![]() On the science and ethics of cloning, gene editing methods with special focus on geneĮditing in stem cells. Therapy and generating chimeras for organ transplantation. ![]() How do Stem Cells work: How to induce stem cells to differentiate into particularĬell types? New stem cell-assisted technologies such as mitochondrial replacement ![]() Of stem cell research, and the potential for stem cell therapies. Introduction to Stem Cells: Basic overview of stem cells-what they are, the history Bioethics: Animal and human experimentation, informed consent, euthanasia,Įthical issues in feasibility studies, ethical clearance BE 304 Markets, case studies from India and abroadĩ. Medical devices: Classes of medical devices, considerations for design andĭevelopment, introduction to regulatory processes in Indian, U.S., and European Magnetic resonance, ultrasound, and nuclear medicineĨ. Brief overview of imaging: Optical microscopy, X-Rays, computed tomography, Biosignals: Acquiring and analyzing biosignals, electrocardiogram (ECG),Įlectroencephalography (EEG), electromyogram (EMG), thermography, blood flowħ. Healing processes, replacement of diseased tissues, tissue engineering in controlĦ. Tissue engineering: Challenges in organ transplantation, cell culture, regulation of Selection, tissue-biomaterial interactions, safety testingĥ. Biomaterials: Materials in medicine, lessons from nature on biomaterial design and Physics and mechanics of locomotion (e.g., walking, running, swimming), design inĤ. ![]() Viscoelasticity), mechanics of tissues (e.g., cartilage, ligaments, tendon, muscle), Biomechanics: Basic mechanics (elasticity, viscosity, deformation and Systems, communication systems, respiration, digestion, circulation, removal ofģ. Overview of anatomy and physiology: Cellular organization, tissues, major organ Needs, interfacing with clinicians, research, and developmentĢ. Biomedical engineers and modern health care systems: Addressing unmet clinical TheĬourse topics will include the following:ġ. To the analyses of physiological systems for addressing challenges in health care. We will discuss applications of elementary engineering principles This course will provide an introductory overview of the multi-disciplinary field ofīiomedical engineering. Nanotechnology with molecules of life: Proteins-Proteins Structures, Designs, Nanomachines, Origami designs and Applications Carbohydrates-Glyconanotechnology, Applications in Glycobiology, vaccination, delivery and cell biology Lipids-Structure, function, designs, membranes and applications in drug delivery formulations and cell biology Combinatorial Bionanotechnology-Hybrid formulations, structures, functions and applications.ĭNA Nanotechnology: Structure of DNA- Why DNA is genetic material of life? Naturally occuring DNA nanomachines Discovery of DNA nanotechnology - Initial designs and validations Multi-arm DNA based 1/2/3D nanodevices DNA Origami Non-canonical Motifs and applications-Aptamers, i-motif, G-quadruplexes.Īpplications of DNA Nanotechnology: Cell Engineering Theranostics Diagnostics (Biosensing) and therapeutic applications Biomedical Applications-Bioimaging including super-resolution imaging and single-particle tracking DNA based computing and robotics. Introduction to Nanotechnology and special focus on Bionanotechnology. Bionanotechnology – Principles and Applications
0 Comments
Leave a Reply. |