|
Chapter: 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 |17 | 18
PATIENT GUIDE TO SURGICAL & MEDICAL HAIR
RESTORATION
PAGE 2 |
Hair Loss Causes and Conditions |
There are many causes of hair loss in men
and women, including disease, nutritional deficiency, hormone imbalance, and
stress. However, by far the most common cause is what is called adrogenetic
alopecia. Alopecia is simply the medical term for hair loss. Androgenetic
refers to the fact that both a genetic predisposition to balding, and the
influence of androgens, or male hormones, play a part in this type of hair loss.
In fact, there is a third factor, which is the passage of time, or aging. In
other words, in order for androgenetic alopecia to occur, there must be:
- a genetic propensity for balding
- the presence of androgens, or male hormones
- enough aging time to allow the first two factors
to exert their influence
on the hair follicles
|
Hair Genetics |
Genetics is not always simple, and such is the case with
balding. Just
the presence or absence of balding in one’s parents or
grandparents, on
either the mother’s or father’s side, is not necessarily
predictive of one’s
likelihood of balding. Certainly, if a man’s father is
completely bald,
and this man begins to rapidly lose hair in his early
twenties, it’s a safe
bet that he will develop extensive balding at some
point. In short, it’s
very hard to accurately predict who will go bald and
how rapidly.
This inherent uncertainly about the progression of balding is of
utmost
importance in planning surgical hair restoration, as we will see in
later
sections. We must always plan for a "worst case
scenario" in order to give patients the best possible results in the
long term, as well as in the short term. Anything less is
irresponsible. |
Androgenic Hormones |
| All normal men and women produce "male" hormones. The most
common of these are testosterone, androsteinedione, and dihydrotestosterone
(DHT). Androgens are produced by the testicles and adrenals in men, and by the
ovaries and adrenal glands in women. These hormones are quite important in both
sexes, but occur in different concentrations, being much more predominant in
males than in females. This, in part, is responsible for the typical differences
between the genders. It is the exposure of the hair follicles to DHT, in a
genetically susceptible person, over a period of time, which leads to
androgenetic alopecia, or male and female pattern baldness. How does this
exposure to DHT occur? In certain cells of the hair follicle, and in the
sebaceous glands, there are high levels of an enzyme called 5-alpha-reductase.
What this enzyme does is to convert testosterone, which is delivered to these
areas by the blood, into DHT. This is important not only in understanding the
mechanisms of balding, but also one medical treatment now available: Propecia
(finasteride). What Propecia does is inhibit, or limit the activity of, this
5-alpha-reductase enzyme. Therefore, there is less conversion of testosterone to
DHT, and lower levels of DHT are found in the follicle. In later sections, we
will discuss this and other medical treatments in much greater detail. |
Aging |
| There is no set age at which balding occurs. It is a
process, and this is a simple, but oft-ignored fact. Like any process, it
can be rapid or slow, it can begin toward the end of life or in the late teens,
and it can progress in a predictably inexorable fashion, or it can stop and
start, seemingly stabilize, and then begin again. Once we understand and accept
this as a dynamic process, then we can better plan for the present and for the
future in terms of how we treat it. This quest for understanding, which you have
begun just by opening this book, will do more than all the despairing thoughts,
hand-wringing, and self-pity, toward allowing a clear-eyed, rational, long term
approach to the problem of hair loss.
So we now have looked at these three interdependent factors that play into
the common types of balding. Again, they are: hormones, genetics, and Father
Time. So what exactly does happen to the hair? Let’s take a look.
Assuming we have a genetically predisposed person, then as the follicles are
continuously exposed to DHT, an interesting phenomenon occurs. Remember the
anagen phase, or active growth phase of the hair? This phase becomes gradually
briefer and briefer, and eventually the hair becomes finer and shorter, and less
deeply colored. We call this "miniaturization" of hairs. This is also the point
at which hair loss tends to first be noticed. It’s not that there are fewer
hairs on the head, but that their caliber (cross-sectional area), color and
length are so diminished that they no longer provide "coverage" for the scalp
beneath. Light penetrates through to the shiny scalp, and this is perceived by
the observer as "thinning" or balding.
Also, the ratio between hairs in the anagen phase and those in the telogen,
or resting phase, is increased. This simply means that, at any given time, an
increased number of hairs are in the telogen phase. These extra numbers of
telogen hairs will be found in the susceptible zone for common balding, which is
the front, top, and crown of the head. The so-called "permanent" zone, the
familiar horseshoe-shaped wreath of hair around the back and sides, is
unaffected by these changes. The telogen hairs are easily dislodged during
washing, drying, or combing, and this is the second sign of balding: in addition
to the apparent thinning seen with miniaturization, we begin to see larger
numbers of hairs on the comb, the towel, the pillowcase, or in the bathroom
drain. This can be quite traumatic, especially for the younger man or for women.
In the next section, we will discuss the natural history of balding, that is,
the way it first presents or appears, the different ways it progresses, and how
it affects the different regions of the head.
For the sake of completeness, let’s briefly mention some of the other
patterns of hair loss, if only to distinguish them from androgenetic alopecia
(male and female pattern baldness). There is alopecia areata, where discrete
patches of scalp go bald; triangular alopecia, which tend to occur in a
triangular pattern in the temporal area; alopecia universalis, in which the
entire body may be affected; and various "toxic" alopecias, including those
following a severe illness, sometimes with high fever, or following pregnancy.
Toxic alopecias may also occur with low thyroid and/or pituitary gland function,
or following chemotherapy. The cicatricial (scarring) alopecias occur following
tissue destruction and inflammation.
Also seen are the so-called diffuse alopecias (patterned and unpatterned), in
which there is widespread thinning that may affect the "permanent" zone as well
as the areas vulnerable to balding. In any or all of these less common types of
balding above, it may be necessary to have a complete physical and laboratory
workup, possibly including scalp biopsy.
So again, the common types of balding are directly related to the presence of
male hormones in a genetically predisposed person over time. This can occur in
both men and women. The process involves progressive miniaturization of the
terminal hairs, and diminished length of the active hair growth cycle. Now,
let’s take a look at how this microscopic, cellular process is manifested on the
head; we can call this the natural history of balding.
|
| |
| Chapter: 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 |17 | 18 |
| |
|
| Back To Top |
|
|
| Next page- The Natural History of Balding |
|
