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Bone Marrow Transplant 2002 Nov;30(9):593-7
Relationship between irreversible alopecia and exposure to cyclophosphamide, thiotepa and carboplatin (CTC) in high-dose chemotherapy.
Reversible alopecia is a commonly observed, important and distressing complication of chemotherapy. Permanent alopecia, however, is rare after standard-dose therapy, but has occasionally been observed after high-dose chemotherapy with cyclophosphamide, thiotepa and carboplatin (CTC). We evaluated the relationships between total exposure to these three compounds and their different metabolites in the high-dose CTC regimen, and the subsequent development of irreversible alopecia. Twenty-four patients received two or three courses of high-dose CTC, each followed by peripheral blood progenitor cell transplantation. Plasma levels of cyclophosphamide, its active metabolite 4-hydroxycyclophosphamide, thiotepa, its active metabolite tepa, and carboplatin were determined, and the area-under-the-plasma concentration-versus-time curves (AUC) of the compounds were calculated. Eight of the 24 patients included in the study developed permanent alopecia, while seven had normal hair regrowth and nine patients developed incomplete and/or thin hair regrowth. The carboplatin AUC and the summed AUC of thiotepa and tepa were both significantly associated with increasing irreversibility of hair loss. These results suggest that high exposure to carboplatin and the sum of the thiotepa and tepa exposure may lead to the development of permanent alopecia. This knowledge could guide therapeutic drug monitoring in order to prevent the occurrence of permanent alopecia and thereby improve the patients' quality of life.
Ann Dermatol Venereol 2002 May;129(5 Pt 2):783-6
Implication of VEGF, steroid hormones and neuropeptides in hair follicle cell responses
Human hair follicles progress independently through the anagen, catagen, telogen and latency phases that correspond to growth arrest and hair shedding before initiation of a new anagen phase. Hair follicles are self-renewing and contain reservoirs of multi-potent stem cells. Identification of the messenger molecules and pathways operating in the growth and cycling of hair follicles, have provided substantial data. However, only a limited number of these signals is well understood. The specific response of hair follicle cells to these signals is correlated with the expression of their corresponding receptors. What regulates these responses? In this review, we will focus on the hair cycle and its control mechanisms. We will provide some elements in answer to these questions and present some of the markers of hair follicle cells, and hormonal and vascular growth factors, which may regulate respectively hair follicle cell metabolism and cycle, and the neuropeptide impact on hair follicle response and hair growth. The results of our study show the modifications in various expression patterns of receptors in dermal papilla cells, and demonstrate the cross-interaction between these different components. In conclusion, we present an accumulation of evidence suggesting that the regulation of hair growth requires a combination of hormonal, vascular and neuropeptide approaches that will provide further insight in defining new treatments for hair loss.
: Gynecol Endocrinol 2002 Jun;16(3):213-6
Ovarian steroid cell tumor and a contralateral ovarian thecoma in a postmenopausal woman with severe hyperandrogenism.
A 49-year-old woman presented with rapidly progressing hirsutism, receding hairline, male-pattern baldness and deepening of voice, which had developed over the past 2 years. Hormonal evaluation showed a markedly elevated serum testosterone level (418 ng/dl) and no evidence of increased production of cortisol, dehydroepiandrosterone, dehydroepiadrosterone-sulfate, androstenedione, or 17-hydroxyprogesterone. Transvaginal ultrasound examination suggested the presence of a small mass within the left ovary, but all other radiological studies, including adrenal and ovarian computed tomography, magnetic resonance imaging, radio-labelled cholesterol scintigraphy and positron emission tomography, were negative. Subsequently, bilateral selective venous sampling showed a marked testosterone gradient in the right ovarian vein. Bilateral salpingo-oophorectomy was performed (the patient had had a previous vaginal hysterectomy), and histopathological examination revealed a 10-mm steroid cell tumor within the right ovary and a 15-mm thecal cell tumor within the left ovary. The postoperative serum testosterone level returned to normal and the patient showed a slow regression of clinical symptoms. The simultaneous occurrence of a virilizing ovarian steroid cell tumor and an apparently non-functioning thecoma within the contralateral ovary emphasizes the potential pitfalls that may exist in the preoperative evaluation of patients with markedly increased testosterone production.
Dermatol Online J. 2003 Feb;9(1):4.
Pilot study of a novel treatment for androgenetic alopecia using enriched cell culture medium: clinical trials.
Androgenetic Alopecia (AA) afflicts a large part of the population and of the many treatments available today none is completely satisfactory. Testing the efficacy and safety of a novel topical treatment for AA which is based on cell culture medium supplemented with insulin, thyroxin and growth hormone (CCM). The 48 participants classified as androgenetic alopecia Type II, III or IV on the Hamilton scale, concluded a randomized, vehicle-controlled, double-blind trial of 6 months duration. Under occlusive cover the gel was self applied for at least 3 hours daily. Evaluation was based on hair counts, investigator global assessment and participants self-administered questionnaire. Cessation of hair loss was reported by most participants within 28 weeks, and further confirmed by the hair count (HC) in ~80% of participants. Moreover, as early as 4 months after the start of the treatment, a time dependent increase of up to 50% in HC was observed. The average change in HC between the two groups differed significantly (p=0.007), with values of 4.1% for control and 13.8% for CCM. Following 4 months of treatment, a time dependent increase in HC (>10%) above minimal was observed in 55% of the CCM and 25% of the control and this trend continued. At 6 months 63% of the CCM and 33% of the control group exhibited increase of HC higher than 10%. The average increase in HC in the CCM and the control groups was 17.1% and 8.9% respectively (p=0.035). Self evaluation questionnaires revealed a time dependent increase in satisfaction in the CCMusers compared to the control. While the average score at T2 was similar in CCM and control (2.7 and 2.6 respectively), the score at T6 in the CCM increased to 5.9 and decreased to -0.4 in the control (p=0.007). Global-clinical evaluation following six months treatment revealed significantly (p=0.02) more hair loss in the control group (40%) compared to the CCM (7%) treated group. CCM was found effective in treating androgenetic alopecia in men. It induced cessation of hair loss, increased rate of hair growth and appearance of new hair. No side effects were reported or observed.
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.
Hair Million is an alternative solution to hair loss problems. Anecdotally, it shows prositive results and improvement especially for age-related hair thinning and hair loss for a fraction of people who take it. We do not know the mechanisms of action as to how Hair Million works to help stop hair loss, and promote hair growth.
We only know by anecdotal observations. There has been no clinical trials nor placebo controlled statistical analysis on the efficacy of Hair Million on hair loss and hair growth.
For the clinically tested, FDA approved prescription medication, check Propecia.
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.
Our bodies produce decreasing amount of DHEA as we get older.
various health benefits: To deter aging,
improve sexual function/erectile dysfunction, treat cognitive decline, enhance athletic performance,
facilitate weight loss, improve strength, prevent osteoporosis, enhance immunomodulation for rheumatic conditions,
and treat depression.
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