Science in China. Series B, Chemistry, life sciences & earth sciences
-
Sci. China, Ser. B, Chem. Life Sci. Earth Sci. · Jul 1993
Inhibitory effect of anisodamine on the neuropathic hyperalgesia following peripheral nerve injury (II).
A peripheral neuropathy with hyperalgesia and allodynia was produced by loosely tying constrictive ligature around the left sciatic nerve of rats, i.v. injection of anisodamine 20 mg/Kg abolished both neuropathic hyperalgesia responses to noxious radiant heat and ectopic discharges generated from the injured region of the nerve. Anisodanime applied either systemically or locally to the damaged area of the nerve not only ceased the spontaneous ectopic discharges recorded from A beta to C fibers but also blocked the afferent ectopic discharge elicited by K+ channel blocker, noradrenaline, Ca2+ or antidromic stimulation of sciatic nerve proximal to the injured nerve area. The experiments indicated that anisodamine probably possessed a calcium channel blocker-like activity and produced selective block of the new channels in the injured area. It is suggested that anisodamine may be a candidate therapeutic agent in relieving hyperalgesia and allodynia following nerve injury.
-
Sci. China, Ser. B, Chem. Life Sci. Earth Sci. · Oct 1989
The property of peripheral input of projection neurons in the spinal cord dorsal horn.
Antidromic and orthodromic responses of the projection neurons in the dorsal horn of the spinal cord have been recorded by a glass microelectrode in anesthetized and paralyzed cats. Furthermore, the effect of cervical segment antidromic stimulation to orthodromic response of the projection neurons has been observed by way of conditioning-test stimulation. Among all the spinocervical tract neurons (SCT), the dorsal column postsynaptic neurons (DCPS) and the spinocervical tract-dorsal column postsynaptic neurons (SCT-DCPS), which were identified by cervical segment antidromic stimulation, 46% are low-threshold mechanoreceptive (LTM) and 54% are wide-dynamic-range (WDR) neurons. ⋯ Most WDR neurons to 50 T intensity stimulation are stronger than the 10 T stimulation. Under the antidromic-cervical segment conditioning stimulation, the amount of orthodromic-discharging in most WDR and few LTM neurons reduced significantly. The result shows that both LTM and WDR projection neurons in the spinal cord can respond to all peripheral A beta fibers and part of the A delta fibers; there are some inhibitional descending fibers which affect the projection neurons in the cervical segment dorsal column and dorsolateral funiculi.