Spinal manipulative therapy reduces peripheral neuropathic pain in the rat.

Spinal manipulative therapy, including low-velocity variable-amplitude spinal manipulation (LVVA-SM), relieves chronic low back pain, especially in patients with neuropathic radiating leg pain following peripheral nervous system insult. Understanding the underlying analgesic mechanisms requires animal models. The aim of the current study was to develop an animal model for the analgesic actions of LVVA-SM in the setting of peripheral neuropathic pain. Adult male Sprague-Dawley rat sciatic nerve tibial and common peroneal branches were transected, sparing the sural branch (spared nerve injury, SNI). After 15-18 days, rats were assigned randomly to one of three groups (n=9 each group): LVVA-SM at 0.15-or 0.16-Hz or Control. LVVA-SM (20° flexion at the L5 vertebra with an innovative motorized treatment table) was administered in anesthetized rats for 10 min. Control rats were administered anesthesia and positioned on the treatment table. After 10, 25, and 40 min, the plantar skin of the hindpaw ipsilateral to SNI was tested for mechanical sensitivity (paw withdrawal threshold to a logarithmic series of Semmes-Weinstein monofilaments) and cold sensitivity (duration of paw lifting, shaking, and/or licking to topical acetone application). SNI produced behavioral signs of mechanical and cold allodynia. LVVA-SM reduced mechanical, but not cold, hypersensitivity compared with Control (0.15-Hz: P=0.04 at 10 min; 0.16-Hz: P<0.001 at 10 min, P=0.04 at 25 min). The analgesic effect of LVVA-SM in chronic low back pain patients with neuropathic leg pain can be reverse-translated to a rat model Video abstract: https://links.lww.com/WNR/A453.