Partial high frequency nerve block decreases neuropathic signaling following chronic sciatic nerve constriction injury

Abstract

Abstract Objective. High frequency (HF) block can quickly and reversibly stop nerve conduction. We hypothesized HF block at the sciatic nerve would minimize nociception by preventing neuropathic signals from reaching the central nervous system. Approach. Lewis rats were implanted with a constriction cuff and a distal cuff electrode around their right sciatic nerve. Tactile sensitivity was evaluated using the 50% paw withdrawal threshold (PWT) determined using Chaplan’s method for von Frey monofilaments. Over the course of 49 d, the 50% PWT was measured (1) before HF block, (2) during HF block (50 kHz, 3 V pp), and (3) after HF block. Gait was observed and scored before and during block. At end point, HF block efficacy was directly evaluated using additional cuff electrodes to elicit and record compound neural action potentials across the HF blocking cuff. Main results. At days 7 and 14 d post-operation, tactile sensitivity was significantly lower during HF block compared to before and after block (p< 0.005). Additionally, an increase in gait disability was not visually observed during HF block. Significance. HF block can reduce tactile sensitivity in a limb with a neuropthic injury in a rapidly reversible fashion.