Neural Coding and Control of Pain Detection in Somatosensory Cortex
Cleveland Clinic Lerner Com-Cwru, Cleveland OH
Investigators
Abstract
Summary/Abstract We propose to: Aim 1) Deï¬ne the temporal patterns and characterizing the LFP properties of S1 oscillations in relation to pain in healthy and chronic pain conditions using novel behavioral assay; Aim 2) Correlate LFP oscillations to underlying neural activity in S1 at the spiking level using NeuroPixels; Aim 3) Identify neural sub- circuits in S1 using genetically-encoded voltage indicators during nociceptive behavior and investigate the functional signiï¬cance of S1 neurons to nociceptive behavior. These aims will be achieved in mice using state- of-the-art techniques for electrophysiological recordings of LFP and spiking activity in single units with genetically-encoded voltage indicators in vivo combined with optogenetic interventions during sub-second behavioral paradigms, therefore, this application will enhance our scientiï¬c understanding of pain mechanisms in the brain and potentially lead to novel diagnostic and therapeutic approaches to better manage pain in the clinical setting.
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