If you want to comment me about this video for now on go to my page comments. Chances are if I have never talked to you on here or I have and don’t like you. I won’t open any messages from my inbox! I approve all comments on my page,even if I don’t happen to agree with you on them! all credt to the mummy hair videos go to mathilda mathildasanthropologyblog.wordpress.com Two British anthropologists, Brothwell and Spearman, have found evidence of cortex keratin oxidation in ancient Egyptian hair. They held that the mummification process was responsible, because of the strong alkaline substance used. BULLSHIT ALERT WHoop whoop. No, they said it could lighten. However, a lot of the hair samples are wigs that werent processed. They also said that a look under a microscope can tell the difference between naturally light and bleached. To see the actual info from the paper instead of the made up POS you sent me..And further more- Afro hair grows out of the scalp at a diffenet angle and has a different cross section too wysinger.homestead.com Analysis of Hair Samples of Mummies from Semna South (Sudanese Nubia) Pigmentation, even allowing for oxidation of melanin, showed a higher proportion of lighter samples than is currently associated with the Nubian area. the apparent limitation of oxidation to the cuticle in the Semna sample argues for the maintenance of hair form in the samples in spite of their age. and this Nubian sample is essentially Mulatto in nature Brothwell and …

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NBC TODAY SHOW investigates the new genetic test for hair loss. Men and women can now assess their risk for hair loss at an early stage. More info on treatements and diagnostic procedures on South Florida Today (NBC), live in the studio.

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Hilarious 1970’s vintage funny commercial that ran in the Philadelphia and Baltimore area. Hair Analysis where you send a strand of hair in a microscope slide and they will test it and tell you what is wrong and why you are going bald.

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Sample was collected from my aquarium when I retrieve some hair algea samples to observe. The video was taken at 400X with Nexcope CM701 microscope and Tucsen TCA-3.0C microscope camera. Anyone know what it is?

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I saw an 18 year old young man today who was worried about the recession of his hairline in Encino office of US Hair Restoration. We mapped his scalp hair to analyze the degree of miniaturization using a digital microscope

You see significant miniaturization in the frontal area. When we examined a few centimeters behind his frontal hairline the miniaturization rate dropped sharply to less than 20% which was consistent throughout the top and crown area of the scalp. The patient’s father lost his hair at an early age. Patient started taking finasteride a month before his visit with us and topical Rogaine about a week before this visit.

What we noticed was the maturation of his hair line, which occurs between the ages of 16-25 in most men. Hair line maturation is when the hair line migrates 1 to 2 cm higher than its normal position as when we are child (kiddy hairline). It is more significant in the corners but could be seen in the midline too. As Caucasian men go through the maturation process, the hairline rises, but many non-Caucasian men never experience hair line maturation and the hairline stays flat and low.

The greatest method to distinguish the maturation of the hairline from the early stages of baldness is by comparing miniaturization in different scalp areas. If you are experiencing early hair loss, your miniaturization could be seen behind the first centimeter of the frontal hairline, but if the rate of miniaturization drops sharply it could indicate that the hair line is going through maturation and the hair loss may stop shortly after maturation is complete.

For that patient, I stopped all anti hair loss medications that the patient recently started, and we recommended another miniaturization study in 6 months to a year to follow his hair loss progression.

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Naturally, women do not like hair loss or baldness occurring to them. So they adopt the procedure that is done in the unapproved clinic offering Hair transplant in women. Then they adopt reparative procedure to get back their original hair.

Reparative procedure is a kind of surgery that has been invented to repair the wrongly done hair restoration surgery. This was not available before. This surgery is adopted with care on women. The women come to the hair restoration center to repair their already transplanted hair, because the hair transplant in women that was earlier done was not satisfying.

Some women come with a plugging appearing hair that has grown due to the hair transplant surgery. This appearance is because that the surgery done on them may not have been done according to their natural hair line. In some cases the hair transplant in women will be done with larger grafts or other wise the procedure of surgery followed will be of older version.

Larger micro grafts will need larger hair follicles in them to fit in the head. Otherwise the doll like appearance will be visible in the patients head. The scar on the donor site and the transplanted area will also appear so harsh. When the grafts are placed in the improper angle will also make the transplanted hair to look very unnatural.

The reparative procedure is a little complex one, but it can be done with the possibility of conditions satisfied by the patient. The reparative procedure cures many disorders related to the earlier transplantation surgery. This includes scar revision, total or partial removal of transplanted graft, micro or mini grafting, scar reduction and laser surfacing of the skin.

The scar revision is a process in which the scar that occurred earlier that does not suit the hair line will be changed according to the hair line of the patient under going reparative procedure. This makes the hair line to appear natural and will make the plugging appearance to disappear.

In the other case of reparative surgery, removal of transplanted grafts from the transplantation done earlier that are too large. The process is the most complicated procedure in the reparative surgery. The earlier grafts are cut from their place and they are subjected to micro or mini grafting under the microscope. They are then adjusted and again planted in the less dense hair region. This process is similar to another hair restoration surgery.

The reparative surgery will also reduce the number of scar that has been occurred due to the in experience of the surgeon. Some surgeon will not allow the scar to be visible in the hair transplantation procedure. The scar from the previous treatment can be reduced by the reparative surgery by placing some more hair in the hair line.

The hair transplant in women involves many risks like the deficiency of hair in the donor region in the scalp. This may result in baldness in that area making the transplant surgery of no use.

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Hair transplant surgery was introduced in the United States by Dr. Norman Orentreich in 1959. He demonstrated that hair taken from one area of the scalp would continue to grow even if it were transplanted to a balding area of the head.

The problem with this scientific breakthrough was that hair was being transplanted in clumps or “plugs” that did not appear natural. And although patients were indeed growing hair on what was once a balding pate, the appearance was akin to that of a doll’s head and hardly much of a cosmetic improvement for their baldness.

In 1995, Drs. Bernstein and Rassman presented a paper describing a new procedure called “Follicular Unit Transplantation” or FUT. In this new hair transplant technique, hair would be transplanted using only naturally occurring, individual units of 1, 2, 3 or 4 follicles. These perfectly intact “follicular units” would be obtained by removing a single, thin strip of skin from the back of the scalp and then using a dissecting stereo-microscope to isolate the tiny naturally occurring groups of hair.

Since the publication of “Follicular Unit Transplantation” hair transplant surgery has undergone an “extreme makeover” itself, in part due do to the incredibly natural results that this powerful procedure can produce. FUT is now considered to be the state-of-the-art in surgical hair restoration and is currently the most widely used hair transplant technique.

Robert M. Bernstein M.D., an Associate Clinical Professor of Dermatology at Columbia University in New York, sat with us for a Q & A on hair transplantation and its future.

How are hair follicles removed in Follicular Unit Transplantation?

In order to safely remove and preserve the Follicular Units without causing any damage to them, the donor tissue is removed in one thin piece. This technique is called Single Strip Harvesting and it is an essential component of follicular unit transplantation.

How many grafts should be transplanted at once?

The average session for a moderately bald person, who has lost most of the hair on the top of his scalp is around 2,500 grafts. Although it is best to complete the hair restoration in as few large sessions as possible, there are limits. When too large a strip is removed, it can cause undue tension in the donor area and cause a stretched scar or loss of hair. An excessively long procedure, that keeps the grafts outside the body for an extended period of time, may compromise graft survival.

Another issue with very large sessions is that a hair transplant doctor has less flexibility if problems arise during the surgery. Patient variability is an intrinsic part of hair transplantation. In some patients, the grafts tend to pop up above the skin surface as they are inserted into the scalp. Popping also occurs when a graft placed in the skin causes an adjacent one to lift. The closer you put the grafts and the more grafts you transplant at one time, the greater the chance that these problems will occur and the more difficult they will be to manage. The goal is to always maximize what you get from the back and what grows in the front and top. It’s not a race where we have to do 3,000 or 4,000 grafts in every patient. When I hear people say, “Oh, I had 5,000 grafts.” I think “How many of those actually grew?”

Is a Hair Transplant Permanent?

Yes, the hair on the back and sides of the scalp is permanent and it retains this characteristic even when moved to the front and top of the scalp.

Will the Transplanted Hair Change over Time?

The genetic tendency of hair to grow is dependent upon the donor area where the hair comes from. We call this “donor dominance”. However, the character of the hair, the wave, the rate of growth, is affected by the area where it is transplanted into. For example: we discovered that when we take scalp hair and transplant it to the eyebrows, over time, the growth rate actually slows down to match the growth of eyebrows. In this case, the recipient area has an influence on the growth of the eyebrow hair.

Can you take hair from someone else and transplant it on your own head?

You cannot transplant hair from someone else. It has to be your own hair or it will be rejected by the body.

What is the Future of Hair Transplantation?

The next big improvement to the field of surgical hair restoration will be hair multiplication – commonly, but erroneously referred to as hair cloning. This technique will dramatically increase a person’s limited donor supply, an issue that frustrates many patients wanting hair restoration.

The mechanism for cloning is based on the multiplication of the cells that surround a hair follicle. These cells, called fibroblasts are readily multiplied outside the body. Once multiplied, the “fibroblasts” could be injected into the skin to induce hairs to form. The problem is that when you multiply these fibroblasts, they lose their ability to stimulate hair to grow – a major roadblock that still needs to be overcome.

Another concern with hair cloning is that if you’re inducing hair to grow, what will it look like? Is it going to be wild and uncontrollably wiry? Will it look like the person’s normal hair? Because the recipient area plays a factor in the way a follicle grows, it’s reasonable to assume that even if you inject these fibroblasts to induce a hair to form, that hair will start to take on the characteristics of a person’s original hair.

It is exciting to think of the possibilities that improvements in science will afford to those suffering from the effects of hair loss. Perhaps someday any baldness in men and women will be a result of choice and not a genetic constraint, but will unlikely be available for at least 5-10 years.

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After four decades of evolution from the large plugs of the late 1950s to the extensive mini and micro grafting of the early 1990s, possibly the central development in hair transplantation today is the recognition that the naturally occurring, individual follicular unit may represent the ideal way in which to transplant hair. The underlying tenet of follicular unit transplantation is that the follicular unit is sacred and should always be transplanted intact. While not all hair transplant surgeons agree on the importance of using follicular units exclusively for the entire transplant, or in every patient, the central role of this previously unrecognized anatomic structure in modern hair restoration surgery is without dispute.

Follicular units are distinct groupings of usually one to four, and occasionally five terminal hairs, surrounded by a circumferential band of collagen called the “perifolliculum.” It also includes one, or rarely two, vellus follicles, the associated sebaceous glands, the insertions of the arrector pili muscles, and a neuro-vascular plexus. It has been demonstrated that hairs separated from other hairs of a follicular unit do not grow as well as the same number of hairs transplanted keeping follicular units intact. The follicular unit is thus a physiologic, as well as an anatomic entity.

Follicular unit transplantation offers the surgeon the unique ability to transplant the maximum amount of hair with the minimum amount of non-hair bearing skin. In this way, recipient wounds may be kept small, healing is facilitated, and with proper technique, large numbers of grafts may be safely moved per session. The use of these discrete anatomic units also helps to ensure that the cosmetic result of the transplant will appear completely natural.

In contrast to follicular units, micro grafts (1-2 hairs), and mini-grafts (3-6 hairs), are small grafts cut randomly from donor hair, not specifically as individual intact follicular units. They may consist of partial follicular units, single follicular units, multiple follicular units, or multiple, partial follicular units. In mini-micro grafting, the partial units may be at risk for sub-optimal growth, and the multiple units will contain extra skin that will demand larger recipient sites. This, in turn, causes more wounding to the recipient bed and may limit the number of grafts that can safely be transplanted in a session.

It has often been said that with multiple sessions, mini grafts can look fairly natural in patients with ideal hair characteristics. However, even in these circumstances, on close inspection, mini grafts can look unnatural compared to follicular units. As the public becomes increasingly more discriminating, the future of hair transplantation is therefore likely to involve an increasing demand for procedures that are performed using follicular unit transplantation exclusively.

It is felt by most surgeons who perform follicular unit transplantation routinely, that single strip harvesting and complete stereo-microscopic dissection are required to properly dissect follicular units from the surrounding tissue. The reasons for this are relatively straightforward. Harvesting with a multi-bladed knife will break up follicular units and transect follicles, whereas removing the donor tissue as a single strip will yield the highest proportion of intact follicular units. Once the single strip has been removed, the stereomicroscope, with its 10x magnification and intense illumination, will provide the best visualization for the dissectors to accurately subdivide the strip and to isolate the individual units. Lower power loop magnification does not provide sufficient resolution for precise follicular unit dissection and back-lighting will not penetrate the intact strip.

Although, it is hard to argue the supremacy of the follicular unit in theory, in practice, the follicular unit hair transplant is tedious, demanding on the physician and staff, and requires a relatively high degree of expertise to be properly performed. It is, therefore, reasonable to assume that in situations where follicular unit transplantation is impractical or impossible, the patient might be better served by a more simple technique. In this vein, the standard practice of mini/micro grafting is seen by some as a more practical alternative to follicular unit transplantation.

The advantages of mini / micro grafting are that it is faster and requires less staff. In addition, it is felt that the damage produced by the multi-bladed knife (used in mini / micro grafting) is somewhat offset by the advantage of not having to carefully trim around follicular units, which in itself can be a source of follicular injury (if not done with care). On the other hand, in mini / micro grafting, the slightly larger grafts and concomitantly larger wounds do not permit the total naturalness that is achieved with follicular unit transplantation. In addition, the split follicular units and greater number of hair fragments (produced by the use of the multi-bladed knife and less precise dissecting techniques) may result in less than optimal growth.

The important factors affecting graft survival are still controversial. Graft trauma can take multiple forms. Do longer transplantation procedures lead to greater graft desiccation, donor tissue anoxia (time-out-of-body) and lower yield or does violating the follicular unit microanatomy lead to a lower yield? These important questions lack the controlled studies required for meaningful answers, but the future direction of hair transplantation surgery may, in part, depend upon their outcome!

As we will discuss in subsequent sections, new technology may soon substantially change how both follicular unit transplantation and mini / micro grafting are performed. However, regardless of how the technical parameters of each procedure evolve, the debate of follicular unit transplantation vs. mini / micro grafting will undoubtedly hold the attention of the hair transplant community for years to come. In the meantime, the answer to which procedure is used may unfortunately lie less with the needs of the individual patient, than with the resources and capabilities of the operating surgeon and his staff.

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