Microfluidic Cell Culture Systems. Edition No. 2. Micro and Nano Technologies

Table of Contents

Part 1: Introduction 1. Microfluidic Cell Culture Technologies 2. Inertial microfluidics for stem cell isolation 3. Microfluidic Structures for Controlling Stem Cell Microenvironments 4. Microfluidic cell culture platforms with embedded nanoscale features 5. Microfluidic Vascular Networks for Engineered Tissues 6. Direct Write Assembly of Organ Models 7. 3D Bioprinting for Organ Models

Part II: Organ-Specific Disease and Drug Safety Models 8. Microfabricated Kidney Tissue Models 9. Microfluidic Hepatotoxicity Platform 10. Dynamic Gastrointestinal and Pulmonary Organ Models 11. Cardiac Models 12. Neural Tissue Microphysiological Systems 13. Models of the Female Reproductive Tract 14. Microscale Models of Inflammatory Diseases 15. Blood-Retinal Barrier-on-a -chip 16. Human blinking eye-on-a chip 17. Circulating tumor cell cultures for evaluation of anticancer treatment

Part III: Technologies for Sensing, Multiplexed and Interconnected Organ Models 18. Live Cell Analysis Under Shear Flow 19. High Throughput Flow Systems for Cardiovascular Research 20. Phaseguide technology for connected organ models 21. Electromagnetically microactuated platforms for dynamic microphysiological systems 22. Interconnected organ models for skin and liver 23. Heart-Liver-Vascular Interconnected Microphysiological Systems 24. Rocking Platform Technology for Interconnected Organ Models

Authors

Jeffrey T Borenstein Laboratory Technical Staff, Draper, Massachusetts, USA. Jeffrey T. Borenstein is Laboratory Technical Staff at the Charles Stark Draper Laboratory in Cambridge, Massachusetts, USA. Dr. Borenstein is a Technical Director for several of Draper's programs in artificial organs, tissue engineering and implantable devices. His expertise is in MEMS fabrication technology, biological microsystems and the development of microdevices for therapeutic clinical applications. Dr. Borenstein currently serves as Principal Investigator for projects involving the application of microsystems technology towards engineered tissue constructs for organ assist devices and drug discovery, as well as implantable drug delivery systems for hearing loss and other diseases. These programs are funded by the Department of Defense, the National Institutes of Health and several commercial sponsors. Vishal Tandon Senior Member of Technical Staff, Biomedical Engineering Center, Draper, Massachusetts, USA. Vishal Tandon is a Research Fellow at the Biomedical Engineering Center, Draper University, USA. His research focuses on the design and testing of implantable microfluidic devices for drug delivery into the ear. Sarah L Tao Biologics Research, Sanofi, Massachusetts, USA. Sarah Tao is Senior Manager, New Technologies at CooperVision, Inc. She was previously Senior Member Technical Staff, MEMS Design Group at Draper University, and Research Professor Equivalent, Bioengineering and Therapeutic Sciences at the University of California, San Francisco, USA. Her research interests lie in the areas of biomaterials, nanotechnology, regenerative medicine, drug delivery, BioMEMS, microfluidics and cell culture. Joseph L. Charest Biomedical Solutions Program Manager, Draper, Massachusetts, USA. Dr. Charest is director of in vitro model and organ-assist work at Draper Laboratory. The work of his teams leverages micro- and nano-fabrication along with advanced machining techniques to create systems which recapitulate native tissue and organ architecture, morphology, and function in vitro. The systems span applications from medical devices to screening platforms for pharmaceuticals, and impact fields of use in various organ and tissue types such as tumor, kidney, vascular tissue and lung. Dr. Charest graduated from Georgia Tech with an MS and PhD in Mechanical Engineering and from Penn State with a BS in Mechanical Engineering.