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J Am Acad Dermatol 2002 Nov;47(5):795

Female pattern hair loss.


In this issue of the Journal (pages 733-9), Shum et al1 describe 4 female patients with increased androgens whose central scalp hair loss responded to finasteride. This is an important observation and one that highlights why the term androgenetic or androgenic alopecia, as used to describe the hereditary pattern balding of men, should be replaced with the term female pattern hair loss when applied to women.2 It is clear that only a small but distinct subset of women with central scalp pattern hair loss, such as the patients presented in the report by Shum et al, has signs of hyperandrogenism such as acne, hirsutism, and irregular periods with or without elevation of serum androgens. Therefore these women may have hair loss resulting from a different mechanism and may respond differently to treatments targeted at androgen blockade than women with a similar type of hair loss but without evidence of hyperandrogenism. Certainly these women with hyperandrogenemia may develop, in contradistinction to those without hyperandrogenemia, a Hamilton pattern of hair loss (male pattern baldness). Many of these women may, on more careful evaluation, have polycystic ovarian syndrome.

It is not surprising that a 5-reductase inhibitor such as finasteride, which has documented efficacy in men with androgenetic alopecia3,4 and has been shown to advantageously affect hirsutism,5,6 may cause hair growth in women with female pattern hair loss and hyperandrogenism. The fact that finasteride has not previously been shown to induce hair growth in postmenopausal women with “androgenetic alopecia”7 speaks for (1) adoption of different terminology for this type of hair loss in women and (2) separate evaluation of the different subgroups of women with female pattern hair loss as recently described,2 that is, early onset with and without hyperandrogenemia and late onset/postmenopausal with and without hyperandrogenemia. We should not be too quick to rule out efficacy of a potential therapeutic agent in all women with female pattern hair loss without first testing it in all the various subsets of women.

Clearly, finasteride may be an effective treatment for women with early-onset female pattern hair loss and hyperandrogenemia, but definitive results would require a large, well-controlled trial. Such a trial would likely necessitate inclusion of a “placebo” run-in phase with an oral contraceptive, both to protect these women of child-bearing potential from getting pregnant while taking a drug known to cause genital abnormalities in male fetuses and to rule out any effect from the oral contraceptive alone on female pattern hair loss (a study that needs to be conducted in any case). Anecdotal reports, such as that presented by Shum et al,1 should ignite interest in evaluating finasteride and other 5-reductase inhibitors, either type II or combination type I/II, in women with female pattern hair loss, a group of patients whose current treatment options are extremely limited.


Rev Environ Health 2001 Jul-Sep;16(4):233-51

Adverse health effects of selenium in humans.


Epidemiologic studies and case reports have shown that chronic exposure to selenium compounds is associated with several adverse health effects in humans. An early toxic effect of selenium is on endocrine function, particularly on the synthesis of thyroid hormones following dietary exposure of around 300 micrograms Se/d, and on the metabolism of growth hormone and insulin-like growth factor-1. Other adverse effects of selenium exposure can be the impairment of natural killer cells activity and at higher levels, hepatotoxicity and gastrointestinal disturbances. Dermatologic effects, such as nail and hair loss and dermatitis, occur after exposure to high levels of environmental selenium. Assessing the toxicity and morbidity after long-term exposure to environmental selenium is difficult: neurotoxicity, particularly the degeneration of motor neurons leading to increased risk of amyotrophic lateral sclerosis, might occur after chronic exposure to both organic and inorganic selenium compounds. The results of laboratory investigations and cohort studies suggest that selenium species exhibit a bivalent effect in cancer, either increasing or decreasing risk. Current environmental selenium exposure limits appear to be inadequate for averting adverse health effects.


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.


Clin Immunol. 2003 Mar;106(3):181-7.

Transfer of alopecia areata in the human scalp graft/Prkdc(scid) (SCID) mouse system is characterized by a TH1 response.


Alopecia areata is an autoimmune condition directed at hair follicles, which results in loss of hair. We have previously demonstrated that it is possible to transfer hair loss, along with the immunohistologic findings of alopecia areata, to human scalp grafts on Prkdc(scid) (SCID) mice by injection of autologous activated lesional T-cells. This study examines the cytokine profile of T-cells and follicular epithelium following transfer of hair loss. Two consistent findings significantly (P < 0.01) associated with hair loss were production of interferon-gamma-inducible protein-10 kDa (IP-10) by follicular epithelium (13/13), and production of INF-gamma by infiltrating T-cells (10/12). Noninjected control grafts regrew hair, and were generally negative for IP-10 (positive 2/9), and INF-gamma (positive 2/9), but expressed of IL-10 on the follicular epithelium (7/9). These data support an INF-gamma TH1 pathogenesis for hair loss in alopecia areata.


Hair growth is a sophisticated biological process, which is still not thoroughly understood. A multitude of therapeutic measures, including drugs, surgery, and suppelements have been made available, and used. However, due to the diversity of the problems underlying hair loss, there is no single solution for all hair loss cases. Most of chemical drugs and hair transplantation surgeries are not free from varying degrees of undesirable side effects on health.

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