Pharmacological Enhancement of Cortical Activity for Controlling Chronic Pain

Abstract

Chronic pain is a major problem of public health in both civilians and military personnel. Patients with neuropathic pain often experience severe pain that is often refractory to current treatment options. The chronic pain not only severely compromises the quality-of-life, employment, and recovery, but also leads to opioid addiction and life-threatening drug over-dose and abuse. Because the lesions or injuries that lead to neuropathic pain initially cause loss of nervous sensory input to the brain, a recent hypothesis proposes that a compensatory reaction and plasticity (termed homeostatic plasticity) is responsible for developing and maintaining the pain. If this is true, then stimulating brain activity to replenish the lost sensory input should help the body to recovery the lost activity and control the pain. The goal of this research proposal is to develop a new treatment option by enhancing the activity of nerve cells in the related areas of the brain. Specifically, we will test a compound that are known to mildly enhance neuronal activity in the brain (but without over-activating neurons to cause seizures). In a well-established nerve injury model in mice that usually causes neuropathic pain, we will first determine whether the drugs will reduce pain sensation to mechanical and thermal stimulation and spontaneous pain. Then we will use imaging techniques to examine activities of individual neurons as well as the whole cerebral cortex in live animals, which will tell us whether and how the drugs affect brain activity. We may also record electrical activity from single brain neurons to understand how the drugs affect single neurons and the input they receive from synapses.

Document Details

Document Type

Technical Report

Publication Date

May 01, 2020

Accession Number

AD1106367

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