High spontaneous activity of C-nociceptors in painful polyneuropathy

Ongoing pain in peripheral neuropathy is linked to spontaneous activity in mechanoinsensitive nociceptors. The molecular mechanism differentiating painful from nonpainful neuropathy is still unclear. Polyneuropathy can be linked to chronic pain but also to reduced pain sensitivity. We investigated peripheral C-nociceptors in painful and painless polyneuropathy patients to identify pain-specific changes. Eleven polyneuropathy patients with persistent spontaneous pain and 8 polyneuropathy patients without spontaneous pain were investigated by routine clinical methods. For a specific examination of nociceptor function, action potentials from single C-fibres including 214 C-nociceptors were recorded by microneurography. Patients with and without pain were distinguished by the occurrence of spontaneous activity and mechanical sensitization in C-nociceptors. The mean percentage of C-nociceptors being spontaneously active or mechanically sensitized was significantly higher in patients with pain (mean 40.5% and 14.6%, respectively, P=.02). The difference was mainly due to more spontaneously active mechanoinsensitive C-nociceptors (operationally defined by their mechanical insensitivity and their axonal characteristics) in the pain patients (19 of 56 vs 6 of 43; P=.02). The percentage of sensitized mechanoinsensitive C-nociceptors correlated to the percentage of spontaneously active mechanoinsensitive C-nociceptors (Kendall’s tau=.55, P=.004). Moreover, spontaneous activity of mechanoinsensitive C-nociceptors correlated to less pronounced activity-dependent slowing of conduction (Kendall’s tau=−.48, P=.009), suggesting that axons were included in the sensitization process. Hyperexcitability in mechanoinsensitive C-nociceptors was significantly higher in patients with polyneuropathy and pain compared to patients with polyneuropathy without pain, while the difference was much less prominent in mechanosensitive (polymodal) C-nociceptors. This hyperexcitability may be a major underlying mechanism for the pain experienced by patients with painful peripheral neuropathy.