Gait Analysis Correlates Mechanical Hyperalgesia in a Model of Streptozotocin-Induced Diabetic Neuropathy: A CatWalk Dynamic Motor Function Study

Peripheral neuropathy is a complication of diabetes commonly associated with pain and decline in motor compound action potential, leading to alterations in plantar pressure during gait. We identified motor impairments in streptozotocin (STZ)-induced diabetic neuropathic rats and correlated with mechanical withdrawal thresholds, establishing this correlation as a complementary method to investigate the development of chronic hyperalgesia in diabetic neuropathy. Methods: UNICAMP's Ethics Committee (protocol number 3902-1) approved all experiments. Male Lewis rats (200-250 g) received a STZ-low-dose (25 mg/kg/day) (STZ group) or 0.1 M sodium citrate buffer (SCB, control group) once a day, during five consecutive days. Diabetic rats (250 mg/dL blood glucose) were submitted to electronic von Frey and CatWalk tests at 0, 7, 14, 21, and 28 days after treatment. Results: STZ, but not SCB, induced diabetes. After the 14th day (STZ)-induced diabetic rats showed mechanical hyperalgesia and a reduction in the hind limbs footprint intensities. At the 28th day, rats presented alterations in spatial parameters (Maximum Contact Area; Stride Length; Print Area), which showed a strong correlation with mechanical withdrawal thresholds (r(2) = 0.97; 0.99, and 0.93, respectively). Conclusions: Correlation between gait parameters and mechanical withdrawal thresholds enables a better experimental approach to evaluate the development of chronic hyperalgesia in the STZ-induced diabetes model. It allows a concise crosstalk of motor and sensorial functions, which are usually analyzed individually. CatWalk gait parameters can be used as a complementary tool to investigate the development of hyperalgesia in STZ-induced diabetic neuropathic rats.