C-fiber mechanical stimulus-response functions are different in inflammatory versus neuropathic hyperalgesia in the rat.

To compare changes in primary afferent nociceptors associated with inflammatory versus neuropathic hyperalgesia, we evaluated in rats the mechanical stimulus-response function of isolated C-fiber primary afferent nociceptors to 10-s stimuli of differing mechanical strengths; 36 fibers after prostaglandin E2, 28 fibers from streptozotocin-diabetic rats and 46 fibers from control, non-treated rats were examined. Intradermal injection of prostaglandin E2 decreased mechanical threshold of 19 of 35 (54%) C-fibers. C-fibers that demonstrated a decrease in the mechanical threshold after prostaglandin E2 also showed an increased response to suprathreshold stimuli. The increase in the number of action potentials in prostaglandin E2-treated C-fibers was greatest at lower magnitude stimulus intensities, i.e. near threshold; the response to higher magnitude stimulus intensities was unchanged from that in control animals. In contrast, an increase in the number of action potentials seen in C-fibers from streptozotocin-diabetic rats was not seen at low-magnitude stimulus intensities; rather, a pronounced increase in response was seen at high-magnitude stimulus intensities. The von Frey hair thresholds for C-fibers in streptozotocin-diabetic rats were not different from those in control C-fibers. These data suggest that the changes in mechanical stimulus-response function of C-fibers are different in inflammatory compared to neuropathic mechanical hyperalgesia. These differences may underlie some of the differences in clinical features between inflammatory and neuropathic hyperalgesias.