Damage to the peripheral nerve system can cause peripheral neuropathic pain, which is characterized by continuous pain, tactile allodynia and thermal hyperalgesia. The model of neuropathic pain is necessary to investigate pain mechanism and discover the analgesic drugs. We established spinal nerve crush (SNCr) model compared to the well-known spinal nerve ligation (SNL) model to verify its neuropathic pain pattern and possibility of regeneration. Within one week of SNCr and SNL surgery, there were significant mechanical allodynia and thermal hyperalgesia on the ipsilateral hind paw compared to the contralateral side, according to behavior tests with a dynamic plantar aesthesiometer for mechanical thresholds and a Hargreaves-type analgesiometer for thermal withdrawal latencies. Mechanical allodynia recovered at 10 weeks and thermal hyperalgesia recovered at 6 weeks on both SNCr and SNL model. The nerve degeneration on SNCr and SNL model was validated with epidermal nerve density and electrophysiology. We than examined the expression of activating transcription factor 3 (ATF3), a neuronal injury marker, in dorsal root ganglion (DRG) neurons. ATF3 expression was increased at one week of SNCr and SNL with no difference between these two models (350 ± 27.2 vs. 340.1 ± 32.8 neurons/mm^2, p=0.69). However, ATF3 expression on SNCr group were significantly fewer than that on SNL group at week 12 (151.6 ± 8.9 vs. 56 ± 6.9 neurons/mm^2, p=0.001), indicating the degree of neuron injury on SNCr was lower than that on SNL at week 12. The neuropathic pain behaviors were further assessed with an increased expression of purinergic receptor P2X3 on ipsilateral DRG neurons at one week of SNCr and SNL with no difference between these two models (368.1 ± 38.3 vs. 309.5 ± 28.3 neurons/mm^2, p=0.41). P2X3 expression recovered at week 12 on both SNCr and SNL models without difference between these two models. (167.5 ± 28.1 vs. 139.2 ± 11.1 neurons/mm^2, p=0.91). These results provided evidence that SNCr was a potential neuropathic pain model with similar neuropathic pain pattern to the SNL model, and revealed the possibility of regeneration on both SNL and SNCr models.