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Microfluidics and multi organs on chip
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Microfluidics and multi organs on chipedited by P. V. Mohanan.
其他作者:
Mohanan, P. V.
出版者:
Singapore :Springer Nature Singapore :2022.
面頁冊數:
ix, 717 p. :ill., digital ;24 cm.
Contained By:
Springer Nature eBook
標題:
Biomedical engineering.
電子資源:
https://doi.org/10.1007/978-981-19-1379-2
ISBN:
9789811913792$q(electronic bk.)
Microfluidics and multi organs on chip
Microfluidics and multi organs on chip
[electronic resource] /edited by P. V. Mohanan. - Singapore :Springer Nature Singapore :2022. - ix, 717 p. :ill., digital ;24 cm.
Chapter 1. A Historical and Technological Background to Organs-on-a-Chip -- Chapter 2. Applications of microfluidics -- Chapter 3. Microfluidics based Organ-on-a-chip for cell biology studies -- Chapter 4. Microfluidics in Chemical biology -- Chapter 5. Role of microfluidics in drug delivery -- Chapter 6. Microfluidics in drug discovery -- Chapter 7. Microfludic based sensors -- Chapter 8. Background and Organs-on-a-Chip -- Chapter 9. Culture and co-culture of cells for multi organ on chip -- Chapter 10.Cells and organs on a chip in biomedical sciences -- Chapter 11. Futuristic aspects of organ on a chip -- Chapter 12. Development of Human on a chip -- Chapter 13. Multi-organ on a chip for personalized medicine -- Chapter 14. Development and application of Microfluids in organoid formation -- Chapter 15. Liver on a chip -- Chapter 16. Placenta on Chip: A Modern approach to probe feto-maternal interface -- Chapter 17. Microfluidic retina-on-chip -- Chapter 18. Heart on a chip -- Chapter 19. Kidney on a chip -- Chapter 20. Lungs on a chip -- Chapter 21. Brain on a chip -- Chapter 22. Skin on a chip -- Chapter 23. Organs-on-a-chip in preclinical studies -- Chapter 24. Application of organ on chip in blood brain barrier model -- Chapter 25. Multi organs on a chip in disease modeling -- Chapter 26. Prospects of Medical device on a chip -- Chapter 27. Lab on a chip for precision Medicine -- Chapter 28. Tumour-on-a-chip : Perfusion systems to model the extracellular breast tumour microenvironment:from tumour progression to metastasis formation -- Chapter 29. Building Human In Vitro 3D Models to Replace Animal Studies: During Drug Discovery Reearch: Scientific, Ethical and Regulatory Considerations.
This book highlights the application of microfluidics in cell biology research, chemical biology, and drug discovery. It covers the recent breakthroughs and prospects of organ-on-a-chip, human-on-a-chip, multi-organ-on-a-chip for personalized medicine. The book presents the preclinical studies of organs-on-a-chip, concepts of multiple vascularized organ-on-chips, application of organ-on-a-chip in blood-brain barrier model, culture and co-culture of cells on multi-organ-on-chip and parameter measurements in microfluidic devices. It underscores the advantage of microfluidic devices for developing efficient drug carrier particles, cell-free protein synthesis systems, and rapid techniques for direct drug screening. Further, it entails human-on-a-chip for measuring the systemic response as well as immediate effects of an organ reaction on other organs. In summary, this book reviews the development of a microfluidic-based organ-on-a-chip device for the preclinical evaluation, ADME studies of drugs, chemicals, and medical devices. This book is a valuable source for pharma companies, product developers, students, researchers, academicians, and practitioners.
ISBN: 9789811913792$q(electronic bk.)
Standard No.: 10.1007/978-981-19-1379-2doiSubjects--Topical Terms:
190330
Biomedical engineering.
LC Class. No.: R856 / .M53 2022
Dewey Class. No.: 610.28
Microfluidics and multi organs on chip
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Chapter 1. A Historical and Technological Background to Organs-on-a-Chip -- Chapter 2. Applications of microfluidics -- Chapter 3. Microfluidics based Organ-on-a-chip for cell biology studies -- Chapter 4. Microfluidics in Chemical biology -- Chapter 5. Role of microfluidics in drug delivery -- Chapter 6. Microfluidics in drug discovery -- Chapter 7. Microfludic based sensors -- Chapter 8. Background and Organs-on-a-Chip -- Chapter 9. Culture and co-culture of cells for multi organ on chip -- Chapter 10.Cells and organs on a chip in biomedical sciences -- Chapter 11. Futuristic aspects of organ on a chip -- Chapter 12. Development of Human on a chip -- Chapter 13. Multi-organ on a chip for personalized medicine -- Chapter 14. Development and application of Microfluids in organoid formation -- Chapter 15. Liver on a chip -- Chapter 16. Placenta on Chip: A Modern approach to probe feto-maternal interface -- Chapter 17. Microfluidic retina-on-chip -- Chapter 18. Heart on a chip -- Chapter 19. Kidney on a chip -- Chapter 20. Lungs on a chip -- Chapter 21. Brain on a chip -- Chapter 22. Skin on a chip -- Chapter 23. Organs-on-a-chip in preclinical studies -- Chapter 24. Application of organ on chip in blood brain barrier model -- Chapter 25. Multi organs on a chip in disease modeling -- Chapter 26. Prospects of Medical device on a chip -- Chapter 27. Lab on a chip for precision Medicine -- Chapter 28. Tumour-on-a-chip : Perfusion systems to model the extracellular breast tumour microenvironment:from tumour progression to metastasis formation -- Chapter 29. Building Human In Vitro 3D Models to Replace Animal Studies: During Drug Discovery Reearch: Scientific, Ethical and Regulatory Considerations.
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This book highlights the application of microfluidics in cell biology research, chemical biology, and drug discovery. It covers the recent breakthroughs and prospects of organ-on-a-chip, human-on-a-chip, multi-organ-on-a-chip for personalized medicine. The book presents the preclinical studies of organs-on-a-chip, concepts of multiple vascularized organ-on-chips, application of organ-on-a-chip in blood-brain barrier model, culture and co-culture of cells on multi-organ-on-chip and parameter measurements in microfluidic devices. It underscores the advantage of microfluidic devices for developing efficient drug carrier particles, cell-free protein synthesis systems, and rapid techniques for direct drug screening. Further, it entails human-on-a-chip for measuring the systemic response as well as immediate effects of an organ reaction on other organs. In summary, this book reviews the development of a microfluidic-based organ-on-a-chip device for the preclinical evaluation, ADME studies of drugs, chemicals, and medical devices. This book is a valuable source for pharma companies, product developers, students, researchers, academicians, and practitioners.
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