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This book describes the tools, developed by the author, for perturbing endogenous mechano-sensitive ion channels for magneto-mechanical neuro-modulation. He explores the ways in which these tools compare against existing ones such as electricity, chemicals, optogenetics, and techniques like thermos/magneto-genetics. The author also reports on two platforms-magnetic ratcheting and magnetic microfluidics for directed evolution and high throughput culture of magnetotactic bacteria-that produce high quality magnetic nanoparticles for biomedical applications like neural stimulations. This thesis was submitted to and approved by the University of California, Los Angeles.
- Introduces technology for non-invasive control of neural activities that offer deep tissue penetration and controllable dosage;
- Examines the effects of biomechanical forces on cellular functions;
- Explores how to improve the reproducibility and uptake of magnetic tools for non-invasive neural modulation.
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