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Whole Cell Patch Clamp for Investigating the Mechanisms of Infrared Neural Stimulation |
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| Authors: | William G. A. Brown Karina Needham Bryony A. Nayagam Paul R. Stoddart |
| Affiliation: | 1.Biotactical Engineering, Faculty of Engineering and Industrial Science, Swinburne University of Technology;2.Department of Otolaryngology, The University of Melbourne |
| Abstract: | It has been demonstrated in recent years that pulsed, infrared laser light can be used to elicit electrical responses in neural tissue, independent of any further modification of the target tissue. Infrared neural stimulation has been reported in a variety of peripheral and sensory neural tissue in vivo, with particular interest shown in stimulation of neurons in the auditory nerve. However, while INS has been shown to work in these settings, the mechanism (or mechanisms) by which infrared light causes neural excitation is currently not well understood. The protocol presented here describes a whole cell patch clamp method designed to facilitate the investigation of infrared neural stimulation in cultured primary auditory neurons. By thoroughly characterizing the response of these cells to infrared laser illumination in vitro under controlled conditions, it may be possible to gain an improved understanding of the fundamental physical and biochemical processes underlying infrared neural stimulation. |
| Keywords: | Neuroscience Issue 77 Biomedical Engineering Neurobiology Molecular Biology Cellular Biology Physiology Primary Cell Culture Biophysics Electrophysiology fiber optics infrared neural stimulation patch clamp in vitro models spiral ganglion neurons neurons patch clamp recordings cell culture |