BACKGROUND: Effective bioanalytical support for pharmacokinetic assessment of therapeutics in early development remains challenging. Concurrent evaluation of multiple candidates per program is typical, requiring efficient characterization in various preclinical species; an ambitious effort often complicated by assay reagent unavailability and limited sample volume. Accordingly, a universal anti-human Fc assay for human monoclonal antibody and derived therapeutics was developed using a microfluidics platform to address these bioanalytical challenges. RESULTS: The universal assay with standardized format was qualified for quantitation of human IgG Fc-containing biotherapeutics in matrices from commonly used preclinical species. Results from this assay compared well with those from traditional colorimetric immunoassays. Furthermore, result comparison between the universal and target-specific assays provided additional information on the effect of antidrug antibodies and in vivo drug catabolism. CONCLUSION: This assay has wide applicability as a default bioanalytical approach in therapeutic candidate selection and preliminary pharmacokinetics evaluation during early-stage therapeutic development.
BACKGROUND: Effective bioanalytical support for pharmacokinetic assessment of therapeutics in early development remains challenging. Concurrent evaluation of multiple candidates per program is typical, requiring efficient characterization in various preclinical species; an ambitious effort often complicated by assay reagent unavailability and limited sample volume. Accordingly, a universal anti-human Fc assay for human monoclonal antibody and derived therapeutics was developed using a microfluidics platform to address these bioanalytical challenges. RESULTS: The universal assay with standardized format was qualified for quantitation of human IgG Fc-containing biotherapeutics in matrices from commonly used preclinical species. Results from this assay compared well with those from traditional colorimetric immunoassays. Furthermore, result comparison between the universal and target-specific assays provided additional information on the effect of antidrug antibodies and in vivo drug catabolism. CONCLUSION: This assay has wide applicability as a default bioanalytical approach in therapeutic candidate selection and preliminary pharmacokinetics evaluation during early-stage therapeutic development.
Authors: Xiangdan Wang; Valerie Quarmby; Carl Ng; Anan Chuntharapai; Theresa Shek; Charles Eigenbrot; Robert F Kelley; Steven Shia; Krista McCutcheon; John Lowe; Cecilia Leddy; Kyle Coachman; Gary Cain; Felix Chu; Isidro Hotzel; Mauricio Maia; Eric Wakshull; Jihong Yang Journal: MAbs Date: 2013-04-29 Impact factor: 5.857
Authors: Tracey H Clark; Phillip D Yates; Allison Given Chunyk; Alison P Joyce; Aidong Wu; Petar Pop-Damkov; Yiqun Zhang; Elizabeth A Dreher; Laurie A Tylaska; Jo-Ann A Wentland; Kathleen B Pelletier; Lindsay E King; Chad A Ray Journal: AAPS J Date: 2016-07-11 Impact factor: 4.009