Calibrators), whereas the LDT assay used a six-point calibration at concentrations of: 0.0, 0.5, 1.0, 2.0, 3.0, 4.0 µg/mL (cobas FP Free Phenytoin Calibrators). The following performance characteristics were determined for the FDA-cleared assay and compared to the current LDT: analytical measurement range, precision, accuracy, and maximum dilution. Free forms of the drug were obtained as a filtrate through centrifugation using a molecular weight cut-off filter (30 kDa, Millipore), spun at 3600 rpm for twenty minutes. Results Conclusions The FDA-cleared free phenytoin assay is suitable for use in the clinical laboratory producing similar results to our LDT. Switching to the FDA-cleared assay reduces the regulatory burden and eliminates the need for transferring reagent into open channel cassettes and manual dilutions.
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