Acute and Chronic Neural Stimulation via Mechano-Sensitive Ion Channels

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/...

Πλήρης περιγραφή

Λεπτομέρειες βιβλιογραφικής εγγραφής
Κύριος συγγραφέας: Tay, Andy Kah Ping (Συγγραφέας, http://id.loc.gov/vocabulary/relators/aut)
Συγγραφή απο Οργανισμό/Αρχή: SpringerLink (Online service)
Μορφή: Ηλεκτρονική πηγή Ηλ. βιβλίο
Γλώσσα:English
Έκδοση: Cham : Springer International Publishing : Imprint: Springer, 2018.
Έκδοση:1st ed. 2018.
Σειρά:Springer Theses, Recognizing Outstanding Ph.D. Research,
Θέματα:
Διαθέσιμο Online:Full Text via HEAL-Link
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250 |a 1st ed. 2018. 
264 1 |a Cham :  |b Springer International Publishing :  |b Imprint: Springer,  |c 2018. 
300 |a XVII, 119 p. 33 illus., 32 illus. in color.  |b online resource. 
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505 0 |a Micro- and Nano-Technologies to Probe Brain Mechanobiology -- Acute Neural Stimulation -- Chronic Neural Stimulation -- Phenotypic Selection of Magnetospirillum magneticum (AMB-1) Over-Producers using Magnetic Ratcheting -- Magnetic Microfluidic Separation for Estimating the Magnetic Contents of Magnetotactic Bacteria -- Outlook for Magnetic Neural Stimulation Techniques. . 
520 |a 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. 
650 0 |a Biomedical engineering. 
650 0 |a Nanotechnology. 
650 0 |a Nanoscale science. 
650 0 |a Nanoscience. 
650 0 |a Nanostructures. 
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650 2 4 |a Nanoscale Science and Technology.  |0 http://scigraph.springernature.com/things/product-market-codes/P25140 
710 2 |a SpringerLink (Online service) 
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776 0 8 |i Printed edition:  |z 9783319690582 
776 0 8 |i Printed edition:  |z 9783319690605 
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