OBJECTIVE:The purpose of this study is to present an experimental model of disc herniation and to validate such model to study mechanic and thermal hyperalgesia produced by the contact of the nucleus pulposus (NP) with nerve structures involved in this condition. METHODS: The authors used Wistar rats, the autologous NP being removed from the sacrococcygeal region and deposited on the dura mater, nerve root, or L4, L5, or L6 dorsal root ganglia. The experiments were divided into four steps: 1) determining the nerve structure that is the most sensitive to the contact with NP; 2) identifying the best lumbar level to induce hyperalgesia; 3) determining absence of a motor lesion; and 4) determining the impact of the surgical procedure upon the inflammatory process. Hyperalgesia was evaluated by the von Frey electronic test and the Hargreaves test, and the motor function was evaluated by the rota-rod test. RESULTS: NP induced higher intensity hyperalgesia in the paw when it was in contact with the dorsal root ganglion (GRD) than when it was in contact with the dura mater or the nerve root. Contact with GRD-L5, led NP to induce even higher hyperalgesia than that induced in the contact with L4 and L6 GRDs. No motor lesion and impact of the surgical inflammatory process on hyperalgesia were observed. CONCLUSION: GRD is the structure that is most sensitive to NP components to produce hyperalgesia, the fifth lumbar level being that showed the greatest change in the mechanic and thermal sensitivities evaluated in the paws of the animals, under the methods used.
Spine; Intervertebral disk; Low back pain; Hyperalgesia; Intervertebral disk displacement; Ratos Wistar
