Your search keyword '"Hair Follicle blood supply"' showing total 2 results

1. Alterations in Hair Follicle Morphology and Hair Shaft Production After Follicular Unit Transplantation.

Author

Azar RP, Thomas AH, Maurer M, and Lindner G

Subjects

Adult, Alopecia diagnosis, Alopecia pathology, Biopsy, Fluorescent Antibody Technique, Hair Follicle blood supply, Hair Follicle growth & development, Hair Follicle ultrastructure, Humans, Male, Microscopy, Electron, Scanning, Neovascularization, Physiologic, Scalp blood supply, Scalp growth & development, Scalp ultrastructure, Time Factors, Transplantation, Autologous, Treatment Outcome, Alopecia surgery, Hair Follicle transplantation, Scalp transplantation

Abstract

Follicular unit transplantation is the most commonly performed technique in modern restorative hair transplantation surgery. It relies on the acquisition of intact follicular units from microdissected scalp skin strips and their subsequent transplantation into the recipient regions affected by alopecia. Ideally, the translocation of follicular units from the balding-resistant areas of the scalp (usually the occipital region) to the recipient site should not result in any morphological change in the grafts. Nevertheless, the insults associated with surgical intervention present grafted follicles to mechanical and chemical cues differently from those of the physiological steady-state conditions in undamaged skin. This disruption of the normal follicular microenvironment might alter important aspects of hair biology in grafts, for example, hair cycle and pigmentation, and, in turn, could lead to differences in hair appearance, eventually culminating in a diminished esthetical outcome of the surgery. In this study, the authors analyzed native and grafted scalp hair follicles (HFs) from 2 patients who had undergone follicular unit transplantation surgeries formerly. Scanning electron microscopy and light microscopy-based histomorphometry revealed a marked enlargement of follicular structures in the grafts with a concomitant increase in hair shaft diameter. Immunohistological staining confirmed a thickening of the dermal sheath in transplanted HFs that also harbored a denser vascular network. Taken together, these results show that the grafted HFs analyzed were subjected to marked morphological changes during their residence in the recipient site and that this phenomenon is associated with a modulation of follicular vascularization.

Published

2016

2. Accelerated healing with a mesh autograft/allodermal composite skin graft treated with silver nylon dressings with and without direct current in rats.

Author

Chu CS, Matylevitch NP, McManus AT, Goodwin CW, and Pruitt BA Jr

Subjects

Animals, Burns physiopathology, Disease Models, Animal, Female, Guinea Pigs, Hair Follicle blood supply, Hair Follicle transplantation, Immunosuppression Therapy, Male, Nylons, Occlusive Dressings, Rats, Rats, Inbred ACI, Rats, Inbred Lew, Transplantation, Autologous, Anti-Infective Agents, Local therapeutic use, Burns therapy, Electricity, Silver therapeutic use, Skin Transplantation, Wound Healing

Abstract

Purpose: Evaluation of the healing and persistence of a meshed composite skin graft applied without immunosuppression., Methods: The contraction of wounds grafted with 9:1 split-thickness autograft/1.5:1 allodermal mesh composite skin grafts (auto/allo MCSGs) was investigated. No immunosuppressive agent was applied. Male ACI rats and female Lewis rats reciprocally served as allodermis graft donors and recipients. Autograft/dermal autograft and allograft/dermal allograft MCSGs were the controls., Results: AT 3 months after grafting, when epithelized auto/allo MCSG wounds were measured by computerized morphometric analysis, the silver nylon (SN) dressing group displayed less contraction than the Vaseline (petroleum jelly) dressing group (p < 0.003), and direct current treatment (SNDC) was more effective than SN (p < 0.005). The histologic structures of the hair follicles appear to confine the rejection process to the allogeneic follicles of the graft. The focal nature of the rejection process and the relatively low antigenicity of the dermal matrix allowed the survival of the allodermis layer. Although direct current significantly enhanced MCSG healing, SN and SNDC were not the immunosuppressive agents that were confirmed., Conclusion: This type of MCSG can heal without immunosuppressive treatment.

Published

2000