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- Kim J Burchiel.
- VA Medical Center, 4435 Beacon Avenue South, Seattle, WA 98108 U.S.A.
- Pain. 1984 Mar 1; 18 (3): 249-265.
AbstractIn 28 Sprague-Dawley rats, unilateral division of the sciatic nerve at the level of the midfemur was performed. Animals were observed for behavioral changes for 1-21 days, and electrophysiological recordings were made from microfilaments dissected from the ipsilateral L5 dorsal rootlets and sciatic nerve from 1 to 14 days postoperatively. Spontaneous discharges of two types were recorded: (1) variable frequency (0-100 Hz) discharges which typically occurred in rhythmic bursts and could be driven by mechanical stimulation of the neuroma; and (2) lower frequency (0.25-14 Hz) irregular activity which persisted after either excision or local anesthesia of the neuroma. The latter activity could also be recorded from the proximal cut end of the sciatic nerve following removal of the neuroma. The first type of activity was felt to be produced from the neuroma while the second originated in the region of the dorsal root ganglion (DRG). Analysis of the conduction velocities of fibers involved in each type of discharge indicated that both involved smaller myelinated filaments. However, the DRG activity involved significantly smaller fibers with conduction velocities in the A delta range. Spontaneous activity was recorded at 3 and 4 days for the neuroma and DRG activity, respectively. Ongoing discharges maximized at 7-10 days and were rare by 14 days. Autotomy of the ipsilateral foot was found to occur over a similar time course. Tetanic electrical stimulation (100 Hz) produced either little change in the baseline firing rate or prolonged afterdischarges in fibers manifesting neuroma activity. In fibers with ongoing activity of DRG origin, stimulation produced a stereotyped, brief low-frequency afterburst and then prolonged inhibition of firing. Mechanical stimulation of the neuroma produced both brief increases in spontaneous discharges and prolonged afterdischarges. In fibers with spontaneous DRG activity, minimal mechanical stimulation of their ganglion of origin produced high-frequency firing. This study demonstrates that peripheral axotomy of DRG neurons produces spontaneous activity distinct from ongoing neuroma activity in a proportion of fibers which are potentially nociceptive (A delta) as well as abnormal mechanosensitivity of the DRG. Furthermore, electrical stimulation of these fibers produces prolonged inhibition of the discharge. This finding may partially explain the prolonged relief of symptoms patients with chronic pain of peripheral origin may experience following peripheral tetanic electrical stimulation.
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