TY - CHAP A1 - Lin Xiao A2 - Bo Wang A3 - Guang Yang A4 - Mario Gauthier ED1 - Dhanjoo N. Ghista Y1 - 2012-01-20 PY - 2012 T1 - Poly(Lactic Acid)-Based Biomaterials: Synthesis, Modification and Applications N2 - This innovative book integrates the disciplines of biomedical science, biomedical engineering, biotechnology, physiological engineering, and hospital management technology. Herein, Biomedical science covers topics on disease pathways, models and treatment mechanisms, and the roles of red palm oil and phytomedicinal plants in reducing HIV and diabetes complications by enhancing antioxidant activity. Biomedical engineering coves topics of biomaterials (biodegradable polymers and magnetic nanomaterials), coronary stents, contact lenses, modelling of flows through tubes of varying cross-section, heart rate variability analysis of diabetic neuropathy, and EEG analysis in brain function assessment. Biotechnology covers the topics of hydrophobic interaction chromatography, protein scaffolds engineering, liposomes for construction of vaccines, induced pluripotent stem cells to fix genetic diseases by regenerative approaches, polymeric drug conjugates for improving the efficacy of anticancer drugs, and genetic modification of animals for agricultural use. Physiological engineering deals with mathematical modelling of physiological (cardiac, lung ventilation, glucose regulation) systems and formulation of indices for medical assessment (such as cardiac contractility, lung disease status, and diabetes risk). Finally, Hospital management science and technology involves the application of both biomedical engineering and industrial engineering for cost-effective operation of a hospital. BT - Biomedical Science, Engineering and Technology SP - Ch. 11 UR - https://doi.org/10.5772/23927 DO - 10.5772/23927 SN - PB - IntechOpen CY - Rijeka Y2 - 2022-01-24 ER -