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Transport in Biological Media
Mathematical modeling at multiple scales for understanding and solving research problems in the transport of biological media
Sid M. Becker (Edited by), Andrey V. Kuznetsov (Edited by)
9780124158245
Hardback, published 2 July 2013
570 pages, 100 illustrations (50 in full color)
23.4 x 19 x 3.2 cm, 1.36 kg
"Transport in Biological Media. Edited by Sid M. Becker and Andrey V. Kuznetsov. Academic Press. Amsterdam (The Netherlands) and Boston (Massachusetts): Elsevier. $149.95. xiii 559 p.; ill.; index. ISBN: 978-0-12-415824-5. 2013." --The Quarterly Review of Biology,September 2014 "Biochemists and biochemical engineers present interdisciplinary modeling strategies and theoretical tools that are used to understand the diverse phenomena associated with transport within biological media." --Reference and Research Book News, August 2013
Transport in Biological Media is a solid resource of mathematical models for researchers across a broad range of scientific and engineering problems such as the effects of drug delivery, chemotherapy, or insulin intake to interpret transport experiments in areas of cutting edge biological research. A wide range of emerging theoretical and experimental mathematical methodologies are offered by biological topic to appeal to individual researchers to assist them in solving problems in their specific area of research. Researchers in biology, biophysics, biomathematics, chemistry, engineers and clinical fields specific to transport modeling will find this resource indispensible.
Chapter 1: Modeling momentum and mass transport in cellular biological media: from the molecular to the tissue scale Chapter 2:Thermal pain in tooth: heat transfer, thermomechanics, and ion transport Chapter 3: Drug Release in Biological Tissues Chapter 4: Transport of Water and Solutes across Endothelial Barriers and Tumor Cell Adhesion in the Microcirculation Chapter 5: Carrier Mediated Transport through Biomembranes Chapter 6: Blood flow through capillary networks Chapter 7: Models of Cerebrovascular Perfusion Chapter 8: Mechanobiology of the Arterial Wall Chapter 9: Shear Stress Variation and Plasma Viscosity Effect in Microcirculation Chapter 10: Targeted Drug Delivery: Multifunctional Nanoparticles and Direct Micro-drug Delivery to Tumors Chapter 11: Electrotransport across Membranes in Biological Media: Electrokinetic Theories and Applications in Drug Delivery Chapter 12: Mass transfer phenomena in electroporation Chapter 13: Modeling of cell electroporation and its measurable effects in tissue Chapter 14: Modeling Intracellular Transport in Neurons
Subject Areas: Biochemistry [PSB], Applied mathematics [PBW], Biomedical engineering [MQW]
