Current Trends and Future Developments on (Bio-) Membranes Membrane Applications in Artificial Organs and Tissue Engineering
Coordonnateurs : Basile Angelo, Annesini Maria Cristina, Piemonte Vincenzo, Charcosset Catherine
Current Trends and Future Developments on (Bio-) Membranes: Membrane Applications in Artificial Organs and Tissue Engineering reports on membrane applications in the field of biomedical engineering, ranging from artificial organs, to tissue engineering. The book offers a comprehensive review of all the current scientific developments and various applications of membranes in this area. It is a key reference text for R&D managers in industry who are interested in the development of artificial and bioartificial organs, as well as academic researchers and postgraduate students working in the wider area of artificial organs and tissue engineering.
1. Membrane bioreactors for bio-artificial kidney 2. Membrane bioreactors for bio-artificial Liver 3. Membrane bioreactors for bio-artificial Lung 4. Membrane bioreactors for bio-artificial pancreas 5. Membrane device for blood separation and purification 6. Hematic damage in membrane systems for artificial and bioartificial organs 7. Membrane scaffolds for 3D cell Culture 8. Membrane applications in "Organs on Chip" for drug toxicity testing 9. Membrane fabrication techniques in tissue engineering 10. New cell culture system using an oxygen-permeable membrane 11. Cell separation system by membrane 12. Artificial oxygen carriers
Academics, post-graduates, researchers, in biochemical engineering, Biotechnology and R&D companies and institutions in the same area. The book is of interest to biotechnology companies and a key reference for R&D managers in biotechnology industry interested in bioseparations, biopurification, bioproduction and drug delivery in artificial organ development
Maria Cristina Annesini is full professor of Chemical Engineering Fundamentals at the Faculty of Engineering of Rome University “La Sapienza where now she teaches Transport Phenomena and Chemical reactors for undergraduate and graduate students respectively. Her research activity is supported by over 150 scientific works; in the biotechnological and biomedical fields, she studied phase equilibrium thermodynamics of complex mixtures involved in biotechnological processes, drug controlled release and enzymatic processes in liposomes, bioreaction engineering (in particular, two-pahse sequenting batch reators for xenobiotics removal), artificial organ engineering. In the last field, she studied the physico-chemical phenomena involved in artificial liver devices, based on albumin-bound toxin removal by adsorption or albumin dialysis, and proposed mathematical models to “engineer the artificial device or to model the artificial device-patient system. She also
- Describes numerous bioartificial organ configurations and their relationships to membranes
- Includes new innovations and solutions in the development of artificial organs with membrane components
- Describes various membrane fabrication techniques for tissue engineering
Date de parution : 10-2019
Ouvrage de 258 p.
19x23.3 cm
