Increased WDR spontaneous activity and receptive field size in rats following a neuropathic or inflammatory injury: implications for mechanical sensitivity.

Spontaneous activity and receptive field size for spinal wide dynamic range (WDR) neurons were measured and related to the mechanical allodynia in both neuropathic (L5-L6 ligation, 14 days post-injury) and complete Freund's adjuvant-inflamed rats (CFA, 2 days post-injury). The size of the WDR receptive field located on the hindpaw expanded significantly (p<0.01) following both modes of injury, with no difference between CFA and neuropathic animals. Likewise, the spontaneous firing of WDR neurons was significantly elevated following both the CFA (4.4+/-0.6 spikes/s, p<0.01) and neuropathic (3.2+/-0.3 spikes/s, p<0.05) injuries compared to naive (2.1+/-0.2 spikes/s) and sham-neuropathic (1.9+/-0.3 spikes/s) rats. Furthermore, the spontaneous WDR activity recorded from CFA rats was also significantly greater (p<0.05) than neuropathic rats. Mechanical allodynia, as measured by application of a von Frey hair stimulus, was observed from both CFA and neuropathic rats, however, the degree of sensitivity was significantly greater (p<0.01) for the CFA animals. These data suggest that the differences in mechanical sensitivity between CFA and neuropathic rats may be related to their respective changes in WDR spontaneous activity, but not to the changes in receptive field size, and is further demonstration of the importance of spontaneous WDR activity in determining mechanical sensitivity following injury.