A simple and feasible rabbit model of carpal tunnel syndrome (CTS) was established using an animal experimental study. Twenty-four New Zealand white rabbits were randomized into a normal group (Group C), a glucose injection model group (Groups N-M) and an ultrasound-guided injection model group (Groups U-M). Each group consisted of 8 rabbits.Electrophysiological and ultrasound examinations were performed before sampling. Hematoxylin-eosin (H&E) staining and electron microscopy were performed to observe the neuropathological changes. During electrophysiological testing 1 week after modeling, the amplitudes of the sensory nerve conduction velocity (SNCV), distal motor latency (DML) and compound muscle action potential (CMAP ) in the U-M group were significantly different compared to the C group and the N-M group (P < 0.05). Five weeks after modeling, the amplitudes of the SNCV, DML and CMAP in the U-M group and the C group were significantly different (P < 0.05). These differences were statistically significant compared to the DML and CMAP in the N-M group (P < 0.05), and the changes in these parameters were more significant than the results 1 week after modeling (P < 0.05). The difference in CMAP amplitude between the N-M group and C group was statistically significant (P < 0.05), but the other parameters were not significantly different (P > 0.05). Compared to the original modeling method, four injections of 0.3 ml of 10% glucose solution under ultrasound guidance reduced the time required to establish the disease model and increased the stability of the model. Therefore, this technique is a simple and feasible method for establishing a model of rabbit carpal tunnel syndrome.
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