An efficient approach for the rapid assessment of oral rat exposures for new chemical entities in drug discovery.

Present study aims to improve efficiency and capacity of in vivo rat pharmacokinetic studies for rapid assessment of systemic exposure (AUC and C(max)) of new chemical entities. Plasma concentration-time profiles in rats from structurally diverse compounds were extracted from the Pfizer database. AUC(0-8) was calculated with 7 data points or a reduced subset of 3 data points. AUC values determined with 7 data points were compared to subset AUC values. A < or = 30% difference in values for 90% of cases was acceptance criteria. In parallel, samples were analyzed individually and pooled at each time point across compounds. For 96% of cases, AUC values estimated using 1, 4, and 8 h were comparable to AUC values obtained from 7 data points suggesting 1, 4, and 8 h sampling should be sufficient to estimate AUC. For C(max), the difference between 1, 4, and 8 h data-point analysis versus 7 data-point analysis is less than 30% for 72% of cases. Concentrations from individual versus pooled sample analysis were found to be equivalent. A rapid rat PK screening paradigm was created by the combination of 1, 4, and 8 h sampling and pooled sample analysis, which improves throughput and cycle time of in vivo PK studies.

[1]  J. Broach,et al.  High-throughput screening for drug discovery. , 1996, Nature.

[2]  Kjell Johnson,et al.  Integrated oral bioavailability projection using in vitro screening data as a selection tool in drug discovery. , 2004, International journal of pharmaceutics.

[3]  C. Hop,et al.  Plasma-pooling methods to increase throughput for in vivo pharmacokinetic screening. , 1998, Journal of pharmaceutical sciences.

[4]  Patrick Poulin,et al.  Utility of physiologically based pharmacokinetic models to drug development and rational drug discovery candidate selection. , 2003, Toxicology letters.

[5]  J. Broach,et al.  New assay technologies for high-throughput screening. , 1998, Current opinion in chemical biology.

[6]  D S Wright,et al.  Sample pooling to expedite bioanalysis and pharmacokinetic research. , 1998, Journal of pharmaceutical and biomedical analysis.

[7]  Thierry Lavé,et al.  Prediction of intestinal absorption: comparative assessment of GASTROPLUS and IDEA. , 2002, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[8]  L. Lin,et al.  Total deviation index for measuring individual agreement with applications in laboratory performance and bioequivalence. , 2000, Statistics in medicine.

[9]  H. van de Waterbeemd,et al.  Property-based design: optimization of drug absorption and pharmacokinetics. , 2001, Journal of medicinal chemistry.

[10]  R. E. White,et al.  High-throughput screening in drug metabolism and pharmacokinetic support of drug discovery. , 2000, Annual review of pharmacology and toxicology.

[11]  R E White,et al.  Pharmacokinetic theory of cassette dosing in drug discovery screening. , 2001, Drug metabolism and disposition: the biological fate of chemicals.

[12]  The search for orally active medications through combinatorial chemistry , 1998, Medicinal research reviews.

[13]  G Mannens,et al.  Strategies for absorption screening in drug discovery and development. , 2001, Current topics in medicinal chemistry.

[14]  John Hodgson,et al.  ADMET—turning chemicals into drugs , 2001, Nature Biotechnology.

[15]  D. Christ,et al.  Cassette dosing pharmacokinetics: valuable tool or flawed science? , 2001, Drug metabolism and disposition: the biological fate of chemicals.

[16]  Walter A. Korfmacher,et al.  Cassette-accelerated rapid rat screen: a systematic procedure for the dosing and liquid chromatography/atmospheric pressure ionization tandem mass spectrometric analysis of new chemical entities as part of new drug discovery. , 2001, Rapid communications in mass spectrometry : RCM.

[17]  Walter A. Korfmacher,et al.  Novel in vivo procedure for rapid pharmacokinetic screening of discovery compounds in rats , 1999 .