1. K-State home
  2. »College of Veterinary Medicine
  3. »Education
  4. »Anatomy and Physiology
  5. »Faculty and Staff
  6. »Faculty
  7. »Zhoumeng Lin
  8. »Lin Research Group
  9. »PBPK Textbook

College of Veterinary Medicine

Anatomy & Physiology
College of Veterinary Medicine
Kansas State University

1620 Denison Avenue
228 Coles Hall
Manhattan, KS 66506-5802

Phone: 785-532-5666
Fax: 785-532-4557

AP@vet.k-state.edu

PBPK Textbook

Physiologically Based Pharmacokinetic (PBPK) Modeling: Methods and Applications in Toxicology and Risk Assessment, 1st Edition

Editors: Jeffrey W. Fisher, Jeffrey M. Gearhart, and Zhoumeng Lin 

Published Date: 1st August, 2020
Publisher: Elsevier
Page count: 348

Order at: https://www.elsevier.com/books/physiologically-based-pharmacokinetic-pbpk-modeling/fisher/978-0-12-818596-4
Supplementary Materials: https://www.elsevier.com/books-and-journals/book-companion/9780128185964

  • PBPK TextbookForeword: Melvin E. Andersen
  • Preface: Jeffrey W. Fisher, Zhoumeng Lin, Jeffery M. Gearhart
  • Chapter 1: Zhoumeng Lin, Jeffrey W. Fisher. A history and recent efforts of selected physiologically based pharmacokinetic modeling topics
  • Chapter 2: Shruti V. Kabadi, Zhoumeng Lin. Introduction to classical pharmacokinetics
  • Chapter 3: Jeffrey W. Fisher, Xiaoxia Yang, Darshan Mehta, Conrad Housand, Zhoumeng Lin. Fundamentals of physiologically based pharmacokinetic modeling
  • Chapter 4: CE Hack, AY Efremenko, SN Pendse, CA Ellison, A Najjar, N Hewitt, A Schepky, HJ Clewell III. Physiologically based pharmacokinetic modeling software 
  • Chapter 5: Jeffrey W. Fisher, Jeffery M. Gearhart, Jerry L. Campbell, Jr, Darshan Mehta. Chemical absorption and writing code for portals of entry
  • Chapter 6: Christopher Ruark. Physiologically based pharmacokinetic model: distribution processes
  • Chapter 7: Jeffrey W. Fisher, Jerry L. Campbell, Jr, Zhoumeng Lin. Metabolism and physiologically based pharmacokinetic models
  • Chapter 8: Sami Haddad, Andy Nong. Physiologically based pharmacokinetic model: excretion via urine, feces, and breath
  • Chapter 9: Tammie R. Covington, Jeffery M. Gearhart. Sensitivity and Monte Carlo analysis techniques and their use in uncertainty, variability, and population analysis
  • Chapter 10: Zhoumeng Lin, Yi-Hsien Cheng, Wei-Chun Chou, Miao Li. Physiologically based pharmacokinetic model calibration, evaluation, and performance assessment
  • Chapter 11: Lisa M. Sweeney, Jeffery M. Gearhart. Examples of physiologically based pharmacokinetic modeling applied to risk assessment
  • Chapter 12: Miyoung Yoon. Physiologically based pharmacokinetic models to support modernized chemical safety assessment