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Clinical Trial Summary

The investigators have extensive evidence in mouse that wounding leads to the generation of new hair follicles in the skin. This can be an important new therapy for patients with scarring, but especially those with alopecia. The question is whether gentle wounding in human subjects can cause the generation of a new hair follicle. The plan is to first carefully map a small area of the scalp without hair follicles. Investigators will then try various modalities of gentle wounding (including fractionated Carbon Dioxide (CO2) laser, mild curetting) of the surface epithelium in the presence and absence of FDA approved topical medications (including retinoids). Investigators will then prospectively monitor the area for hair growth both by noninvasive visual monitoring (including photographs and dermoscopy) and biopsies. The outcomes of this study hopefully will allow new therapies for especially scarring alopecia conditions where hair follicles are completely lost and there are no current therapies.


Clinical Trial Description

Central centrifugal cicatricial alopecia (CCCA) is a scarring, inflammatory alopecia seen more commonly in women of African descent. The distinct pathophysiology of CCCA is poorly understood, but it is known to involve inflammation directed at the upper part of the hair follicle where the stem cells and sebaceous gland are located. If the stem cells and sebaceous gland are destroyed, there is no possibility for regeneration of the hair follicle, and permanent hair loss results. This form of scarring alopecia occurs mainly on the vertex of the scalp, and spreads peripherally, and can lead to baldness. In our dermatology clinics, our investigators see 5-10 patients per week for evaluation and treatment of CCCA. Currently, treatment is focused on decreasing inflammation and halting the progression of disease. This typically consists of topical and intralesional corticosteroid therapy and anti-inflammatory antibiotics. Hair transplantation is the only treatment option for patients with end-stage CCCA, and has been performed in a small number of patients but the results have been disappointing with low graft survival rates and slow regrowth of the transplanted hair. In addition, hair transplantation of the curved hair follicles found in patients of African descent is difficult and requires specific expertise. A study by Ito et al showed de novo hair follicle formation after wounding in genetically normal adult mice. The regenerated hair follicles were fully functional, in that they established a stem cell population, expressed known molecular markers of follicle differentiation, and produced a hair shaft that progressed normally through all stages of the hair follicle cycle. It is hypothesized that the regenerated hair follicles likely arise when epithelial cells in the wound assume a hair follicle stem cell phenotype, possibly under the influence of Wnt signaling. The CO2 laser has been used extensively in dermatological surgery over the past 30 years and is now recognized as the gold standard for soft tissue vaporization. CO2 laser beam heats and vaporizes the skin tissue, instantly removing the superficial layers of the skin. Each fractional micro-spot creates a thermal zone. Intact cells around the treated area help during the healing process which in turn, induces cell regeneration. This likely occurs through dsRNA released during wounding. The investigators have recently found that retinoids, such as the tretinoin (retin-A) used in acne, can synergize with dsRNA and promote extra Wnt signaling. The investigators therefore hypothesize that wounding of the area of scarring alopecia in CCCA, using a fractionated CO2 laser in combination with retinoid acid, will induce hair follicle regeneration. ;


Study Design


Related Conditions & MeSH terms

  • Alopecia
  • Central Centrifugal Cicatricial Alopecia (CCCA)

NCT number NCT03491267
Study type Interventional
Source Johns Hopkins University
Contact
Status Enrolling by invitation
Phase Early Phase 1
Start date January 1, 2018
Completion date December 31, 2025

See also
  Status Clinical Trial Phase
Recruiting NCT04207931 - Treatment Results for Patients With Central Centrifugal Cicatricial Alopecia (CCCA): a Multicenter Prospective Study Phase 4