Mechanisms underlying immobilization‐induced muscle pain in rats

INTRODUCTION: We investigated the mechanisms underlying immobilization-induced muscle pain in rats. METHODS: In rat skeletal muscle, pressure pain threshold (PPT) of the gastrocnemius muscle was measured, and nerve growth factor (NGF) level, peripheral nerve fiber density, macrophage number, and interleukin-1beta (IL-1beta) mRNA expression were examined. An NGF receptor inhibitor was injected intramuscularly to assess the relationship between PPT and NGF levels. RESULTS: Immobilization resulted in a decrease in PPT and increases in NGF level, C-fiber density, M1 macrophage number, and IL-1beta mRNA expression. Injection of NGF receptor inhibitor reversed the decrease in PPT. DISCUSSION: NGF upregulation may be a major contributor to immobilization-induced muscle pain. The increases in C-fiber density, M1 macrophage number, and IL-1beta mRNA expression may be related to immobilization-induced muscle pain.