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Harv Mens Health Watch 2002 Nov;7(4):6-7

Baldness: Does appearance matter?
It lacks the pain of a heart attack, the threat of prostate cancer, and the complications of hypertension. Still, despite the best efforts of Michael Jordan, millions of men are distressed by hair loss.

Normal hair growth
Whether straight or curly, hair grows in a cyclical pattern that has three phases: growth (called the anagen phase by biologists), involution (catagen), and rest (telogen). The growth phase lasts the longest; its duration determines how long a hair will grow. That's why eyebrow hairs stay short (growth phase, 13 months) while scalp hairs are long (5–8 years). After the growth phase, each follicle undergoes a brief period of involution, when some of its cells die off. Then comes a spell of inactivity. At the end of the rest phase, the hair falls out of its follicle and the cells get back to work, growing a new hair. In humans, each hair follicle cycles independently; that's why humans don't "shed" each season, as many animals do.

At birth, the human body is covered by about 5 million hair follicles, including about 100,000 on the scalp. This number remains constant throughout life, but the activity and productivity of each follicle varies according to a person's age.

In a healthy scalp, more than 90% of hair follicles are in the growth phase, less than 1% are undergoing involution, and 5%–10% are resting.

Fragile follicles
Hair follicles contain living cells. Like all cells, they can be damaged, which halts hair growth. If the problem is mild, the follicle recovers and resumes growing hair, but if it's severe, the damage may be permanent.

Any severe stress, physical or emotional, can damage hair follicles, halting hair growth. That's why patients often lose their hair two or three months after a major illness or traumatic life event. It's a temporary problem technically known as telogen effluvium. It's easy to recognize with a simple pull test: If you can extract more than five or six hairs with a single pull, you're likely to have telogen effluvium, and you'll most likely grow back all your hair within a few months, even without therapy.

Medication can damage hair follicles; chemotherapy drugs are the leading examples. Less often, toxic chemicals, radiation, thyroid disease, or infections can do the job. Skin diseases that produce scarring can also result in hair loss, which may be permanent. Fortunately, all these problems are uncommon. Contrary to popular belief, common woes like seborrhea and dandruff do not cause hair loss.

Normal hair loss
Men with male pattern baldness may not regard it as normal, but it is. Like it or not, losing scalp hair is part of the human condition. It may cause psychological distress that's important in its own right, but it's not a disease.

Virtually all people, male and female, lose scalp hair as they age. In a sense, male pattern baldness, known technically as androgenic alopecia, is just an exaggerated form of a normal event. It has two requirements: a genetic predisposition and the male hormone testosterone.


The genetics of male baldness are complex. Most experts believe that one gene is responsible, but several may play a role. In any case, the abnormal gene has variable penetrance, which means it is more likely to produce hair loss in some men than others. The abnormal gene can be passed down from a mother or a father, and boys or girls can inherit it. But men are much more likely to suffer from the gene's activity because they have the second requirement, testosterone.

Testosterone makes the man: It is responsible for the large muscles, strong bones, and deep voice that characterize the gender. It is also essential for male genital development in fetal life, for the sexual awakening of adolescence, and for libido and fertility in adulthood. Testosterone acts directly on tissues to produce all these effects, but it acts indirectly on the prostate and on hair follicles. In these areas, an enzyme called 5-alpha reductase converts testosterone to dihydrotestosterone (DHT), and DHT acts on the tissues.

DHT stimulates the growth of hair follicles in the beard and body, but it has the opposite effect on scalp hair. Hair loss usually starts between the age of 17 and 40; by 50, about half of all men display some degree of male pattern baldness. It usually begins with a receding hairline over the temples, followed by thinning of the hair at the vertex, or top of the scalp. The rate of hair loss varies considerably; some men go bald in less than 5 years, but most lose their hair gradually, over 15–25 years. On average, men with androgenic alopecia lose about 5% of their scalp hair each year, but the process can slow down or speed up without apparent reason.

Although it's small comfort to balding men, their hair follicles don't actually disappear. Instead, each successive growth phase gets shorter and each resting phase longer. With an abbreviated growth phase, the hair becomes shorter and finer; with an extended resting phase, the hairs are less tightly anchored to the scalp, so they fall out during washing or combing.

Adverse effects
Male pattern baldness is not a disease. Its only consequences are cosmetic, and its only implications are psychological.

Although baldness does not cause disease, it may be a marker for increased cardiac risk. The Harvard-sponsored U.S. Physicians' Health Study found that men with bald spots were more likely to develop coronary artery disease than men with full heads of hair; mild vertex baldness was linked to a 23% increase, moderate baldness to a 32% rise, and severe baldness to a 36% increase in risk. The effect was greatest in men with hypertension or high cholesterol levels. Frontal baldness, the receding hairline, was not associated with cardiac risk.

Treatment
Doctors may not think male pattern baldness is a problem, but many men disagree. That's why 33 million Americans spend about $1.5 billion a year to replace or restore lost hair.

Treatment takes many forms, ranging from wigs and toupees to scalp surgery and hair transplants. Many men prefer wigs to surgery. Some are worn on top of existing hair; others are interwoven with a man's own hair. Interwoven wigs have to be adjusted every few weeks as the natural hairs grow, adding to the expense and inconvenience.

For generations, a bewildering array of concoctions claiming to restore lost hair have been sold to gullible men. In 1989, the FDA issued guidelines that cleared the shelves of many expensive but worthless products. At present, only two drugs are approved for male pattern baldness.

When sold in tablet form, minoxidil is a prescription drug for hypertension. But for more than 10 years it has also been available as Rogaine, a nonprescription lotion for hair loss. Regular Rogaine solution or spray contains 2% minoxidil, extra strength Rogaine, 5%. The drug increases the duration of the hair follicles' growth phase, but it works only on follicles that are still active, and its benefits last only as long as it is used regularly. Rogaine is more effective for bald spots than receding hairlines, but it's only partially effective at that; in one study, 36% of men who had used the product for several years felt it was worth the time and money.

According to the manufacturer, Rogaine should be applied twice daily. Scalp irritation can occur; dizziness and low blood pressure are less common side effects. The drug is expensive.

Finasteride is an oral prescription medication that inhibits 5-alpha reductase, thereby blocking the conversion of testosterone to DHT. In a 5-mg tablet, finasteride is sold as Proscar, for benign prostatic hyperplasia (see Harvard Men's Health Watch, July 2000); in a 1-mg tablet, it's marketed as Propecia, for male baldness.

To date, only four studies of Propecia, all funded by the manufacturer, have been reported. Two of the trials involved a total of 1,553 men with mild to moderate male pattern baldness that was most prominent at the top of the scalp. Half the men were given Propecia, the other half a placebo. After three months, the men who took Propecia were more satisfied with the appearance of their hair: After a year, they had an average of 876 hairs in a 1-inch circle on the scalp, while those treated with the placebo had 769 hairs.

The third trial evaluated 326 men with mild to moderate frontal hair loss; after a year, 50% of the men taking Propecia and 30% of the men taking the placebo thought their appearance had improved. Finally, a small 2002 study (66 men) reported that finasteride increases hair thickness as well as hair counts, thus enhancing its cosmetic benefit.


The 1,879 men in the three large trials were between the ages of 18 and 41, and none was completely bald. Since Propecia will not revive hair follicles that are inactive, it cannot be expected to regrow hair in older men who are bald. As a result, it warrants consideration only by younger men with partial hair loss.

Because Propecia must be taken daily, years of therapy are required to maintain even modest improvements. Propecia is even more expensive than Rogaine. It is well tolerated, but 1%–2% of men experience diminished libido and potency on Propecia. Because finasteride can produce genital abnormalities in males exposed before birth, the drug should never be taken by women of childbearing age.

To treat or not?
From a medical point of view, there is no need to treat normal hair loss. At best, the treatments are only partially effective, and although they are generally safe, some men may experience side effects. Take a look in the mirror and think it over. And before you decide, try to imagine how Michael Jordan would look with a bit of hair.

Clin Exp Dermatol 2002 Jul;27(5):405-9

Epidemiology and genetics of alopecia areata.


The frequency of alopecia areata and observed patterns of heritability are in keeping with a polygenic inheritance model but the genetics of alopecia areata is still poorly understood. The role of environmental factors in triggering disease initiation or exacerbation remains almost entirely speculative. Using the candidate gene approach, three susceptibility/severity factors have been identified. HLA alleles were the first to show a strong association with alopecia areata and some DQB and DR alleles have been demonstrated to confer a high risk for disease by both case-control and family-based studies. Interleukin (IL)-1 cluster genes, mainly the IL-1 receptor antagonist, show a strong association with disease severity in alopecia areata and a number of other autoimmune and inflammatory diseases. Finally, the association of alopecia areata with Down's syndrome, the high frequency of alopecia areata in autoimmune polyglandular syndrome type I due to mutations of the autoimmune regulator (AIRE) gene on chromosome 21q22.3 and the finding of association with MX1, another gene in the Down's syndrome region of chromosome 21 indicate this area of the genome as a promising target for future-family based investigations. The role of individual genes of the MHC, IL-1 cluster or chromosome 21q22.3 is difficult to establish and further genetic and functional investigations are needed to confirm their involvement in the pathogenesis of alopecia areata.


Rev Med Chir Soc Med Nat Iasi 2001 Oct-Dec;105(4):760-2

Treatment of alopecia areata with diphencyprone


Topic immunotherapy in alopecia areata consist in a mild contact dermatitis with help of a chemical substances, with a high potency of sensitization, such as dinytroclorbenzenul (DNCB), squaric acid dibutylester (SADBE) and diphencypronil (DPCP). Eight patients with alopecia areata, 3 with mild form and 5 with severe form was treated with DPCP in acetone solution. We have obtained a positive result in 3 cases (37.5%), one with total regrows and 2 with partial regrows and a negative result in 5 cases, 3 with partial regrows and loss of the hair in other areas and 2 cases with no response after 24 weeks. We consider this method like an alternative therapy in severe alopecia areata resistant at other treatments.


J Theor Biol 2002 Feb 7;214(3):469-79

The follicular automaton model: effect of stochasticity and of synchronization of hair cycles.


Human scalp hair consists of a set of about 10(5)follicles which progress independently through developmental cycles. Each hair follicle successively goes through the anagen (A), catagen (C), telogen (T) and latency (L) phases that correspond, respectively, to growth, arrest and hair shedding before a new anagen phase is initiated. Long-term experimental observations in a group of ten male, alopecic and non-alopecic volunteers allowed determination of the characteristics of hair follicle cycles. On the basis of these observations, we previously proposed a follicular automaton model to simulate the dynamics of human hair cycles and the development of different patterns of alopecia [Halloy et al. (2000) Proc. Natl Acad. Sci. U.S.A.97, 8328-8333]. The automaton model is defined by a set of rules that govern the stochastic transitions of each follicle between the successive states A, T, L and the subsequent return to A. These transitions occur independently for each follicle, after time intervals given stochastically by a distribution characterized by a mean and a standard deviation. The follicular automaton model was shown to account both for the dynamical transitions observed in a single follicle, and for the behaviour of an ensemble of independently cycling follicles. Here, we extend these results and investigate additional properties of the model. We present a deterministic version of the follicular automaton. We show that numerical simulations of the stochastic version of the automaton yield steady-state level of follicles in the different phases which approach the levels predicted by the deterministic equations as the number of follicles progressively increases. Only the stochastic version can successfully reproduce the fluctuations of the fractions of follicles in each of the three phases, observed in small follicle populations. When the standard deviation is reduced or when the follicles become otherwise synchronized, e.g. by a periodic external signal inducing the transition of anagen follicles into telogen phase, large-amplitude oscillations occur in the fractions of follicles in the three phases. These oscillations are not observed in humans but are reminiscent of the phenomenon of moulting observed in a number of mammalian species.


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Related Web resources:


  • What is hair?
  • Curly Hair
  • Biology of hair growth and development.
  • The phenomenon of hair loss.
  • Methods and treatments for hair loss and baldness.
  • Drugs and hair transplantation surgery for hair loss and baldness.
  • Hair loss linked to other health problems.
  • Baldness by choice and fashion.
  • Alopecia info.
  • Alopecia treatment info.
  • Alopecia treatment info.
  • Hair care info.
  • Hair loss and alopecia research articles: abstracts and source links.



    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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