The time course of brief and prolonged topical 8% capsaicin-induced desensitization in healthy volunteers evaluated by quantitative sensory testing and vasomotor imaging.

Abstract

Topically applied high-concentration capsaicin induces reversible dermo-epidermal denervation and depletion of capsaicin-sensitive nociceptors. This causes desensitization of distinct sensory modalities and is used to treat peripheral neuropathic pain and itch. For high-concentration capsaicin, the selectivity of loss of function and functional recovery rates of various afferent fibers subpopulations are unknown. This study used comprehensive quantitative sensory testing and vasomotor imaging to assess effectiveness, duration and sensory selectivity of high-concentration 8% capsaicin-ablation. Skin areas in 14 healthy volunteers were randomized to treatment with 8% capsaicin/vehicle patches for 1 and 24h and underwent comprehensive sensory and vasomotor testing at 1, 7 and 21days postpatch removal. Tests consisted of thermal detection and pain thresholds, tactile and vibration detection thresholds, mechanical pain threshold and mechanical painsensitivity as well as micro-vascular and itch reactivity to histamine provocations. The 24h capsaicin drastically inhibited warmth detection (P < 0.001), heat pain (P < 0.001) as well as histamine-induced itch (P < 0.05) and neurogenic flare (P < 0.001), but had no impact on tactile sensitivity, cold detection and cold pain. A marginal decrease in mechanical pain sensitivity was observed (P < 0.05). Capsaicin for 1h had limited and transient sensory effects only affecting warmth and heat sensations. Time-dependent functional recovery was almost complete 21 days after the 24h capsaicin exposure, while recovery of neurogenic inflammatory responsiveness remained partial. The psychophysically assessed sensory deficiencies induced by the used 8% capsaicin-ablation correspond well with a predominant effect on TRPV1+-cutaneous fibers. The method is easy to apply, well tolerated, and utilizable for studies on, e.g., interactions between skin barrier, inflammation and capsaicin-sensitive afferents.