Actor Yul Brynner's trademark was his completely bald head, much of which was shaven.Actor Patrick Stewart's bald head is considered part of his distinctive attractiveness.Gorillas evolved anatomically enlarged foreheads to convey increased status and maturity.Retired NASA Astronaut Story Musgrave.Alopecia universalis victim John D. Rockefeller, with toupee
Find information on thousands of medical conditions and prescription drugs.

Alopecia

Alopecia, commonly known as baldness, is a set of disorders which involves the state of lacking hair where it would normally grow, especially on the head. The most common form of baldness is a progressive hair-thinning condition that occurs in adult humans and other primate species. more...

Home
Diseases
A
Aagenaes syndrome
Aarskog Ose Pande syndrome
Aarskog syndrome
Aase Smith syndrome
Aase syndrome
ABCD syndrome
Abdallat Davis Farrage...
Abdominal aortic aneurysm
Abdominal cystic...
Abdominal defects
Ablutophobia
Absence of Gluteal muscle
Acalvaria
Acanthocheilonemiasis
Acanthocytosis
Acarophobia
Acatalasemia
Accessory pancreas
Achalasia
Achard syndrome
Achard-Thiers syndrome
Acheiropodia
Achondrogenesis
Achondrogenesis type 1A
Achondrogenesis type 1B
Achondroplasia
Achondroplastic dwarfism
Achromatopsia
Acid maltase deficiency
Ackerman syndrome
Acne
Acne rosacea
Acoustic neuroma
Acquired ichthyosis
Acquired syphilis
Acrofacial dysostosis,...
Acromegaly
Acrophobia
Acrospiroma
Actinomycosis
Activated protein C...
Acute febrile...
Acute intermittent porphyria
Acute lymphoblastic leukemia
Acute lymphocytic leukemia
Acute mountain sickness
Acute myelocytic leukemia
Acute myelogenous leukemia
Acute necrotizing...
Acute promyelocytic leukemia
Acute renal failure
Acute respiratory...
Acute tubular necrosis
Adams Nance syndrome
Adams-Oliver syndrome
Addison's disease
Adducted thumb syndrome...
Adenoid cystic carcinoma
Adenoma
Adenomyosis
Adenosine deaminase...
Adenosine monophosphate...
Adie syndrome
Adrenal incidentaloma
Adrenal insufficiency
Adrenocortical carcinoma
Adrenogenital syndrome
Adrenoleukodystrophy
Aerophobia
Agoraphobia
Agrizoophobia
Agyrophobia
Aicardi syndrome
Aichmophobia
AIDS
AIDS Dementia Complex
Ainhum
Albinism
Albright's hereditary...
Albuminurophobia
Alcaptonuria
Alcohol fetopathy
Alcoholic hepatitis
Alcoholic liver cirrhosis
Alektorophobia
Alexander disease
Alien hand syndrome
Alkaptonuria
Alliumphobia
Alopecia
Alopecia areata
Alopecia totalis
Alopecia universalis
Alpers disease
Alpha 1-antitrypsin...
Alpha-mannosidosis
Alport syndrome
Alternating hemiplegia
Alzheimer's disease
Amaurosis
Amblyopia
Ambras syndrome
Amelogenesis imperfecta
Amenorrhea
American trypanosomiasis
Amoebiasis
Amyloidosis
Amyotrophic lateral...
Anaphylaxis
Androgen insensitivity...
Anemia
Anemia, Diamond-Blackfan
Anemia, Pernicious
Anemia, Sideroblastic
Anemophobia
Anencephaly
Aneurysm
Aneurysm
Aneurysm of sinus of...
Angelman syndrome
Anguillulosis
Aniridia
Anisakiasis
Ankylosing spondylitis
Ankylostomiasis
Annular pancreas
Anorchidism
Anorexia nervosa
Anosmia
Anotia
Anthophobia
Anthrax disease
Antiphospholipid syndrome
Antisocial personality...
Antithrombin deficiency,...
Anton's syndrome
Aortic aneurysm
Aortic coarctation
Aortic dissection
Aortic valve stenosis
Apert syndrome
Aphthous stomatitis
Apiphobia
Aplastic anemia
Appendicitis
Apraxia
Arachnoiditis
Argininosuccinate...
Argininosuccinic aciduria
Argyria
Arnold-Chiari malformation
Arrhythmogenic right...
Arteriovenous malformation
Arteritis
Arthritis
Arthritis, Juvenile
Arthrogryposis
Arthrogryposis multiplex...
Asbestosis
Ascariasis
Aseptic meningitis
Asherman's syndrome
Aspartylglycosaminuria
Aspergillosis
Asphyxia neonatorum
Asthenia
Asthenia
Asthenophobia
Asthma
Astrocytoma
Ataxia telangiectasia
Atelectasis
Atelosteogenesis, type II
Atherosclerosis
Athetosis
Atopic Dermatitis
Atrial septal defect
Atrioventricular septal...
Atrophy
Attention Deficit...
Autoimmune hepatitis
Autoimmune...
Automysophobia
Autonomic dysfunction
Familial Alzheimer disease
Senescence
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
Medicines

Nonetheless, the severity and nature of condition can vary greatly; it ranges from male and female pattern alopecia (alopecia androgenetica), to alopecia areata, which involves the loss of some of the hair from the head, alopecia totalis, which involves the loss of all head hair, to the most extreme form, alopecia universalis, which involves the loss of all hair from the head and the body. Treatment for alopecia has limited success. The more hair lost, the less successful the treatment will be. The psychological implications of alopecia include stress, anxiety and depression, and can in many cases involve issues relating to identity change, particularly when the eyebrows and eyelashes are also lost. Hair loss is sometimes the result of chemotherapy treatment for cancer sufferers.

Male pattern baldness is thought to occur in varying forms in about 66% of adult males at some point in their lives. It is characterized by hair receding from the lateral sides of the forehead, known as "receding hairline" or "receding brow." An additional bald patch may develop on top (vertex). The trigger for this type of baldness, which is also known as androgenic alopecia, is currently believed to be 5-alpha reductase, an enzyme that converts the hormone testosterone into dihydrotestosterone (DHT), which, in genetically-prone hairs on the scalp, inhibits hair growth. Onset of hair loss sometimes begins as early as end of puberty, and is mostly genetically determined. Male pattern baldness is classified on the Hamilton-Norwood scale I-VIII.

Female pattern baldness, in which the midline parting of the hair appears broadened, is less common. It is believed to result from a decrease in estrogen, a hormone that normally counteracts the balding effect of testosterone, which normally occurs in women's blood. Female pattern baldness is being classified on the Ludwig scale I-III.

There are several other kinds of baldness. Traction alopecia is most commonly found in people with ponytails or cornrows that pull on their hair with excessive force. Wearing a hat shouldn't generally cause this, though it is a good idea to let your scalp breathe for 7 hours a day. Traumas such as chemotherapy, childbirth, major surgery, poisoning, and severe stress may cause a hair loss condition known as telogen effluvium. Some mycotic infections can cause massive hair loss. Alopecia areata is an autoimmune disorder also known as "spot baldness" that can result in hair loss ranging from just one location (Alopecia areata monolocularis) to every hair on the entire body (Alopecia areata universalis).

Etymology

The term alopecia (al-oh-PEE-she-uh) is formed from the Greek αλωπηζ (alopex), meaning fox. The origin of this usage is because this animal changes its hair two times a year.

Read more at Wikipedia.org


[List your site here Free!]


Effective treatment of female androgenic alopecia with dutasteride
From Journal of Drugs in Dermatology, 9/1/05 by Malgorzata Olszewska

Abstract

Dihydrotestosterone is the main molecule responsible for androgenic alopecia. Finasteride, which reduces transformation of testosterone into dihydrotestosterone and decreases dihydrotestosterone activity, is approved for treatment of androgenic alopecia in men. We describe the case of a 46-year-old woman with androgenic alopecia, non-responsive to minoxidil, who initially benefited from finasteride. Due to only limited improvement after finasteride and persisting profound psychological distress resulting from androgenic alopecia, another 5-reductase inhibitor, dutasteride, was introduced. Clinical evaluation and trichogram were applied for assessment of dutasteride efficacy in this patient. Additionally, mean hair diameter was monitored by means of computer dermoscopy. After 6 months of therapy, significant improvement was observed and after 9 months the clinical diagnosis of androgenic alopecia could no longer be made in this patient. No side effects were observed. In conclusion, theoretical data and our experience in this case show that dutasteride might develop into a true alternative in treatment of androgenic alopecia.

Introduction

It is universally accepted that dihydrotestosterone (DHT) is responsible for androgenic alopecia (AGA) in men and women. (1-3) DHT induces miniaturization of hair and hair follicles by accelerating the mitotic rate of the matrix, by shortening hair cycle and increasing telogen shedding, as well as by increasing the duration of the lag phase or ketogen. (1,2) Thus, attempts have been made to reduce DHT activity in patients with androgenic alopecia by applying inhibitors of the enzyme 5-reductase, which transforms testosterone into dihydrotestosterone (DHT). Finasteride, an inhibitor of 5-reductase type 2 isoenzyme is now widely used for treatment of AGA in men. Also, the use of finasteride for AGA in women is increasingly gaining interest. (1,2)

Dutasteride is another 5-reductase inhibitor. It has the capability of inhibiting both isoenzymes, type 1 and type 2 of 5-reductase, and induces an even more significant reduction of serum DHT. (1) This molecule, however, has not yet been used for management of AGA.

Case Report

We describe a 46-year-old woman, who suffered from gradually progressive, diffuse loss of hair over the vertex and slow recession of the frontal hairline from the age of 39. Trichogram results, summarized in Figure 1, showed the presence of 44% telogen hair with an anagen/telogen ratio of 0.84/1. Histopathology from two sites showed partly fibrous root sheath remnants below miniaturized follicles with no perifollicular infiltrates, which confirmed the diagnosis of AGA. Dermoscopy of the affected scalp also revealed characteristic features of AGA, including variable hair diameter and hair miniaturization with a mean diameter of hair below 0.04 mm at the vertex and the front line area, as compared to 0.08 mm at the occipital area. The method of hair diameter assessment is presented in Figure 2. Dermoscopy also showed that follicle density at the vertex was 150 per square centimeter, which is significantly below normal values ranging from 300 to 400.

All basic laboratory data, including serum levels of dehydroepiandrosterone sulfate, androstedione and free testosterone were within normal range. From the age of 43 the patient received cyproterone acetate and ethinyl estradiol for contraception. According to anamnesis the treatment had no effect on disease progression.

The patient received topical 2% minoxidil therapy twice daily for 4 months with no improvement. Also, no improvement could be observed after introduction of 5% minoxidil twice daily for the next 2 months. The disease progressed and at this point the diagnosis of AGA type II/III according to Ludwig classification (1) could be made. Due to the lack of response and based on our previous positive experience in other female patients (unpublished data), as well as available literature (6,7) finasteride at the dose of 1 mg per day was introduced. After 3 months of therapy slow improvement could be noticed. Clinical picture and patient's satisfaction were slightly improved. As shown in Figure 1, this improvement was accompanied by changes in trichogram. Despite treatment continuation for another 3 months, no further improvement could be observed thereafter. At this point, the diagnosis of AGA type I/II according to Ludwig classification could be made.

[FIGURE 1 OMITTED]

Despite some improvement as compared to values upon introduction of treatment, the patient still experienced profound anxieties and distress due to persistent AGA and awaited further improvement.

Due to the lack of further improvement, finasteride was discontinued and another 5-[alpha] reductase inhibitor, dutasteride, at the dose of 0.5 mg per day was introduced. The patient received no other treatment either for AGA or for any other condition, accept continuation of cyproterone acetate and ethinyl estradiol for contraceptive purposes.

[FIGURE 2 OMITTED]

After 6 months of treatment an improvement in clinical picture, trichogram, hair diameter, and follicle density could be observed. After a total of 12 months of dutasteride therapy, the clinical diagnosis of AGA could no longer be made in this patient and trichogram values returned to normal. At dermoscopy, hair appeared thicker (with a mean of 0.073 in the vertex area and 0.065 at hair front line) and the initial significant variability in hair diameter was not observed. After a total of 12 months, dutasteride was discontinued and the patient remains free of AGA symptoms for several weeks after discontinuation.

No side effects were observed in this patient on either finasteride or dutasteride. Pregnancy was excluded prior to starting therapy. For both finasteride and dutasteride, the patient signed a consent form, which especially exposed the issue of teratogenicity and the need for effective contraception, despite the patient's repeated reassurance that she was single and there was no possibility of pregnancy.

Discussion

Finasteride, (1,2) an inhibitor of 5-[alpha] reductase type 2 isoenzyme, is now widely approved for the treatment of androgenic alopecia in men. Also, despite initial negative experience, there is increasing evidence of clinical efficacy of finasteride in female patients. (6,7)

Dutasteride is another inhibitor of 5-[alpha] reductase. There is strong theoretical basis for the hypothesis that potential efficacy of dutasteride in AGA might be even more pronounced, as compared to finasteride. This hypothesis is based on the observation that finasteride, a selective inhibitor of the type 2 isoenzyme of 5-[alpha] reductase, has the capability of reducing serum DHT by about 70%, while dutasteride inhibits both isoenzymes, type 1 and 2, and induces a 94% to 98% reduction of serum DHT. (8) This might lead to the conclusion that dutasteride has the ability of significantly inhibiting the effect of dihydrotestosterone on hair follicles and, as a result, reverse hair miniaturization in AGA. Based on these theoretical data, dutasteride was introduced in our AGA patient. Significant clinical improvement, accompanied by normalization of trichogram results, reduction in hair diameter variability, and an increase in mean hair diameter in affected areas was observed.

[FIGURE 3 OMITTED]

[FIGURE 4 OMITTED]

Dutasteride is presently approved in some countries, including USA, for symptomatic benign prostatic hyperplasia in men. Side effects, such as erectile dysfunction, decreased libido, gynecomastia, and ejaculation disorders have been observed in male patients receiving the drug. (1) No other side effects have been described in patients receiving dutasteride. Also, side effects in female patients are not known, but some clinical trials are still ongoing. In our patient, we have not observed any side effects during treatment. The patient's depression improved significantly, but we consider this to be the effect of aesthetic satisfaction rather than a direct effect of dutasteride.

The durability of improvement and the reproducibility of the therapeutic effect in other patients remain unanswered questions. It can be suspected that dutasteride will cause temporary improvement and decrease the speed of AGA development, but repeated or ongoing therapy for many years might be necessary, as is the case for finasteride in male AGA.

In our patient, computer dermoscopy (videodermoscopy) (1) was applied for evaluation of scalp hair in addition to traditional methods. The method enables visualization of hair miniaturization, as well as enabling the monitoring of degree of hair diameter variation, which is typical of androgenic alopecia in women. (1) The method is especially valuable for noninvasive measurement of hair diameter, which has been shown to be below normal range of 0,055-0,085 in patients with AGA. Thus, application of dermoscopy enables quantitative monitoring of therapy results in patients with AGA. To our knowledge this is the first description of the use of computer dermoscopy in trichology. We believe that dermoscopy may develop into a valuable tool in differential diagnosis and monitoring of hair loss. However, time is needed to develop strict quantitative criteria for evaluation of specific features found in various trichologic conditions.

In conclusion, theoretical data and our experience in this case show that dutasteride might develop into a true alternative treatment in androgenic alopecia. We have also shown that videodermoscopy is a valuable tool for evaluation of hair diameter in patients with AGA.

References

1. Rebora A. Pathogenesis of androgenetic alopecia. J Am Acad Dermatol. 2004;50:777-779.

2. Bang HJ, et al. Comparative studies on level of androgens in hair and plasma with premature male-pattern baldness. J Dermatol Sci. 2004;34:11-16.

3. Szymanska E, Rudnicka L. Androgenie alopecia. Clinical evaluation and progress in therapy. Problemy Lek. 2003;42,213-216.

4. Hoffmann R, Steroidogenic isoenzymes in human hair and their potential role in androgenetic alopecia. Dermatology. 2003;206:85-95.

5. Price VH. Androgenetic alopecia in women. J Investig Dermatol Symp Proc. 2003;8:24-7.

6. Trueb RM. Finasteride treatment of patterned hair loss in normoandrogenic postmenopausal women. Dermatology. 2004;209:202-7.

7. Shum KW, Cullen DR, Messenger AG. Hair loss in women with hyperandrogenism: four cases responding to finasteride. J Am Acad Dermatol. 2002;47:733-9.

8. Clark RV, et al. Marked suppression of dihydrotestosterone in men with benign prostatic hyperplasia by dutasteride, a dual 5alpha-reductase inhibitor. J Clin Endocrinol Metab. 2004;89:2179-2184.

9. Ludwig E, Montagna W, Camacho F. Female androgen alopecia. In: Camacho F, Montagna W, eds. Trichology. Madrid: Aula Medica Group; 1997:343-355.

10. Burkhart CG, Burkhart CN. 5 alpha-reductase and finasteride in pattern alopecia and acne. J Drugs Dermatol. 2004;3(4):363-364.

11. Libecco JF, Bergfeld WF. Finasteride in the treatment of alopecia. Expert Opin Pharmacother. 2004;5:933-940.

12. Djavan B, Milani S, Fong YK. Dutasteride. A novel dual inhibitor of 5alpha-reductase for benign prostatic hyperplasia. Expert Opin Pharmacother. 2005;6:311-317.

13. Zalaudek I, et al. Dermoscopic features of melanoma on the scalp. J Am Acad Dermatol. 2004;51:S88-90.

14. Olsen EA. Female pattern hair loss. J Am Acad Dermatol. 2001;45:S70-80.

Address for Correspondence

Malgorzata Olszewska MD PhD

Dept. Dermatology

Warsaw Medical School

Koszykowa 82

02-008 Warsaw, Poland

Phone: +48228242200

Fax: +48228242200

e-mail: malgorzataolszewska@yahoo.com

Malgorzata Olszewska MD, (a) Lidia Rudnicka MD (b)

a. Department of Dermatology, Warsaw Medical School, Warsaw, Poland

b. Department of Dermatology, CSK MSWiA, Warsaw, Poland

COPYRIGHT 2005 Journal of Drugs in Dermatology, Inc.
COPYRIGHT 2005 Gale Group

Return to Alopecia
Home Contact Resources Exchange Links ebay