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Optogenetics and Optical Manipulation 2024 / Anna W. Roe, Shy Shoham, editors.
- Format:
- Book
- Language:
- English
- Subjects (All):
- Optical materials.
- Physical Description:
- 1 online resource
- Place of Publication:
- [Place of publication not identified] : SPIE, 2024.
- Contents:
- Front Matter: Volume 12829
- Neurotechnologies Plenary
- Infrared neural stimulation: an emerging technology for interfacing with brain circuits at mesoscale
- Advances in Infrared Neural Stimulation
- Cellular responses to intracortical infrared irradiation in the rat cortex
- Simultaneous infrared-induced calcium signaling in astrocytes and neurons in mice spinal cord slices
- Varying laser pulse widths influence infrared neural stimulation efficacy in vitro
- Input-dependent gain modulation of neuronal responses and sensorimotor behavior by mid-infrared stimulation Sensory Restoration
- Photovoltaic restoration of sight in age-related macular degeneration
- Optogenetic stimulation for spatially precise stimulation of cochlear neurons
- Photoacoustic retina stimulation
- A novel interface for cortical columnar neuromodulation with multi-point infrared neural stimulation
- μLED arrays for optogenetic stimulation of the mouse auditory cortical surface
- Emerging Technologies I
- Ultrasound-triggered liposome nanoparticles for non-invasive deep brain optogenetics
- AgBiS2 quantum dot based photovoltaic biointerfaces for near-infrared photostimulation of neurons
- Mechanism study of photoacoustic neuromodulation
- Optical interrogation of striatal ensembles during a minimal motor task
- Emerging Technologies II
- Optogenetic control of arterial diameter in three-dimensions in vivo
- Single-cell investigation of excitation wavefront propagation in in vitro human induced cardiomyocytes using a digital holographic stimulation system
- Single microvessel occlusion technology (PLP) produces cortical microvasculature redistribution and neuronal network functional adaptation
- Poster Session
- Mid-infrared photoacoustic stimulation of neurons through vibrational excitation in polydimethylsiloxane.
- Notes:
- Description based on publisher supplied metadata and other sources.
- ISBN:
- 9781510669185
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