Chemotherapeutic Agent-Induced Vulvodynia, an Experimental Model.

Vulvodynia is a chronic clinical condition associated with vulvar pain that can impair the sexual, social, and psychological life of women. There is a need for more research to develop novel strategies and therapies for the treatment of vulvodynia. Vulvodynia in experimental animal models induced via infections, allergens, and diabetes are tedious and with lessor induction rate. The objective of the study was to explore the possibility of inducing vulvodynia using a chemotherapeutic agent in a rodent model. Paclitaxel is commonly used in treating breast and ovarian cancer, whose dose-limiting side effect is peripheral neuropathy. Studies have shown that peripheral neuropathy is one of the etiologies for vulvodynia. Following paclitaxel administration (2 mg/kg i.p.), the intensity of vulvar hypersensitivity was assessed using a series of von Frey filaments (0.008 to 1 g) to ensure the induction of vulvodynia. Vulvodynia was induced from day 2 and was well sustained for 11 days. Furthermore, the induced vulvodynia was validated by investigating the potentiation of a flinch response threshold, upon topical application and systemic administration of gabapentin, a commonly used medication for treating neuropathic pain. The results demonstrate that vulvodynia was induced due to administration of paclitaxel. The fact that chemotherapeutic agent-induced vulvodynia was responsive to topical and parenterally administered gabapentin provides validity to the model. The study establishes a new, relatively simple and reliable animal model for screening drug molecules for vulvar hypersensitivity.