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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.
Ann Dermatol Venereol 2002 May;129(5 Pt 2):831-6
Alopecia areata: update on therapy
The management of patients with alopecia areata is obviously not restricted to the prescription of a treatment inducing hair growth. It requires thorough exploration (history of hair loss, treatments and concomitant pathologies), detailed clinical examination of the integument and palpation of the thyroid. The patient must, systematically, be given a simple explanation of his/her pathology, thus avoiding any feelings of mystery, hopelessness and guilt and hence paradoxically turning alopecia into "just another disease", even if flares are unpredictable and cannot always be treated. Innovations over the past few years have not met dermatologist's expectations: in particular immunosuppressors administered locally have not shown efficacy in human, as opposed to animal models of alopecia areata. Moreover, we must remain critical and rigorous with regard to "false" innovations: several recent publications are, methodologically, open to criticism. Older products provide clear descriptions of their indications and use, and relatively standardize the therapeutic approach to alopecia. Some of them lead to hair growth on the treated area: localized immuno-therapy that in certain cases induces hair growth where other treatments have failed. PUVA-therapy, however, because of frequent relapses on withdrawal and the characteristic recurrence of alopecia, rapidly leads to the use of high cumulative doses; balneo-PUVA therapy is effective with lower doses (PUVA-turban). Recently, UVB TL01 has shown efficacy in anecdotal studies. Local corticosteroids; notably injectable and anthralin, an old treatment which remains a useful therapeutic approach in alopecia areata plaques and in the ophiasic forms in children and adults. Finally, among the available treatment arms, systemic corticosteroids still have a place in recent extended forms: although still under experimentation, the bolus appears efficient during the primary episodes of alopecia areata, when administered within the first three months
Br J Dermatol 2002 Aug;147(2):222-9
Langerhans cells that express matrix metalloproteinase 9 increase in human dermis during sensitization to diphenylcyclopropenone in patients with alopecia areata.
BACKGROUND: We know little of the initial events during the sensitization phase of contact allergy in humans. Alopecia areata (AA), a disease of unknown pathogenesis characterized by patchy hair loss, may be treated by inducing contact allergy to diphenylcyclopropenone (DPC), later followed by its topical application. OBJECTIVES: To learn more about the initial events during sensitization in human skin, we studied the early events during induction of contact allergy to DPC in patients with AA. METHODS: DPC 2% and sodium lauryl sulphate (SLS) 4% were applied on the backs of eight patients with AA. Punch biopsies were taken 6 and 24 h after application. The biopsies were snap-frozen and cryostat sections were evaluated with immunohistochemistry using antibodies against CD1a, HLA-DR, CD3, CD54 and matrix metalloproteinase 9 (MMP-9). RESULTS: After 24 h all subjects exhibited erythema on the DPC-treated areas. Histological evaluation of biopsies from these areas showed hydropic degeneration and a significantly increased number of MMP-9+ cells in the dermis (P < 0.0005). The MMP-9+ cells were identified with double immunofluorescence staining as CD1a + Langerhans cells. The expression of the other markers studied remained unaltered irrespective of treatment, including treatment with SLS. CONCLUSIONS: Our findings show that DPC induces an irritant reaction leading to an increased number of MMP-9+ CD1a+ cells in the dermis during the initial phase of sensitization.
J Invest Dermatol 2002 Feb;118(2):216-25
Molecular mechanisms regulating hair follicle development.
Clinical conditions causing hair loss, such as androgenetic alopecia, alopecia areata, and scarring alopecia, can be psychologically devastating to individuals and are the target of a multimillion dollar pharmaceutical industry. The importance of the hair follicle in skin biology, however, does not rest solely with its ability to produce hair. Hair follicles are self-renewing and contain reservoirs of multipotent stem cells that are capable of regenerating the epidermis and are thought to be utilized in wound healing. Hair follicles are also the sites of origin of many neoplasias, including some basal cell carcinomas and pilomatricoma. These diseases result from inappropriate activation of signaling pathways that regulate hair follicle morphogenesis. Identification of the signaling molecules and pathways operating in developing and postnatal, cycling, hair follicles is therefore vital to our understanding of pathogenic states in the skin and may ultimately permit the development of novel therapies for skin tumors as well as for hair loss disease. The purpose of this review is to summarize recent progress in our understanding of the molecular mechanisms regulating hair follicle formation, and to discuss ways in which this information may eventually be utilized in the clinic.
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DHEA has been suggested to provide numerous potential benefits. DHEA (or dehydroepiandrosterone) is converted into androgens (male hormones)
or estrogens (female hormones) in the cells.
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various health benefits: To deter aging,
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