ISBN13: | 9780323955331 |
ISBN10: | 0323955339 |
Binding: | Paperback |
No. of pages: | 380 pages |
Size: | 234x190 mm |
Weight: | 450 g |
Language: | English |
700 |
Microfluidics-Aided Technologies
EUR 155.00
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Microfluidics-Aided Technologies: Platforms for Next Generation Biological Applications aims to provide comprehensive information of microfluidic technologies, their development and biomedical applications. The book opens with an overview of the fundamentals of microfluidics. It is followed by discussions of methods and biomedical applications of microfluidics in diagnostics, prognostics, cell engineering, gene sequencing, cellular analysis, and bioimaging. The book also explores breakthroughs in microfluidics such as 3D bioprinting, organ-on-chip technologies, and regenerative medicine. This book offers researchers an interdisciplinary perspective towards biological problems. It is a resource for advanced undergraduate, graduate students, researchers and industry scientists interested in the emergence of advance techniques and next generation microfluidics-aided technologies for applications in the biomedical and medical research.
Section 1: Introduction to Micro-scale flow enabled systems 1. Fundamentals of Microfluidics 2. Mathematical modelling in microfluidics for biosystems 3. Breakthroughs and Current Limitations in microfluidic systems Section 2: Methods and Applications of Microfluidics - I 4. Microfluidic Systems in Prognostics and Diagnostics 5. Microfluidics in drug screening and drug delivery 6. Microfluidics assisted cell engineering and manipulation 7. Microfluidics assisted Cellular Analysis 8. Microfluidics in Bioimaging - in vivo and in vitro advancements Section 3: Methods and Applications of Microfluidics - II 9. Genetic sequencing and editing using microfluidics (system on chip approach) 10. Anaphylactic detection using microfluidic systems 11. Microfluidic systems for bacterial and fungal research 12. Microfluidics in studying disease biology and disease modelling in vitro 13. Microfluidics in bioanalytical chemistry Section 4: Breakthroughs in Microfluidics 14. Role of Microfluidics in 3D bioprinting 15. Tissue-on-Chip, Organ-on-chip and Organism-on-chip 16. Microfluidics in Regenerative medicine 17. Microfluidics in Protein engineering 18. Microfluidics-enabled Multi-omics analysis system Section 5: Microfluidics and its applications in Microbe and Plant study 19. Microfluidics assisted study of plant biomechanics 20. Plant-on-chip (root chips, shoot chips, apical chips) 21. Microfluidic device to study the effect of chemical and mechanical cues on cells 22. Investigating diatoms in a microenvironment using microfluidics