BACKGROUND: An investigation was performed in order to establish if dried blood spots (DBS) could be applied to the quantitation of biopharmaceuticals in biological matrices and perform equivalently in terms of accuracy, precision and stability to traditional plasma methods. RESULTS: A method was successfully validated for the peptide Exendin-4 (39 amino acids in length) utilizing DBS technology. The validated DBS method resulted in a more sensitive and simplistic method than an existing monkey plasma method and required tenfold less sample volume. The final DBS method resulted in a 10-2000-ng/ml linear calibration range using approximately 5 µl of dried blood, compared with the plasma method in which 150 µl of plasma coupled with SPE sample preparation resulted in a 20-2000-ng/ml linear calibration range. Although not needed for DBS, SPE was required for the plasma method to reduce endogenous matrix interferences and achieve desired LLOQ. Matrix stability was also enhanced by the implementation of the DBS platform when compared with either plasma or whole blood. CONCLUSION: DBS technology can be utilized for the quantitation of biopharmaceuticals and offer advantages over traditional plasma-based methods.
BACKGROUND: An investigation was performed in order to establish if dried blood spots (DBS) could be applied to the quantitation of biopharmaceuticals in biological matrices and perform equivalently in terms of accuracy, precision and stability to traditional plasma methods. RESULTS: A method was successfully validated for the peptide Exendin-4 (39 amino acids in length) utilizing DBS technology. The validated DBS method resulted in a more sensitive and simplistic method than an existing monkey plasma method and required tenfold less sample volume. The final DBS method resulted in a 10-2000-ng/ml linear calibration range using approximately 5 µl of dried blood, compared with the plasma method in which 150 µl of plasma coupled with SPE sample preparation resulted in a 20-2000-ng/ml linear calibration range. Although not needed for DBS, SPE was required for the plasma method to reduce endogenous matrix interferences and achieve desired LLOQ. Matrix stability was also enhanced by the implementation of the DBS platform when compared with either plasma or whole blood. CONCLUSION:DBS technology can be utilized for the quantitation of biopharmaceuticals and offer advantages over traditional plasma-based methods.
Authors: Christopher Evans; Mark Arnold; Peter Bryan; Jeffrey Duggan; Christopher A James; Wenkui Li; Steve Lowes; Luca Matassa; Timothy Olah; Philip Timmerman; Xiaomin Wang; Enaksha Wickremsinhe; John Williams; Eric Woolf; Patricia Zane Journal: AAPS J Date: 2014-12-09 Impact factor: 4.009
Authors: Maria Lasaosa; Puja Patel; Stephanie Givler; Diva D De León; Steven H Seeholzer Journal: J Chromatogr B Analyt Technol Biomed Life Sci Date: 2013-12-16 Impact factor: 3.205