Doctors on Hair Loss & Hair Transplant surgery.

If I’m not totally sure to have a hair transplant, what are some good resources to help understand the process?

Understanding the process is of the utmost importance when considering hair transplant surgery. Many men have wound up with less than desirable results due to lack of information and/or the sales techniques of unscrupulous clinics.
The forhair.com website is a good place to start. There is a voluminous amount of information there with which a person may educated themselves about hair transplantation, the various methods of “harvesting” the hairs for transplant, and also about expectations and outcomes of the procedure.
The non-surgical treatments for hair loss are also discussed at length; this website has more written information that most potential candidates could read in many weeks. The information is truthful, in depth and free from the slick marketing techniques of many clinics.

Check these Hair transplant information and resources:
Forhair.com–Hair Transplant Information
Forhair Hair Transplant Forum
Hair Transplant Guide
IAHRS.ORG
Hair Transplant Information on this site:
Hair Transplant On Hair Loss Press

Tags: clinics, dr. john p. cole, forhair, hair loss, hair transplant, hair transplant forum, hair transplant surgery, hair transplantation, iahrs

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Are many hairs transected as the surgeon makes extractions on the donor during hair transplantation?

Good question. The answer is that it varies wildly from surgeon to surgeon and clinic to clinic. We take great pride in having achieved some of the lowest transection rates in the hair transplant world.

Our transection rates with CIT are averaging less than 3% which is very low compared to the industry as a whole. Some published papers on FUE and other single graft harvesting techniques cite transection rates as high as 50 to 70% from their own clinics! This is a travesty, and should be mentioned only to be condemned. .

Single blade strip surgery has average initial transection rates (in our hands) of about 2%; again, it is all over the map depending upon the experience and expertise of the surgeon, and at least for strip, upon the experience and expertise of the surgical staff. One of the most important variables is the surgical technician staff; after the strip is harvested, the tissue is processed by these technicians. Their transection rates can range from 5% up to as much as 50% of the grafts, and is dependent on their training and skill. This is why quality control in a hair transplant practice is so very important (but unfortunately is not the norm by any means). In our practice, CIT has a lower transection rate <3% than strip; in strip cases, our technicians’ transection rates, plus the transection during harvest, averages 5%. So for us, even this relatively low strip transection exceeds our even lower CIT transection!
Remember that the training and expertise of hair transplant surgeons runs the gamut, from beginners with virtually no experience to speak of, to veterans with thousands of cases and thousands of quality results under their belts. However, there is one other factor that comes into play, which is standards. A physician may have years of experience, but set the standards in his practice very low. In this situation, sloppy work and poor technique, combined with minimal staff oversight and quality control, may produce high transection rates and other conditions that lead to mediocre results at best, and cosmetic disasters at worst.

We are proud of the high quality and dedication to excellence that we are known for!

Tags: cit, cole isolation technique, dr. john p. cole, hair loss, hair restoration, hair transplant, hair transplant surgeons, hair transplant surgery, male pattern baldness, physician, strip, thinning, thinning hair, transection

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I had hair transplant procedure a week ago and I’ve note that the hair is still growing in the grafts. Does this mean the hair has been accepted and that it will continue to grow?

Following hair transplantation hair in the grafts will continue to elongate for about 10 days. Some of this may be continued hair growth, but it also reflects a move toward anagen effluvium. In anagen effluvium the dermal sheath begins to contract and move toward the surface of the skin much like an accordion. This shortening of the dermal sheath will push the bulb of the hair shaft toward the surface of the skin. Therefore, some of the elongation of the hairs is not due to growing, but rather due to a contraction of the dermal sheath toward the skin surface.

Once the dermal sheath contracts, the hairs will either begin to shed on their own beginning in two to three weeks after the transplant. Some of the hairs will continue to rest on the surface of the skin for a prolonged period of time. Eventually the scalp skin will either begin to form a wall around the resting, non-growing hair, or the scalp will form a pustule or pimple like reaction that will eventually burst and the non-growing hair will exit the skin with the exudate from the pimple or cyst like structure.

It is probably a good idea to minimize the number of the cyst like structures that you get because they represent unnecessary inflammation. Inflammation may not always be a good thing. In theory inflammation might sometimes lead to an autoimmune response toward one’s own hair and this in turn may compromise future graft growth.

In order to minimize inflammation, we generally recommend that patients begin removing non-growing hair fragments beginning three weeks after the hair restoration procedure. The best way to manage this is to aggressively wash the scalp with soap and a wash cloth. Non-growing hair will come out easily like removing a pin from a soft stick of butter. Growing hairs on the other hand must be plucked and it takes a good bit of force to accomplish this.

Sometimes hairs do continue to grow following a hair transplant without ever going into the resting phase, but it is unlikely that you will see more than 10% go into the resting phase. It is far more likely that the hairs will shed. Occasionally hairs almost shed, but then continue to grow. We can easily recognize these hairs because they have a dark tip that is coarse followed by a narrow constriction that is of lighter color. This is followed by a gradual darkening of the hair shaft and increase in hair diameter once again. We call these hairs that exhibit signs of this trauma pol pinkus hairs and they are a sure sign of recently transplanted hairs that have continued to grow.

Tags: anagen effluvium, cyst, dermal sheath, dr. john p. cole, Grafts, hair diameter, hair growth, hair restoration, hair shaft, hair transplant, hair transplant surgery, hair transplantation, inflammation, non growing hair, patients, pimple, resting phase, scalp

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I would like to know what is the CIT hair transplant? why is it better then the strip?

CIT or “The Cole Isolation Technique” (former known as FIT) is a hair transplant harvesting technique developed by Dr. John P. Cole in the early years of this century. It is similar, but not identical to, FUE, or follicular unit extraction. CIT uses proprietary technology and instruments to harvest intact follicular groups ranging from 1 to as many as 6 or more individual hairs along with their intact dermal elements. It must be stressed that these dermal elements are essential for the growth of new hairs in the recipient areas (these are the areas of thinning or balding that are being transplanted). Extracting hairs without the dermal elements is easy, but amounts to nothing more than a “pluck”; these hairs will not grow.
As with any other harvesting method, the hair transplant surgeon will first outline the donor areas to be harvested, as well as the areas which will be receiving the harvested grafts later on. Then, local anesthetic is infiltrated into the donor area to render the skin and deeper structures numb and insensitive to pain. Then, just before harvesting begins, the area is injected with a “tumescent” fluid consisting of saline, and often medications to minimize bleeding. This tumescent technique is fairly common in a number of cosmetic procedures. It is beneficial in a number of ways; it helps decrease bleeding with medications and also by virtue of the pressure of the fluid on blood vessels in the tissue; it brings the skin up and away from deeper structures; it provides a taut, firm surface on which to score the skin, and it slightly separates the follicular groups from each other so that they may be more easily isolated from one another.
Then, the skin around the follicular groups is scored with the special instruments; the surrounding tissues are teased away from the follicles and then the entire unit, that is, the hair shafts, the dermal elements surrounding the shafts, the sebaceous glands and a tiny ring of skin at the top is gently pulled out. The graft is perfect, and ready for placement in the recipient area. No trimming or preparation is generally needed. This is one of many benefits of CIT compared with the older style strip harvest method, which requires microscopic dissecting of all grafts prior to placement, necessitating a large team using stereo microscopes.
Healing of the tiny sites from which the grafts are pulled commences almost immediately. Usually by the second or third day, the tissue has grown in to cover the hole and there remains only a pale pink dot at the site. In some individuals, this may eventually appear as a slight “white dotting”, which is not strictly speaking a scar, but rather an area of hypopigmentation. This just means that the cells within the follicles that produce the dark pigment called melanin are gone, and the skin here is a slightly lighter shade than the adjacent skin. This phenomenon is relatively unpredictable; it is most common in darker complexioned people, but may manifest in pale-skinned folks. Likewise, it may occur after CIT with very small instruments, and not at all with larger-sized extractors (or vice versa!)
We feel that, compared to a linear, ear-to-ear strip scar, these tiny white dots have minimal negative cosmetic impact. With the hair only a few millimeters long, these dots are undetectable. A strip scar, on the other hand, may be visible with the hair considerably longer, and it may widen, sometimes for no apparent reason. In addition, the strip scar changes the direction of hair growth below it, relative to the direction above it. Unless a person desires to wet shave their hair down to the skin, these white dots, if they do occur, are invisible to the casual observer.
Now, once the grafts are extracted and ready for implantation, the process is quite similar to strip harvest hair transplant surgery. Tiny jeweler’s forceps are used to very gently grasp the hair-bearing grafts and place them into miniscule recipient sites. These sites are created by the hair transplant surgeon using various blades or needles; each site is made carefully and with a deliberately natural pattern. The angle relative to the axis of the head is extremely important, because the hair normally grows in specific patterns. These patterns have a general similarity in all people, but there are specific ways in which these patterns diverge in individuals. A “cowlick” at the frontal hairline is a good example, as is a unique “whorl” at the vertex or crown. It is often appropriate to closely mimic the existing pattern to obtain the most natural effect.
The so-called angle of emergence is of utmost importance as well. This is the angle at which the hair emerges from the scalp. This angle may be quite acute, that is, the hair may lie down very close to the plane of the scalp. If an inexperienced or minimally gifted surgeon makes these angles too high, then the look will be peculiar and unnatural. We have seen many cases such as this, and it is especially noticeable at the leading edge of the frontal hairline; follicles growing on the hairline at or close to a 90 degree angle are an aesthetic and cosmetic disaster.
Regional placement of various graft sizes is another challenge for inexperienced surgeons. One hair grafts ONLY should be placed at the leading edge of the hairline. Two hair grafts are then placed behind these “singles”; the “full-sized” three, four, or larger grafts are only placed further back behind the soft, feathered hairline. We commonly see repair cases with two, three, and even four hair grafts all over the frontal hairline! Fortunately, we can now remove these unsightly, inappropriately-placed grafts with the CIT technique and redistribute them further back where they rightly belong.
As with all hair transplants, the hair shafts themselves, which are essentially dead protein, will begin to shed at about 2 to 3 weeks. However, the follicular germinal elements are safely lying dormant beneath the skin. Usually at about 3 to 4 months, the first “new” hairs will begin to emerge. There will continue to be further growth for up to a year or more, but usually the full cosmetic effect will be evident at about 12 months.

Tags: bald pattern, balding, cit, dr. john p. cole, fit, follicular unit extraction, fue, hair loss, hair transplant, hair transplant surgeon, hair transplants, medications, physicians, punch size, saline, skin, stereo microscopes, the cole isolation technique, thinning

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