Journal of the peripheral nervous system : JPNS
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J. Peripher. Nerv. Syst. · Mar 2007
Characterization of tests of functional recovery after median and ulnar nerve injury and repair in the rat forelimb.
The majority of human peripheral nerve injuries occur in the upper limb but the majority of studies in the rat are performed in the hindlimb. The upper and lower limbs differ in dexterity and control by supraspinal systems, so an upper limb model is a better representation of the common form of human injury. The purpose of this study was to further develop a rat model involving lesions of the median and ulnar nerves. ⋯ The final degree of functional recovery achieved was related to the misdirection of axon regeneration. The tests that most clearly revealed the effects of axon misdirection on function were the skilled paw reaching and grip strength tests. The lesion model and functional tests that we have developed will be useful in testing therapeutic strategies for treating the consequences of inaccurate axon regeneration following peripheral nerve injury in humans.
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J. Peripher. Nerv. Syst. · Dec 2006
Nerve root degeneration and regeneration by intrathecal phenol in rats: a morphologic approach.
Intrathecal injection of phenol (ITP) has been used to control intractable pain and spasticity. Direct caustic nerve damage has been postulated as the mechanism of analgesia. Sensation is commonly recovered, suggesting that a spontaneous regeneration process takes place. ⋯ Attempting to prevent thrombosis, another group of rats received heparin before ITP; these anti-coagulated rats developed radicular thrombosis, neurolysis, and hemorrhage. In conclusion, neurolysis produced by ITP is associated with acute ischemia (not prevented by heparin) and is followed by vascular, nerve, and myelin regeneration. Our results help understand the lack of efficacy of and some complications by ITP clinical therapy.
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J. Peripher. Nerv. Syst. · Dec 2006
Altered pain behavior and regeneration after nerve injury in TNF receptor deficient mice.
The pro-inflammatory cytokine tumor necrosis factor (TNF)-alpha is an important mediator in hyperalgesia, nerve injury, and regeneration. Here, we used mice deficient of TNF receptor (TNFR) 1 or 2 to investigate the role of TNF signaling via receptor in each pain behavior and nerve de- and regeneration after chronic constriction injury (CCI) of the sciatic nerve. ⋯ We propose that the functional effects of the TNFRs on pain symptoms are independent of effects on nerve regeneration. Furthermore, the differential action of TNF via each of its receptors should be taken into account when considering clinical trials with TNF inhibitors for pain.
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J. Peripher. Nerv. Syst. · Sep 2006
Comparative StudyNociceptin and its receptor in rat dorsal root ganglion neurons in neuropathic and inflammatory pain models: implications on pain processing.
Nociceptin (NC), by activating its receptor, the opioid receptor-like 1 (ORL1) receptor, exerts an effect on a number of functions in the nervous system including locomotion, learning and memory, and processing of pain signals. Data on the expression of NC and ORL1 receptor in dorsal root ganglion (DRG) neurons and on its modulation after nerve injury and inflammation are controversial. We therefore sought to investigate the immunoreactivity (IR) of NC and ORL1 receptor in DRG neurons in two pain models, a pure neuropathic pain model, namely partial sciatic nerve transection (PST), and an inflammatory pain model, complete Freund's adjuvant (CFA) injection into the hindpaw. ⋯ Activating transcription factor 3 (ATF3), a neuronal marker of nerve injury, was induced in DRG neurons 7 and 14 days after PST and 7 days after CFA injection. Double labeling with ATF3 revealed expression of NC and ORL1 receptor in intact as well as in injured primary afferent neurons. Thus, NC and the ORL1 receptor may be involved in the modulation of neuropathic and inflammatory pain at the level of the primary afferent neuron.
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J. Peripher. Nerv. Syst. · Sep 2006
Comparative StudyEvidence for direct axonal toxicity in vincristine neuropathy.
There is a long-standing debate concerning the localization of the primary insult that results in distal axonal degeneration, or 'dying back' neuropathy. To address this question, we created an in vitro model of vincristine neuropathy in rat dorsal root ganglia (DRG). DRGs were grown in compartmentalized chambers, allowing for isolated exposure of the cell body or the axon to vincristine. ⋯ At this dose of 0.05 microM, exposure of the cell bodies had no effect on the growth of axons, whereas addition of vincristine to the axonal compartment caused axonal shortening without affecting the growth of unexposed 'sister' axons. Toxicity was seen only with exposure of the growing axonal tips. These data support localized axonal toxicity as a cause of distal axonal degeneration due to vincristine.