Pain
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The behaviour of rats with spinal nerve ligation-induced neuropathic pain was studied using tests developed to measure depression and anxiety. Adult male Sprague-Dawley rats were tested with the open field test, elevated plus maze, two compartment test and forced swimming test. Spontaneous motility was measured in a photocell observation box. ⋯ The results were also comparable when rats that developed a high degree of neuropathy were compared with the rats with low degree of neuropathy and the sham operated group. In conclusion, spinal nerve ligation injury of the spinal nerves L5-6 induces mechanical and cold allodynia, but it does not seem to produce general suffering or measurable anxiety to the animals. Furthermore, tests for anxiety and depression were not able to predict which animals were vulnerable to express symptoms of neuropathic pain after nerve injury.
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The long-term changes in Fos like-immunoreactivity (Fos-LI) in the dorsal horn of the spinal cord following various peripheral nerve lesions remain controversial. This study considers such an approach with chronic constriction injury rats (CCI: loose ligations of the sciatic nerve), at 2 weeks after the surgery, when changes in spontaneous and evoked behaviour were clearly described. All rats used for Fos studies displayed allodynia to mechanical stimulation (decrease of 32% of the vocalization threshold to paw pressure). ⋯ In contrast, stroking of the nerve-injured paw induced a significant expression of Fos-LI in the superficial laminae (I-II) of the dorsal horn of CCI rats (19.5 +/- 3/sections, P = 0.027) which was greater than that observed in sham-operated (6.5 +/- 3/sections) or in normal rats (3.5 +/- 2/section). These modifications may reflect mechanical allodynia observed in behavioural studies and could be related to A beta fibers, which are known to be severely affected after the constriction of the nerve. These results suggest that this approach could be useful to study, at the cellular level, in freely moving rats, some pharmacological aspects of neuropathic pain.
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Although intrathecally administered senktide, an agonist at the neurokinin3 receptor, attenuates withdrawal responses to noxious stimuli in the restrained animal, senktide increases motor neuron activity in spinal cords of neonatal rats and facilitates the electrically-evoked nociceptive flexor reflex in the adult rat. The present study examined the effects of intrathecal administration of senktide on withdrawal responses to noxious thermal and mechanical stimuli in awake, unrestrained, adult rats. Intrathecal administration of senktide (10 nmol) in chronically catheterized rats did not alter the responses elicited by a noxious mechanical stimulus (508 mN, von Frey monofilament). ⋯ Intravenous hexamethonium, a ganglionic nicotinic receptor antagonist, similarly increased paw temperature without decreasing withdrawal latency to radiant heat. Thus, the increased skin temperature associated with intrathecal senktide was insufficient to account for the thermal hyperalgesia observed. Collectively, the present work demonstrates that NK3 receptors mediate thermal but not mechanical hyperalgesia through a pathway that involves the production of NO.
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We studied the effect of unilateral ligation of two spinal nerves on behavioral pain responses evoked by various types of cutaneous stimuli in the adult rat. Furthermore, we determined the effect of spinal nerve ligation on morphology of the peripheral nerves. The most consistent behavioral finding (83%) was a marked decrease in monofilament-induced hindlimb withdrawal thresholds (mechanical allodynia) ipsilateral to the spinal nerve ligation. ⋯ However, this mechanical allodynia may differentially dissociate from mechanical and thermal hyperalgesia at various post-operative time points. The marked mechanical allodynia together with a dramatic decrease in the number of myelinated nerve fibers is paradoxical, since the activation of myelinated nerve fibers by monofilaments produced abnormally strong behavioral responses. This paradox may be explained by spinal nerve ligation-induced amplification or disinhibition of tactile signals at central levels.
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We have shown previously that the development of hyperalgesia and inflammation associated with knee joint arthritis depends on interactions among various receptors in the central and peripheral nervous system in addition to the contribution of blood borne inflammatory mediators. In the present study, the involvement of spinal nicotinic cholinergic receptors in the modulation of inflammatory pain was evaluated using a model of acute arthritis in rats. Epibatidine (EP), a potent agonist for neuronal nicotinic acetylcholine receptors sharing similar structural and functional characteristics with acetylcholine and nicotine, has been used in this study. ⋯ The antinociceptive effect of epibatidine was selectively blocked by the nicotinic receptor antagonist, mecamylamine. Joint circumference and temperature were not selectively altered by mecamylamine suggesting another mechanism involving non-nicotinic receptors in the spinal regulation of joint inflammatory responses. Collectively, these findings provide considerable evidence to suggest an important role for central nicotinic cholinergic receptors in the modulation of persistent pain and neurogenic inflammation mediated by events in the dorsal horn.