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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.


Support Care Cancer 2002 Oct;10(7):529-37

Efficacy and tolerance of a scalp-cooling system for prevention of hair loss and the experience of breast cancer patients treated by adjuvant chemotherapy.


The applicability and efficacy of a scalp cooling system were studied in 105 breast cancer patients receiving four cycles of adjuvant chemotherapy with mitoxantrone + cyclophosphamide (NC chemotherapy). Women accepting the scalp-cooling system were compared for alopecia both against those who refused and against a "reference" group of 109 patients similarly treated but without being offered a scalp-cooling system. Hair loss in the 105 study patients was evaluated by nurses using World Health Organization (WHO) criteria at each cycle of chemotherapy. Concomitantly, tolerance and side-effects of the helmet were also recorded in 48 accepting patients. Similarly to reference group patients, a subsample of 27 accepting patients self-assessed hair loss using a specific questionnaire measuring its frequency and severity and the distress associated with this symptom. Nurses' ratings ( n = 105) indicated that hair loss frequency was constantly lower, at each cycle of chemotherapy, in study patients with scalp-cooling system ( n = 77) than in those without ( n = 28). Differences between the two groups were statistically significant at cycles 1 and 3 ( P < 0.05). When compared with those reported by reference group patients ( n = 109), study patients' self-measures of alopecia frequency ( n = 27) provided even more marked results than those achieved by nurses (cycles 1-3: P < 0.01; cycle 4: P < 0.05). Tolerance was generally good and no scalp metastasis was observed among the 77 accepting patients followed up. This study demonstrates that scalp cooling was an effective method of protection against hair loss caused by NC chemotherapy. Its routine use as part of adjuvant chemotherapy, especially in cancers with low prevalences of scalp metastasis, should be seriously considered.


J Dermatol 2002 Jul;29(7):419-22

Frictional hair loss in Iraqi patients.


A total of 50 Iraqi male patients with frictional hair loss were studied. Their ages ranged from 27-55 years with a mean +/- SD of 40.60 +/- 7.82 years. The age of onset ranged from 26-50 years with a mean +/- SD of 38 +/- 7.3 years. The duration of disease was 1-5 years, mean +/- SD 2.2 +/- 1.3. Middle age was the most common age group affected. Patterns of hair loss were as follows; bilateral thighs & legs 13 (26%), bilateral thighs alone in 9 patients (18%), bilateral shins & calves (legs) in 4 patients (8%), abdomen alone in 8 patients (16%), thigh and abdomen 4 (8%) patients, legs & abdomen 4 (8%) patients, and all sites in 12 patients (24%). The pattern of patchy hair loss showed some etiological preference. It was found to be due to continuous pressure from socks, trousers and bed. Skin biopsies from five patients showed apparently normal histology. Twenty-six (52%) of the cases were healthy. There were no important medical or dermatological associations, such as alopecia areata or peripheral neuropathy in any patient although unrelated medical conditions were seen in 24 (48%). To the best of our knowledge, this type of patchy hair loss has attracted very little attention in the past, and the literature appeared to be deficient in references to this problem.


J Cutan Med Surg 2002 Jan-Feb;6(1):1-9

Effects of finasteride on apoptosis and regulation of the human hair cycle.


BACKGROUND: A number of studies have provided evidence that apoptosis is a central element in the regulation of hair follicle regression. In androgenetic alopecia (AGA), the exact location and control of key players in the apoptotic pathways remains obscure. OBJECTIVE: In the present study, we used a panel of antibodies and investigated the spatial and cellular pattern of expression of caspases and inhibitors of apoptosis (IAPs), such as XIAP and FLIP, in men with normal scalp and in men with AGA before and after 6 months of treatment with 1 mg oral finasteride treatment. METHODS AND RESULTS: Constitutive expression of caspases-1, -3, -8, and -9 and XIAP was detected predominantly within the isthmic and infundibular hair follicle area, basilar layer of the epidermis, and eccrine and sebaceous glands. AGA-affected tissues showed an increase in caspase (-1, -3, -6, -9) immunoreactivity with a concomitant decrease in XIAP staining. After 6 months of finasteride treatment, both caspases and XIAP were similar to levels exhibited by normal subjects. Immunoblot analysis was performed to determine antibody specificity and cellular expression of caspases. Purified populations of keratinocytes, melanocytes, dermal papilla, and dermal fibroblasts derived from human hair follicles were cultured in vitro and treated with 0.5 mm staurosporin. Time-course experiments revealed that processing of caspase-3 is a principal event during apoptosis of these hair cell types. CONCLUSION: These data suggest that alterations in levels of caspases and IAPs regulate hair follicle homeostasis. Moreover, finasteride appears to influence caspase and XIAP expression in hair follicle cells thus signaling anagen, active growth in the hair cycle.


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