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Loss of T-type Calcium Current in Sensory Neurons of Rats with Neuropathic Pain |
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| Authors: | McCallum J Bruce PhD; Kwok Wai-Meng PhD&#x;; Mynlieff Michelle PhD&#x;; Bosnjak Zeljko J PhD ; Hogan Quinn H MD&#x; |
| Institution: | McCallum, J. Bruce Ph.D.*; Kwok, Wai-Meng Ph.D.†; Mynlieff, Michelle Ph.D.‡; Bosnjak, Zeljko J. Ph.D.§; Hogan, Quinn H. M.D.∥ |
| Abstract: | Background: Pathophysiology in the primary sensory neuron may contribute to chronic neuropathic pain. Ca channels play a central role in neuronal processes, and sensory neurons are rich in low-voltage-activated calcium channels (LVACCs). However, the physiologic function of these channels is unknown. Their possible role in rebound burst firing makes them a candidate for increased excitability after neuropathic injury. Methods: This study uses pharmacological methods to isolate LVACC in cells from the dorsal root ganglia of neuropathic and sham-operated rats, including the blockade of high-voltage-activated Ca channels with fluoride and selective toxins. LVACCs were examined with conventional whole cell patch clamp electrophysiology techniques. Results: After chronic constriction injury of the peripheral axon, LVACC was significantly reduced compared to sham rats as shown by a 60% reduction in peak current density and an 80% reduction in total calcium influx. A depolarizing shift in the voltage dependence of activation and an increase in the rate of deactivation and inactivation appear to cause this reduction of LVACC. Either Ni2+ or mibefradil, blockers of LVACC, applied in the bath to normal dorsal root ganglion cells during current clamp significantly and reversibly increased excitability. |
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| 点击此处可从《The Journal of the American Society of Anesthesiologists》浏览原始摘要信息 | |