Abstract
In vitro high-throughput non-depletive quantitation of chemicals in biofluids is of growing interest in many areas. Some of the challenges facing researchers include the limited volume of biofluids, rapid and high-throughput sampling requirements, and the lack of reliable methods. Coupled to the above, growing interest in the monitoring of kinetics and dynamics of miniaturized biosystems has spurred the demand for development of novel and revolutionary methodologies for analysis of biofluids. The applicability of solid-phase microextraction (SPME) is investigated as a potential technology to fulfill the aforementioned requirements. As analytes with sufficient diversity in their physicochemical features, nicotine, N,N-Diethyl-meta-toluamide, and diclofenac were selected as test compounds for the study. The objective was to develop methodologies that would allow repeated non-depletive sampling from 96-well plates, using 100 µL of sample. Initially, thin film-SPME was investigated. Results revealed substantial depletion and consequent disruption in the system. Therefore, new ultra-thin coated fibers were developed. The applicability of this device to the described sampling scenario was tested by determining the protein binding of the analytes. Results showed good agreement with rapid equilibrium dialysis. The presented method allows high-throughput analysis using small volumes, enabling fast reliable free and total concentration determinations without disruption of system equilibrium.
Highlights
In vitro high-throughput non-depletive quantitation of chemicals in biofluids is of growing interest in many areas
The length of the thin film coated on TF-solid-phase microextraction (SPME) blades was adjusted from its typical length of 20 mm to 1 mm (Fig. 1) so as to ensure that the coating would be fully immersed in 100 μL of sample
A high-throughput, non-depletive SPME-based method was developed for time-course determinations of free and total concentrations of a range of analytes in small sample volumes
Summary
In vitro high-throughput non-depletive quantitation of chemicals in biofluids is of growing interest in many areas. Two configurations of solid-phase microextraction, namely thin film coated blades and fibers, were evaluated with regards to their applicability to address all of the aforementioned criteria while providing fast, high-throughput, non-depletive, and simultaneous determination of free and total concentrations of various drugs in biological matrices. To this end, TF-SPME blades and SPME fibers with short coating lengths and various chemistries were prepared and tested for their applicability in a small sample volume (one hundred microlitres) context. Likewise, coating chemistries were characterized and evaluated with regards to their suitability for determination of time-course concentrations of compounds of different physicochemical properties in typical 96-well plate in vitro assay test systems
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