Assessment of recovery following a novel partial nerve lesion in a rat model.

Partial nerve lesions with a varying degree of retained function and often a painful neuroma pose a dilemma for the clinician. Surgical treatment of partial nerve lesion is perilous because of possible damage to intact axons and subsequent loss of retained function. We present a new rat model of a partial nerve lesion, allowing further study to improve treatment for this condition. A partial (50%) lesion of the tibial portion of the rat sciatic nerve was created and compared to standard crush and neurectomy control lesions. The extent of lost function and the progress of postoperative recovery following the three lesions were compared using serial walking track analyses and end-point muscle weight ratios for atrophy as outcome measures. All groups had tibial functional indices (TFI) significantly different from one another after 1 week. TFIs for the crush group returned to normal by 4 weeks, whereas the neurectomy group showed no recovery. The partial lesion group gradually improved, reaching a plateau of 44% by 7 weeks. Gastrocnemius muscle weight ratios for the partial, crush, and neurectomy lesions at 9 weeks were 0.63, 0.87, and 0.32, respectively. There was a strong correlation between the TFI and muscle weight ratios (r(2) = 0.89; P < 0.001) suggesting that these outcome measures are highly predictive of function. In conclusion, the partial lesion showed a gradual but incomplete functional recovery with a complementary degree of muscle atrophy. The model may prove useful in the evaluation of proposed treatments for partial nerve lesions and the associated painful state.