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Dermatol Surg 2002 Nov;28(11):1035-42; discussion 1042
A philosophy and strategy for surgical hair restoration: a 10-year experience.
BACKGROUND: Three principal strategies have evolved for surgical hair restoration: follicular grafting, scalp reduction, and flap rotation. OBJECTIVE: Although grafting techniques have assumed a preeminent rank as the cornerstone of modern hair-replacement therapy, scalp reduction and rotation methods should not be entirely dismissed. METHODS: Over the past 10 years of clinical experience, the authors have relied on all three methods of hair restoration, carefully tailoring the optimal surgical approach to the patient's expressed concerns and particular regional hair deficit. RESULTS: We have found that scalp reduction and rotation provides a considerable density of hair unmatched by any grafting technique for the vertex and frontotemporal regions, respectively. CONCLUSION: Also we have concluded that the former yields the most natural result for a patient with significant crown baldness who desires hair restoration in that area. However, micro- and minigrafting still represent the overwhelming majority of our operative cases. This article attempts to review the surgical methodology and philosophy that have guided our approach to hair restoration.
Ann Dermatol Venereol 2002 May;129(5 Pt 2):787-92
Hormonal interaction and hair growth
Androgenetic alopecia (AGA) is the most common form of hair loss in men and women. This continuous process results in a form of alopecia that follows a definite pattern in those individuals who are genetically predisposed. Although clinically different, the pathogenetic pathways leading to this type of hair loss are thought to be similar in both sexes. A genetic predisposition is a feature of AGA, but the predisposing genes are still unknown. Our understanding, however, of the hormonal effects on hair growth is far more advanced. AGA can be defined as a dihydrotestosterone (DHT)-dependent process with continuous miniaturization of sensitive hair follicles. So far, we do not understand the molecular steps involved in androgen-dependent beard growth versus androgen-dependent hair loss. However, the local androgen metabolism plays a central role in the intrafollicular conversion of weak androgens, such as DHEAS, to more potent androgens such as T or DHT within the hair follicle. The dermal papilla plays a central role by exhibiting an array of important steroidogenic isoenzymes. Provided that the dermal papilla (DP) cell triggers and regulates the growth of hair follicles, this physiological role may be reflected by metabolic differences, which could account for differences in androgen sensitivity as observed in hair follicles from different body sites, and in conditions such as male pattern baldness. The observation of STS, 17beta-HSD, 3beta-HSD, 3alpha-HSD and type 2 5alpha-R-activity within the DP could be a clue to understanding the regulation of androgen action in the human hair follicle by local androgen modification on target cell level. Hence, some of the intrafollicular steroidogenic enzymes would be potential pharmaceutical targets for the treatment of AGA or hirsutism.
J Dermatol Sci 2002 Aug;29(2):85-90
Antioxidant enzymes and lipid peroxidation in the scalp of patients with alopecia areata.
Alopecia areata (AA) is an autoimmune inflammatory disease. However, little is known about the alterations in lipid peroxidation and antioxidant enzymes in the scalp of patients with AA. Therefore, the aim of this study was to investigate the status of oxidative stress in the scalp of patients with AA. We measured the levels of thiobarbituric acid reactive substances (TBARS) as lipid peroxidation status, superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) as antioxidant enzymes in the scalp of ten patients with AA and ten control subjects. The levels of TBARS in scalp of patients with AA (3654.1+/-621.2 nmol/g tissue) were significantly higher than those of controls (1210.2+/-188.8 nmol/g tissue) (P=0.002). The levels of SOD (134.8+/-23.8 U/g tissue) and GSH-Px (332.7+/-66.2 U/g tissue) in scalp of patients with AA were also significantly higher than those of controls (63.2+/-8.8 U/g tissue, 112.0+/-18.4 U/g tissue, respectively) (P=0.019, P=0.002, respectively). The mean levels of TBARS, SOD and GSH-Px in early phase of disease were increased 2-fold as compared with late phase of the disease. These results indicate that oxidative status is affected in AA. Lipid peroxidation and antioxidant enzymes may be involved in the pathogenesis of AA. Furthermore, we found high SOD and GSH-Px activities in the scalp of patient with AA. These high levels could not protect the patients against the reactive oxygen species, because lipid peroxidation could not be lowered in AA patients.
J Invest Dermatol 2001 Dec;117(6):1342-8
Steroid sulfatase in the human hair follicle concentrates in the dermal papilla.
5 alpha-dihydrotestosterone is known to play a crucial part in the regulation of hair growth and in the development of androgenetic alopecia. 5 alpha-dihydrotestosterone is formed locally within the hair follicle from the systemic precursor testosterone by cutaneous steroid 5 alpha-reductase. Moreover, adrenal steroids such as dehydroepiandrosterone are converted to 5 alpha-dihydrotestosterone by isolated hair follicles, which may provide an additional source of intrafollicular 5 alpha-dihydrotestosterone levels. Elevated urinary dehydroepiandrosterone and serum dehydroepiandrosterone sulfate have been reported to be present in balding young men. These reports suggest that dehydroepiandrosterone sulfate may act as an important endocrine factor in the development of androgenetic alopecia. Hence the question arises whether the dehydroepiandrosterone sulfate can be metabolized within the hair follicles to yield dehydroepiandrosterone by the microsomal enzyme steroid sulfatase, and where steroid sulfatase might be localized. We therefore performed immunostaining for steroid sulfatase on human scalp biopsies as well as analysis of steroid sulfatase enzyme activity in defined compartments of human beard and occipital hair follicles ex vivo. Using both methods steroid sulfatase was primarily detected in the dermal papilla. Steroid sulfatase activity was inhibited by estrone-3-O-sulfamate, a specific inhibitor of steroid sulfatase, in a concentration-dependent way. Furthermore, we show that dermal papillae are able to utilize dehydroepiandrosterone sulfate to produce 5 alpha-dihydrotestosterone, which lends further support to the hypothesis that dehydroepiandrosterone sulfate contributes to androgenetic alopecia and that steroid sulfatase inhibitors could be novel drugs to treat androgen-dependent disorders of the hair follicle such as androgenetic alopecia or hirsutism.
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