A model of experimental peripheral neuropathy producing pain-related disorders has recently been described in the rat. The present study aimed to investigate, using a different and quantifiable behavioural approach, the abnormal pain-related sensations in the animals. The neuropathy was produced by 4 ligatures tied loosely around the common sciatic nerve. 6-8 days after surgery, most of the rats exhibited pain-related disorders ipsilateral to the sciatic ligation, which became maximal 2 weeks after surgery. Mechanical noxious stimulation (pinching of the hind paw) revealed hyperalgesia in all the animals. Rats also exhibited allodynia when tested with the vocalization threshold test to paw pressure (mean vocalization thresholds were 65.5 +/- 3.6% of the preoperative control, P less than 0.01, n = 95). Tests using heat (40, 42, 44, 46 degrees C) and cold (10 degrees C) stimulation (immersion of the rat's hind paw in a bath until it was observed to struggle) indicated hyperalgesia to noxious heat (decrease of 30% in the immersion duration (ID) at a temperature of 46 degrees C), and allodynia to non-noxious heat (decrease of 30% in the temperature of the struggle threshold) and to cold stimulation (decrease by 40% in the ID). In addition, the animals showed modifications in the spontaneous postures of the affected hind paw in a natural setting, suggesting a 'spontaneous' pain-related behaviour (the mean 'pain' rating, derived from the technique used for the formalin test and numbered 0-5, was 2.8 +/- 0.4, P less than 0.01, n = 12). Lastly, sensitized responses were observed to mechanical stimulation after thermal stimulation in the non-noxious range applied to the lesioned but not the non-lesioned paw. The time course of pain-related disorders was comparable whatever the behavioural test, with recovery 2 months after surgery. These results clearly show that the neuropathy produces abnormal pain-related disorders in the rat, which are reminiscent of those observed in some human neuropathies.
Recently, Bennett and Xie reported that when the sciatic nerve of the rat is ligated loosely, the rat develops a pain syndrome with many features similar to those observed in neuropathic pain states in man. Anatomical and physiological studies to date indicate that the major pathology is a loss of large diameter myelinated fibers distal to the ligatures, with more subtle changes in small myelinated fibers. With a view to evaluating possible changes in the unmyelinated fibers, we have performed an electron microscopic analysis of the sciatic nerve 2 weeks after four ligatures were applied, at which time the animals displayed profound hyperalgesia and mechanical and thermal allodynia. Cross-sectional photomontages of regions proximal and distal to the ligatures were studied. Consistent with light microscopic and electrophysiological studies, we found a near complete loss of large myelinated fibers distal to the ligatures. Phagocytosis of large fibers was common. There was also considerable variation in the damage to small myelinated fibers. In some fascicles many small (less than 3 microns) myelinated axons remained; in other fascicles none could be detected. Importantly, we also found significant changes in the unmyelinated fiber spectrum. Counts of unmyelinated axons revealed a 34% and 71% decrease in the distal compared to the proximal nerve, in the two rats studied. The large clusters of unmyelinated axons that characterize normal nerve (and the nerve proximal to the ligatures) were rarely found distally. Rather, many of the unmyelinated axons coursed singly or in very loose bundles. Many of the surviving axons were shrunken and distorted, although still in contact with Schwann cells.(ABSTRACT TRUNCATED AT 250 WORDS)
Trigeminal neuralgia is an example of an extreme form of neuropathic pain and continues to be a real therapeutic challenge. Although the pathophysiology of the disorder is uncertain, vascular compression of the trigeminal root resulting in damage to primary afferent neurons is thought to play a major role in the generation of pain. In the present study, we have used a recently developed rat model of trigeminal neuropathic pain, where the neuropathy is produced by a chronic constriction injury of the infraorbital branch of the trigeminal nerve (CCI-ION), and for the first time studied the effects of various pharmacological treatments on this purely sensory model of neuropathic pain. Rats with a CCI-ION consistently display a series of spontaneous behavioural abnormalities that may be indicative of trigeminal paraesthesias/dysesthesias. A hyper-responsiveness of the territory of the ligated infraorbital nerve to light mechanical stimulation with von Frey hairs also develops at 7-12 days after the injury. Pharmacological studies indicated that the mechanical hyper-responsiveness could be reversibly abolished by local injections of alphacaine into the close proximity of the injured nerve. The allodynia-like behaviour was resistant to i.v. morphine. Similarly, single and repeated injections (using the respective T 1/2 as an interval) of tricyclic antidepressants amitriptyline and clomipramine were devoid of effects on the mechanical allodynia-like behaviour. Carbamazepine was effective only after doses (> or =10 mg/kg s.c.) that already caused disturbances in motor co-ordination in the rotarod test. Repeated injections of baclofen (3 mg/kg s.c.) partially alleviated the mechanical allodynia-like behaviour without effects on rotarod performance. The partial anti-allodynic effect of a single injection (5 mg/kg) of baclofen, which was already accompanied by slight motor disturbances, could be antagonized by CGP35348, a selective GABA(B)-receptor antagonist. Functional deficits in the GABAergic system may play an important role in the pathogenesis of this purely sensory rat model of trigeminal neuropathic pain.
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