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Q: I’ve read some information on your website about donor area scarring from FUT and FUE. Since I wear my hair longer in the back, I am not really concerned about that. But what about the recipient area where my hair is thin? Are any scars visible in the recipient area after a hair transplant? How long after a hair transplant will you be able to see redness, marks, or scars on the top of my scalp? — A.N., Chicago, IL

A: The marks and redness from a hair transplant should fade in about 10 days, although there is significant patient to patient variability. The tiny recipient sites that we use prevent visible scarring, pitting, or other surface irregularities as a result of the procedure.

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Q: What is the problem with transplanting the crown too early? — P.L., Newark, NJ

A: If a person’s hair loss continues – which is almost always the case – the crown will expand and leave the transplanted area isolated, i.e. looking like a pony-tail. The surgeon can perform additional hair transplant procedures to re-connect the transplanted area to the fringe, but, as one can see from the photo below, this is a large area that can require a lot of hair. It is often impossible to determine when a person is young if the donor supply will be adequate. If there is not enough donor hair, then the island of hair may remain isolated. Most importantly, it uses up a lot of hair that might be better transplanted to the front and top of the scalp – areas that are far more important cosmetically.

Patient who visited us who had an early crown transplant

The front and top of the scalp are more important to one’s appearance than the crown, and these areas should be the first priority when planning hair restoration surgery.

As an exception, if a person has a family history of baldness limited to the crown, even at an advanced age, and the person in question is following this pattern, then earlier treatment of the crown may be considered.

Lastly, if you do treat the crown in a younger person, or one with whom the extent of hair loss is uncertain, the crown should be transplanted with light coverage only. That way a limited amount of hair will be used up in this area and there will be enough left over for the more cosmetically significant top and front of the scalp.

For a complete review of this topic please read: Follicular Transplantation: Patient Evaluation and Surgical Planning. Dermatol Surg 1997; 23: 771-84. A copy in PDF format, and other hair transplant publications, can be downloaded at the Bernstein Medical – Center for Hair Restoration Medical Publications page.

View the Crown (Vertex) topic, the Age topic or see posts tagged with Early Hair Loss for further reading.

View Before and After Photos of some of our crown hair transplant patients

Read about candidacy for a hair transplant in young patients

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Dr. Bernstein at ISHRS 2015 Annual Scientific MeetingDr. Bernstein at the 2015 ISHRS Annual Scientific Meeting

Small, simple modifications in the sequence of the major steps in a Follicular Unit Extraction (FUE) hair transplant procedure will be beneficial to healing and growth following the procedure, says renowned hair restoration surgeon Dr. Robert M. Bernstein. Presenting at the 23rd Annual Scientific Meeting of the International Society of Hair Restoration Surgery (ISHRS) in Chicago, Illinois, Dr. Bernstein detailed how making recipient site incisions before harvesting follicular unit grafts can improve the outcome of an FUE procedure.

For years, it was standard operating procedure in an FUE hair transplant to first harvest follicular units, then create recipient sites in the balding areas and place the extracted units into these sites. This practice persisted despite the fact that hair restoration physicians had known for years that prolonged periods of time outside the body decreased survival of follicular unit grafts. With the widespread adoption of FUE, and the long time needed for the extraction phase of the procedure, Dr. Bernstein looked for ways to streamline the process.

Dr. Bernstein Presenting at ISHRS 2015Dr. Bernstein Presenting at ISHRS 2015

By making the requisite number of recipient sites before harvesting, the grafts can be placed as soon as they are extracted. This reduces the critical period of time that grafts are out of the body. Sites created before harvesting have more time to begin healing, and so they exhibit less bleeding. This results in fewer grafts that “pop” out of the recipient site during placement. Mechanical trauma to grafts that need re-positioning after popping is also reduced. Allowing time for recipient sites to begin healing might also provide a more fertile bed for newly implanted grafts to take root. Additionally, pre-making sites provides time for crusts to form on the surface of the wound. Removing these crusts before placement decreases post-operative inflammation and promotes wound healing.

Dr. Bernstein proposed that in some large FUE sessions, in which large numbers of follicular units are transplanted, the surgeon might deliberately delay extraction to allow pre-made recipient sites additional time to heal by creating recipient sites the day before harvesting.

In sum, Dr. Bernstein provided the audience of hair restoration surgeons with a practical modification of the traditional FUE procedure that could impact the outcome of every hair transplant. Given the growth in the number of FUE hair transplants being performed (now about 50% of all hair transplant procedures) and the international platform provided by the ISHRS Annual Scientific Meeting, this small procedural adjustment could have a significant benefit for thousands of hair restoration patients around the world.

Read these publications by Dr. Bernstein on recipient site creation:

Pre-Making Recipient Sites to Increase Graft Survival in Manual and Robotic FUE Procedures (2012)
Robotic Recipient Site Creation in Hair Transplantation (2014)

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Q: Why is using the robot to create recipient sites useful in a hair transplant? — S.K., Jersey City, NJ

A: The ARTAS® Robotic Hair Transplant system eliminates the inconsistencies inherent in creating large numbers of recipient sites by hand. The robot can create sites at a rate of up to 2,000 per hour. Although there is more set-up time compared to sites made manually, once the physician specifies the parameters such as punch depth, punch angle, and site direction, recipient site creation is precise and rapid.

One of the benefits of robotic site creation is that the distribution of grafts over a fixed area of the scalp can be exact. For example, if one wants to transplant 1,000 grafts evenly over 50cm2 of area, this can be done with great precision and with uniform site spacing. In addition, the physician can vary the densities in select regions of the scalp and the robot will adjust the densities in other areas so that the total number of sites remains the same.

Another benefit of the new technology is that the robot can be programmed to avoid existing hair and select which specific hair diameters to avoid. The robot is programmed to keep a specified distance from the existing hair to ensure that the resident follicles will not be damaged and that the distribution of new hair is even and natural. This computerized mechanism appears to be more accurate than what can be done by hand and, importantly, does not sacrifice speed in the process.

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Q: I’ve heard that your ARTAS hair transplant robot can now create the recipient site in a hair transplant procedure. Has it been done on humans or is it still in an experimental phase, and if so can you tell if it looks as natural as when the surgeon does it? — P.S., Miami, Fl

A: In February 2014 we introduced new technology that allows the ARTAS Robotic System to assist the surgeon in recipient site creation. We are now using the ARTAS robot to make recipient sites in select hair transplant procedures. If designed and programmed properly by the doctor, robotic assisted recipient site creation can produce a hair transplant result that is as natural as when the surgeon does it by hand.

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ARTAS Robotic System display monitor showing parameters for the creation of recipient sitesARTAS Robotic System display monitor showing parameters for the creation of recipient sites

New York, NY (PRWEB) — Robert M. Bernstein, M.D., F.A.A.D., A.B.H.R.S., founder of Bernstein Medical – Center for Hair Restoration, introduced new technology that allows the ARTAS Robotic System to accomplish a critical step in hair transplant surgery, the creation of recipient sites. Presenting at the 2nd ARTAS User Group Meeting, Dr. Bernstein previewed the recipient site creation technology that brings the robotic system one step closer to performing critical aspects of the labor-intensive, hair transplant procedure.

The ARTAS System is currently able to harvest intact follicular unit grafts from the permanent area in back of one’s scalp using precise robotic technology. This is the most difficult aspect of a follicular unit extraction hair transplant – the newer type of hair restoration procedure that avoids a linear scar in the back of the scalp. Now that site creation can also be done robotically, only one step remains – graft placement.

The ARTAS Robotic System maps the surgeon's hairline design onto a 3-D model of the patient's headThe ARTAS Robotic System maps the surgeon’s hairline design onto a 3-D model of the patient’s head

For the recipient site creation, the doctor first draws a hairline and other markings directly onto the patient’s scalp to delineate the surgical plan. Next, multiple photographs are taken and fed into software, called the ARTAS™ Hair Studio, which converts the images into a 3-D model of the actual patient. This computer model can be manipulated and saved for the patient’s procedure. Using the ARTAS™ Hair Studio software, the physician then specifies the angle, direction, density, and randomness of the recipient site incisions to create the most natural look. During the procedure, the robot uses image-guided technology to avoid existing hairs while it creates up to 1,500 recipient sites per hour. In performing recipient site creation, the robot automates a process that can be physically demanding and prone to human error.

On the advancement, Dr. Bernstein said:

“This development is a crucial step towards a robotic system that can perform every aspect of a hair transplant. A great deal of credit goes to the engineers of Restoration Robotics who have worked to make automated recipient site creation a reality. I am proud that this work not only improves hair transplants for patients, but adds to the increasingly important trend of using robotic technology in medicine.”

The site creation technology that Dr. Bernstein debuted at the ARTAS User Group Meeting; which was held in California (Laguna Niguel, CA) on February 7th and 8th, 2014; will be available to hair restoration physicians in the fall of 2014. Gabe Zingeratti Ph.D, head of R&D at Restoration Robotics, Inc., presented details of the technology, which was beta-tested at Bernstein Medical – Center for Hair Restoration. With the next generation ARTAS® Robotic System rolling out in the coming months, the focus of research will then be on the final phase of robotic hair transplantation, the robotic insertion of follicular unit grafts into recipient sites. This last step will take several more years to develop.

The ARTAS Robotic System, developed by Restoration Robotics, is currently in use by hair restoration physicians around the world to automate the extraction of grafts of skin and hair called follicular units.. Follicular units, which are natural groupings of one to four hair follicles, form the biological basis of the modern hair transplant procedure. Once extracted from the back of the patient’s scalp, the follicular unit grafts are then inserted into recipient sites in the balding area of the scalp where they grow hairs that are immune to the effects of common hair loss.

No stranger to innovative advances in hair transplant surgery, Dr. Bernstein introduced Follicular Unit Transplantation (FUT) to medical literature in a 1995 publication. FUT transformed hair transplants from the use of large grafts of skin and hair, known colloquially as “hair plugs,” to a more medically-oriented procedure that produces completely natural-appearing results. Dr. Bernstein with his colleague Dr. Bill Rassman again broke new ground with his 2002 publication that introduced the concept of Follicular Unit Extraction (FUE) to scientific literature. Dr. Bernstein was the first physician on the East Coast of the United Sates, and one of the first in the world, to use the ARTAS System to perform FUE using the new robotic technology.

About Robert M. Bernstein, M.D., F.A.A.D.

Dr. Robert M. Bernstein is a Clinical Professor of Dermatology at Columbia University and founder of Bernstein Medical – Center for Hair Restoration. His landmark scientific papers are considered seminal works in the field of hair transplant surgery. Other publications include textbook chapters on dermatologic surgery and books, like Hair Loss and Replacement for Dummies, aimed at the consumer audience. He has been selected as one of New York Magazine’s “Best Doctors” for fourteen consecutive years and has appeared as a hair loss and hair transplantation expert on The Oprah Winfrey Show, The Dr. Oz Show, Good Morning America, The Today Show, CBS News, Fox News, and The Discovery Channel. Dr. Bernstein has been interviewed or featured in articles in the New York Times, GQ Magazine, Men’s Health, Interview Magazine, Vogue, and others.

About Bernstein Medical – Center for Hair Restoration

Bernstein Medical – Center for Hair Restoration, founded in 2005, is a state-of-the-art facility and international referral center for the treatment of hair loss that is located in midtown Manhattan, New York City. Hair transplant surgery, hair repair surgery, and eyebrow restoration are performed using Dr. Bernstein’s pioneering techniques of Follicular Unit Transplantation (FUT) and Follicular Unit Extraction (FUE).

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Q: I notice that some patients end up with hair that seems to stand straight up while others have hair that flows to one side or the other. Does the angle at which you place the follicles in the scalp ultimately determine how the hair will lie? Is there some artistic talent needed when placing these follicles so that patients end up with hair that lies flat or sticks straight up? What determines this? Do we have control over it? — H.B., Fort Lauderdale, F.L.

A: Great question. You are correct, the angle of the recipient sites largely determines the hair direction. Hair should be planted the way it grows (i.e., in a forward and horizontal direction at the frontal hairline.) It is extremely important that it is transplanted that way to look natural. The body will alter the angle a bit as it heals, usually elevating it slightly and re-creating any prior wave (yes, waves are determined by the scalp, rather than by the hair follicles per se). In a properly performed hair transplant, a straight-up appearance should be due to grooming, it should not have been a result of the actual procedure. Hair should never be transplanted perpendicular to the scalp. I discussed these important concepts way back in my 1997 paper “The Aesthetics of Follicular Transplantation“.

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Q: What is Lichen planopilaris? — G.S., Pleasantville, NY

A: Lichen planopilaris (LPP) is a distinct variant of cicatricial (scarring) alopecia, a group of uncommon disorders which destroy the hair follicles and replace them with scar tissue. LPP is considered to have an autoimmune cause. In this condition, the body’s immune system attacks the hair follicles causing scarring and permanent hair loss. Clinically, LPP is characterized by the increased spacing of full thickness terminal hairs (due to follicular destruction) with associated redness around the follicles, scaling and areas of scarred scalp. In contrast, in androgenetic alopecia (AGA) or common baldness, one sees smaller, finer hairs (miniaturization) and non-inflamed, non-scarred scalp. Complicating the picture is that LPP and AGA can occur at the same time – particularly since the latter condition (common baldness) is so prevalent in the population (see photo). And LPP can involve the frontal area of the scalp, mimicking the pattern of common genetic hair loss. Interestingly, the condition is more common in women than in men.

For those considering a hair transplant, ruling out a diagnosis of LPP is particularly important as transplanted hair will often be rejected in patients with LPP. In common baldness, the disease resides in the follicles (i.e., a genetic sensitivity of the follicles to DHT). Since the donor hair follicles remain healthy, even when transplanted to a new location, we call common baldness donor dominant. It is the reason why hair transplantation works in persons with common baldness. In contrast, LPP is a recipient dominant condition. This means that the problem is in the recipient area skin, so if healthy hair is transplanted into an area affected by LPP the hair may be lost.

Because it is so important to rule out suspected LPP when considering a hair transplant and because it is often hard to make a definitive diagnosis on the physical exam alone, a scalp biopsy is often recommended when the diagnosis of LPP is being considered by your doctor. A scalp biopsy is a simple five minute office procedure, performed under local anesthesia. Generally one suture is used for the biopsy site and it heals with a barely detectable mark. It takes about a week to get the results. The biopsy can usually give the doctor a definitive answer on the presence or absence of LPP and guide further therapy. If the biopsy is negative, a hair transplant may be considered. If the biopsy shows lichen planopilaris, then medical therapy would be indicated.

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Q: How long are FUT and FUE visible after the procedures? — S.V., Weston, C.T.

A: The recipient area is visible after both procedures for up to 10 days. The donor area in FUT is generally not visible immediately after the procedure. In FUE, the donor area must be shaved, so that will be visible for up to two weeks (the time it takes for the hair to grow in).

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Robotic FUE has improved Follicular Unit Extraction by automating what has been a labor intensive and often inexact manual procedure. It is the latest in a long line of improvements made to hair restoration procedures that lead to better results for hair transplant patients. Dr. Bernstein’s recent publication in Hair Transplant Forum International improves the FUE procedure even further, whether performing follicular unit extraction with the FUE robot or by hand.

In his article, Dr. Bernstein suggests two techniques to enhance the FUE procedure. First, he recommends that surgeons create recipient sites prior to extraction, in order to decrease the time grafts are in their holding solution outside the body. Second, he suggests adding time between site creation and graft harvesting and placement, to allow recipient site healing to progress.

Pre-Making Recipient Sites

As is discussed in the full article (which is available for viewing and download in our Medical Publications section), by making recipient sites first, the time grafts are out of the body will be reduced.FUE procedures lend themselves to easily reversing the normal hair transplant sequence of graft (strip) harvesting followed by dissection and site creation.

These “pre-made” recipient sites will also exhibit less bleeding than newly created sites and will exhibit the stickiness that makes older sites easier to place grafts into with less popping (a common source of graft injury). Besides allowing the placing step to proceed more quickly, pre-making sites will reduce the risk of mechanical injury inherent in repositioning elevated grafts.

After Site Creation, Add Delay between Graft Harvesting and Placement

While Dr. Bernstein acknowledges the expediency for the hair restoration physician, as well as the comfort of the patient in a single-day session, he suggests that, to facilitate growth after a transplant, multiple-day procedures should be considered in large hair transplant sessions that involve the placement of thousands of grafts.

In conclusion, these two modifications -— pre-making recipient sites and adding a delay before graft placement -— to the FUE procedure can potentially contribute to better growth due to easier, less traumatic graft insertion, a shortened time “out of body,” and the creation of a more fertile bed for the implanted grafts.

View the full article to read details about these and other potential advantages of pre-making recipient sites

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Q: Can shock loss be eliminated by using special surgical techniques? — R.P., Short Hills, NJ

A: Although there have been no scientific studies proving this, shock hair loss can most likely be minimized by keeping the recipient sites parallel to the hair follicles, by not creating a transplanted density too great in areas of existing hair, and by using minimal epinephrine (adrenaline) in the anesthetic. We implement all of these techniques. Finasteride may also decrease shock hair loss, or at least help any (miniaturized) hair that is lost to re-grow. That said, some shock hair loss from a hair transplant is unavoidable regardless of the technique as it is a normal physiologic response to stress.

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ARTAS at Bernstein Medical - Center for Hair Restoration
Dr. Bernstein and Staff with ARTAS System

We are pleased to announce that robotic FUE is now available at Bernstein Medical – Center for Hair Restoration. This is a major advance in FUE technology.

The ARTAS system for hair restoration allows us to more effectively isolate follicular unit grafts from the donor area of the scalp without causing damage to individual follicles, a problem that has been a limitation of manual FUE techniques. Many other important parts of the FUE procedure will still be performed by the physician and team, including actual removal of the follicular units from the scalp, recipient site creation, and graft placement. The aesthetic elements that give a hair transplant a natural-looking result will still be in the hands of the physician. Read more about the benefits of robotic hair transplantation.

We are proud of the cutting-edge work we do in our state-of-the-art medical facility and are excited as we take FUE hair transplantation to the next level.

View our press release about the ARTAS system at Bernstein Medical.

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Q: Does the robotic hair transplant system do the whole operation or does the doctor do any of it? — B.W., Brooklyn, NY

A: The ARTAS robot only performs a small part of the FUE procedure, although it is an important one. FUE comprises four basic steps:

  1. Isolation of follicular units from the surrounding skin
  2. Removal of follicular units from the scalp
  3. Making recipient sites
  4. Placing grafts into these sites

The robot only performs the first step, follicular unit isolation.

Even in this first step, however, physician control is extremely important, as the doctor must determine the precise depth to which both the sharp and blunt dissection are set. They must also make constant adjustments to the angle that aligns the instrument with the graft.

The ARTAS robotic system gets all of its cues from the surface of the skin, so that it can place the target follicular unit in the exact center of the cutting field of the robotic tip. It can also align the tip parallel with the emergent hairs. However, the angle of the hair as it emerges from the scalp is slightly different than the angle below the skin and the doctor needs to tell the robot what this angle is. Fortunately, the robotic imaging system provides the doctor with the information he needs to make this determination.

Read about Robotic Hair Transplantation.

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Q: What does the hair transplantation process do to your existing hair? — R.V., London, UK

A: When we perform hair transplant surgery, we transplant into an area that is either bald or has some existing hair. The hair that is existing is undergoing a process called miniaturization. What this means is that the hairs are continuing to decrease in size – both in diameter and in length. When we perform a hair transplant, we don’t transplant around the existing miniaturized hair on your scalp, we transplant through it. And the reason why we do that is because the miniaturized hair, the fine hair that is being affected by DHT, is eventually going to disappear, so you don’t want there to be any gaps.

So the question is, does the hair transplant actually destroy the existing hair? The answer is that it doesn’t destroy, but it can “shock” it. In other words, creating recipient sites (that the grafts are placed into) will temporarily alter the local circulation of the scalp and this can cause some of the hair in the area to be shed. The reason why hair may be shed is that hair is naturally cyclical. In other words, hair is normally growing, shedding, and then regrowing again. When you stress the scalp, the growing hair may be shed prematurely, but then it regrows.

If you think about the process of electrolysis, it makes sense that you don’t damage follicles from making recipient sites during a hair transplant procedure. In electrolysis used to treat unwanted hair, you stick a needle in the follicle, and you turn on an electric current. And you burn it. And then what happens to the hair? It usually comes back and you need to do it a few more times, even though we are applying an electric current via a needle placed directly in the follicle. So it makes sense that by just inserting a fine needle – the tool commonly used to make a hair transplant site – into the skin, one would not destroy hair follicles. However, the cumulative effect of making hundreds or thousands of recipient sites does shock the follicles and, as a result, some may shed their hair.

It can occur with general anesthesia – when the scalp is not even touched – and it can occur with oral medications, from pregnancy, or after psychological stress. So if you have hair restoration surgery and there is shedding, and it takes six months to a year for the transplanted hair to grow in, during this time hair transplant patient will experience some thinning. Since miniaturized hair is going to eventually disappear anyway, some of the miniaturized hair that is shed may not return. But if it is healthy hair, and it is shed, it will grow back. And, of course, the transplanted hair will be growing in as well during this time.

I am often asked to describe how much can be expected to be shed. The answer is that it is an amount that is often noticeable by the patient, but not noticeable by anyone else.

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Q: With the ARTAS robotic system for FUE hair transplantation, by Restoration Robotics, what part of the FUE hair transplant procedure can actually be done by the robot? — A.M., Los Angeles, CA

A: The ARTAS System is a computer-guided method of harvesting follicular units in the donor area during Follicular Unit Extraction (FUE). The initial phase of FUE, where the follicles are selected, scored and separated from the surrounding scalp is done by the ARTAS System. All other phases of the procedure including; actual follicular unit graft removal from the scalp, hairline design, recipient site creation and placement of the grafts into the balding scalp are done by the surgical team.

In the near future, improvements in the ARTAS System should allow it to be able to actually extract the separated grafts from the scalp. Eventually, the engineers hope to be able to increase the capability of the system so that it can create recipient sites and implant the extracted grafts into them.

Read about Robotic FUE Hair Transplantation

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Q: How does the ARTAS robotic hair transplant system actually work? — J.N., Fort Lee, NJ

A: The ARTAS System for Follicular Unit Extraction (FUE) combines several features including an interactive, image-guided robotic arm, special imaging technologies, small skin punches of two different sizes, and a computer monitor. After the system is positioned over the patient’s donor area of the scalp, ARTAS is capable of identifying and isolating follicular units from the surrounding scalp.

After the robotic arm is aligned with the follicular unit, a sharp 1-mm punch is used to cut through the upper part of the skin (the epidermis and upper dermis).

Immediately following this, a duller, 1.3mm punch is used to separate the deeper part of the follicular unit from the remainder of the dermis and subcutaneous fat. Once separated by the robot, the follicular units are manually removed from the scalp and stored until they are implanted into the patient’s recipient area.

Read about robotic FUE hair transplantation

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Robert M. Bernstein M.D.

Robert M. Bernstein, M.D., F.A.A.D., Renowned Hair Transplant Surgeon and Founder of Bernstein Medical – Center for Hair Restoration in New York, is Studying Four Applications of ACell MatriStem™ Extracellular Matrix in a Type of Hair Cloning, Called Hair Multiplication, as well as in Current Hair Restoration Procedures.

New York, NY (PRWEB) March 15, 2011 – Robert M. Bernstein, M.D., F.A.A.D., Clinical Professor of Dermatology at Columbia University in New York and founder of Bernstein Medical – Center for Hair Restoration, has been granted approval by the Western Institutional Review Board (WIRB) to study four different applications of the ACell MatriStem extracellular matrix (ECM) in hair restoration.

Hair Cloning with ACell MatriStemHair Cloningwith ACell MatriStem

Two of the studies include its use in a type of hair cloning, called hair multiplication, where plucked hairs and transected follicular units are induced to generate new hair-producing follicles. The other two areas of study include evaluating the use of the ECM in current hair transplant procedures to enhance hair growth and facilitate wound healing.

Approval by the WIRB allows the researchers to conduct double-blinded, bilateral controlled studies. Controlled studies are the best way to increase the objectivity of the research and insure the validity of the results.

“The medical research we are performing is important because it may lead to hair multiplication as a way to increase a person’s supply of donor hair. In this way, patients would no longer be limited in the amount of hair which can be used in a hair restoration procedure,” said Dr. Bernstein. “Additionally, in the near-term, the extracellular matrix may be able to improve the cosmetic benefit of current hair transplant procedures. We are simultaneously pushing the boundaries of hair cloning methods and follicular unit transplantation.”

Hair multiplication, a variation of what is popularly known as hair cloning, is a procedure where partial hair follicles are stimulated to form whole follicles. These parts can either be from hairs derived from plucking or from follicles which have been purposely cut into sections. Generally, damaged follicular units will stop growing hairs. However, there is anecdotal evidence that an extracellular matrix applied to partial follicles may stimulate whole follicles to grow and, when applied to wounds, may stimulate the body’s cells to heal the damaged tissue.

This new medical research also attempts to show that ACell can improve the healing of wounds created when follicular units are harvested for hair transplant surgery. Currently, in follicular unit hair transplant procedures, a linear scar results when a surgeon incises the patient’s scalp to harvest follicular units. Occasionally, this scar can be stretched, resulting in a less-than favorable cosmetic result. If ECM can induce the wound to heal more completely, the linear scar may be improved. The extracellular matrix may also benefit general hair growth in hair transplantation in that the sites where hair is transplanted, called recipient sites, can be primed with ECM to encourage healthy growth of the hair follicle.

Dr. Bernstein is known world-wide for pioneering the hair restoration procedures of follicular unit transplantation (FUT) and follicular unit extraction (FUE). Follicular units are the naturally-occurring groups of one to four hair follicles which make up scalp hair. These tiny structures are the components which are transplanted in follicular unit hair transplants.

While hair cloning has been of great interest to hair restoration physicians and sufferers of common genetic hair loss, the method by which this can be achieved has yet to be determined. The use of ACell’s extracellular matrix to generate follicles is a promising development in achieving this elusive goal. In addition to the longer term implications of using ECM in hair multiplication, its impact on hair restoration will be more immediate if it can be proven effective when used in current FUT procedures.

About Dr. Robert M. Bernstein:

Dr. Bernstein is a certified dermatologist and pioneer in the field of hair transplant surgery. His landmark medical publications have revolutionized hair transplantation and provide the foundation for techniques used by hair transplant surgeons across five continents. He is respected for his honest and ethical assessment of a patient’s treatment options, exceptional surgical skills, and keen aesthetic sense in hair transplantation. In addition to his many medical publications, Dr. Bernstein has appeared as a hair loss or hair transplantation expert on The Oprah Winfrey Show, The Dr. Oz Show, Good Morning America, The Today Show, The Discovery Channel, CBS News, Fox News, and National Public Radio; and he has been interviewed for articles in GQ Magazine, Men’s Health, Vogue, the New York Times, and others.

About Bernstein Medical – Center for Hair Restoration:

Bernstein Medical – Center for Hair Restoration is a state-of-the-art hair restoration facility and international referral center, located in midtown Manhattan, New York City. The center is dedicated to the diagnosis and treatment of hair loss in men and women. Hair transplant surgery, hair repair surgery, and eyebrow transplant surgery are performed using the follicular unit transplant (FUT) and follicular unit extraction (FUE) surgical hair restoration techniques.

Contact Bernstein Medical – Center for Hair Restoration:

If you are a journalist and would like to discuss this press release, please email us or call us today (212-826-2400) to schedule an appointment to speak with Dr. Bernstein.

View the press release at PRWeb.

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Q: I am considering a hair transplant and would like to have the procedure and not be overly obvious about it. What are my options in hiding or concealing any redness after a week or so after the hair restoration. — R.T., Manhattan, NY

A: There are a number of factors that can make a hair transplant obvious in the post-op period. These include the redness that you are asking about, but also crusting and swelling.

Redness after hair restoration surgery is easily camouflaged with ordinary make-up. At one week post-op, the grafts are pretty secure, so that make-up can be applied and then gently washed off at the end of the day. Since the recipient wounds are well healed by one week, using make-up does not increase the risk of infection. At 10 days after the hair transplant, the grafts are permanent and cannot be dislodged, therefore, at this time the makeup can be removed without any special precautions.

Usually, residual crusting (scabbing) presents more of a cosmetic problem than redness, but can be minimized with meticulous post-op care. Crusts form when the blood or serum that oozes from recipient sites after the procedure dries on the scalp. Although it is relatively easy to prevent scabs from forming with frequent washing of the scalp after the surgery, once the scabs harden they are difficult to remove without dislodging the grafts.

Fortunately, if a hair transplant is performed using all follicular units, the recipient sites (the holes that the grafts are placed into) are so small that any oozing stops within a day. Therefore, frequent shampooing the day after the hair transplant procedure will prevent the scabs from forming and make the transplant less obvious. Preventing the scabs from forming in the first place will have the added advantage of decreasing the post-operative redness. However, if the scabs do form and adhere to the hair, one should wait a full 10 days before scrubbing them off, to insure that the grafts are not dislodged. Again, at ten days post-op the grafts are permanent.

Swelling (the medical term is edema) is another cosmetic problem that can appear in the post-op period after hair transplants. It can be significant in about 25% of patients. It begins at the hairline, descends onto the forehead, and then settles onto the bridge of the nose and around the eyes, before it finally disappears. The entire process takes a few days to a week. The incidence, degree and duration of swelling can be significantly decreased if the hair transplant surgeon adds cortisone to the anesthetic solution used to numb the scalp. An injection of cortisone in the arm (or oral prednisone) is also useful in decreasing the chance of post-op edema. Sleeping with the head elevated for several days following the hair restoration procedure can also help prevent any significant swelling.

Finally, the patient’s existing hair is very useful in hiding any tell-tale signs of a hair transplant in the post-op period. The doctor should be experienced at working through existing hair, so the hair restoration procedure can be performed without the need to cut the patient’s hair (if that is the person’s preference). Longer hair on the back and sides will camouflage the donor incision and hair on the top of the scalp will mask redness and residual crusting. Hair combed forward can also minimize the visibility of any facial swelling, if it should occur.

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Q: How do you make the recipient sites in a hair transplant? — N.P., New Delhi, India

A: I make the recipient sites using 19-, 20-, 21- and 22-gauge needles. The higher the number, the finer the needle. The hairline is done with a 21-gauge, which is really very tiny. Eyebrow sites are created with a 22-. When one draws blood in a routine blood test, an 18-g needle is used and, of course, there are no residual marks. The instruments we use are significantly finer than this.

For further reading on this topic, please visit our page on recipient sites in a hair transplant.

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Q: How are grafts distributed in a hair transplant? Are they distributed evenly? — B.V., Jersey City, NJ

A: Actually, we don’t make the transplanted hair evenly distributed. It is usually front weighted, so that the hair restoration will look most full when looking at the person head on.

Framing the face is the most important part of the restoration. Covering the top is the next most important region and, if the patient has enough donor supply, then hair can be added to the crown.

For a more detailed discussion of this topic, view our page on recipient sites in a follicular unit hair transplant. Also, read the publication written by Dr. Bernstein in 1997 which became the industry benchmark for aesthetics in hair transplant surgery, “Aesthetics of Follicular Transplantation.”

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ACell, Inc. - Regenerative Medicine TechnologyNew developments in regenerative medicine, presented at the 18th Annual Scientific Meeting of the International Society for Hair Restoration (ISHRS) this past week, may have opened the possibility that a patient’s hair can be multiplied in his own scalp.

ACell, Inc., a company based in Columbia, Maryland, has developed and refined an Extracellular Matrix (ECM), a natural biological material that can be implanted at the site of an injury or damaged tissue in order to stimulate a unique healing response. The ECM stimulates the body’s own cells to form new tissue specific to that site (a process referred to as “Auto-cloning”).

The ACell MatriStem devices have had some preliminary success in allowing plucked hairs that were placed into recipient sites on the patient’s scalp to grow. Although this is a major breakthrough, significant work remains in order for hair multiplication to become a practical treatment for hair loss in men and women.

It is also anticipated that the regenerative properties of Extracellular Matrix will facilitate the healing of the incision in the donor area after a hair transplant. We are currently offering ACell to all patients undergoing follicular unit transplant procedures at no additional charge.

We are currently studying the use of ACell for scalp hair multiplication as well as the facilitation of wound healing in follicular unit transplantation procedures. We are also treating select patients outside the studies. If you are interested in participating, please give us a call.

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Q: I never kept my hair really long, what length can I wear my hair after a hair transplant to hide that I had a procedure? — D.F., Chappaqua, N.Y.

A: Hair transplants, whether using the strip method to harvest the donor hair or by extracting individual follicular units one-by-one directly from the scalp, will leave some scarring. If the hair is long enough so that the underlying scalp is not visible, these scars will not be seen.

The quality and density of a person’s donor hair will affect this coverage and determine how short a person may keep his hair. In some cases the back and sides can be cut to a few millimeters, in others it would need to be kept longer. Since there is no scarring in the recipient area (the front and top of the scalp where the grafts are placed) the hair in these areas may be kept at any length.

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Q: I just read a press release saying that researchers have developed a successful technique to clone hair by using a wound healing powder. To paraphrase, the press release says:

MatriStem MicroMatrix, a product of regenerative medicine, ACell, Inc., is a wound healing powder that promotes healing and tissue growth and has now proven to help regenerate hair in the donor and recipient regions of hair transplant patients. While intended to heal ulcers and burns, Gary Hitzig, M.D. and Jerry Cooley, M.D., have found that its properties offer a broader scope of treatment, including hair cloning. “We’ve made amazing breakthroughs using MatriStem as a hair cloning tool,” said Dr. Hitzig. “We’ve been able to multiply the number of hair follicles growing in the recipient area, and as an added benefit are seeing faster hair growth. This new hair cloning technique also makes hair transplantation surgery less invasive.”

Is this new technique really a breakthrough in hair cloning? And if so, when can we start cloning hair?

A: It appears from preliminary studies that plucked hairs stimulated by ACell are in some cases able to regenerate new hair. Because the hair is placed into the recipient area and is partially derived from cells in the dermis, it is not yet clear whether the hair will be effected by androgens over time or if it will continue to bald.

The research so far is promising and a number of doctors are doing research in this area, including Dr. Schweiger and myself at Bernstein Medical – Center for Hair Restoration.

For more on the topic, visit our Hair Cloning section, our page on ACell extracellular matrix devices, and answers to questions on Hair Cloning.

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Q: I have had a hair transplant done in the hairline of 1,000 or so FUE grafts. However, as the hair sheds, under natural light the recipient skin seems bumpy with incisions and holes that are noticeable. Do these tend to go away with time once they have healed? — S.S., Glencoe, I.L.

A: If a follicular unit transplant is performed properly (using either extraction or a strip) there should be no bumps or surface irregularities. When the hair restoration is totally healed, the recipient area should be appear as normal looking skin.

With FUE it is important to sort out the grafts under a microscope, to make sure that all of the grafts placed at the hairline are 1-hair grafts and that the larger grafts are place behind the hairline. They should not be planted without first being sorted under a microscope.

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Q: Hi! I wanted to ask if after hair restoration surgery the transplanted hair will eventually fall out? Because the surgery is to restore hair mainly for people with genetic hair loss which results from DHT, won’t the DHT make the new follicles implanted fall out as well? — B.C., Stamford, C.T.

A: Hair loss is due to the action of DHT (a byproduct of testosterone) on hair follicles that cause them to shrink and eventually disappear (the process is called miniaturization). The follicles on the back and sides of the scalp are not sensitive to DHT and therefore don’t bald (miniaturize).

When you transplant hair from the back and sides to the bald area on the front or top of the scalp the hair follicles maintain their original characteristics (their resistance to DHT) and therefore they will continue to grow.

Read about Miniaturization

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Q: I had a follicular unit hair transplant performed by another doctor that was scheduled for 2,500 grafts and I ended up paying for exactly that amount. I was supposed to be paying per graft, so it seems strange that it came out to be exactly 2,500? How do I know what I really got? — J.R., Westport, C.T.

A: This is a question that should be addressed to the doctor that operated on you.

If a doctor is charging by the graft, then you should know exactly how many grafts you are receiving. It is possible that he/she hit the number (2500) exactly on the head, but statistically that is extremely unlikely. In a Follicular Unit Hair Transplant (FUT) procedure, a strip is removed from the donor area and then dissected into individual follicular units, so although an experienced surgeon can remove a strip that contains close to the desired number of follicular units, it would be very rare to hit that number precisely.

More importantly, it is impossible to perform follicular unit transplantation properly without knowing both the exact number of follicular units harvested from the donor area and the exact number of hairs in each unit (i.e. the number of 1-, 2-, 3-, and 4-hair follicular unit grafts). This information is essential in determining both the distribution and density of the hair transplant and in creating transitional zones such as the frontal hairline, where single-hair follicular units are required.

In all hair transplants, the number of grafts harvested should equal the number of recipient sites, so the doctor must know the exact number of grafts so that he can make the appropriate number of recipient sites. An exception to this rule is the stick and place technique, where each graft is inserted as soon as the site is made, but this technique is much less common than first making the recipient sites. The surgeon also needs to know the number of grafts so that he can make the sites in the appropriate distribution. For example, if the number of grafts harvested was less than anticipated, the doctor can space the sites further apart, cover less of an area (for example, not extend the restoration as far back into the crown) or harvest additional donor tissue – each option having advantages and disadvantages.

It is equally important to know the exact composition of follicular units, so that different densities can be created in different areas, producing the most natural appearance. For example, the 3- and 4- hair follicular units should be placed in the central forelock area as this area normally has the most density. On the other hand, if these larger units are placed near the hairline, they will look distinctly unnatural.

So how can the patient really know? Obviously, trust in your doctor is the most important insurance. If you are skeptical about the way the doctor conducted the consult (i.e. used a salesman to encourage a sale), if he or she skipped over important options such as medication, or if you felt pressured or rushed into making a decision to have surgery; you should be skeptical about other aspects of your care as well – such as an accurate graft count.

Although just a very general guide, here are some things you can do at your consult when trying to decide if a doctor can be trusted to give you accurate information regarding the number of grafts you receive.

  1. Ask to see the operating room – see if there are plenty of microscopes (the larger the session, the more are needed).
  2. Ask the doctor how he keeps count of the grafts that are dissected and how does he record how many hairs in each follicular unit graft.
  3. Ask the doctor how he keeps track of the number of recipient sites that are made.
  4. Ask to see how all this information is documented in the patient’s medical record.
  5. Ask the doctor if he refunds money to the patient if he transplants less grafts than scheduled.
  6. Speak with other staff members to confirm the use of dissecting microscopes for the entire surgery and confirm the procedure for tracking grafts.

In sum, knowing the exact number of grafts and their composition is extremely important, not only to ensure that you are being charged fairly, but in maximizing the aesthetic results of your follicular unit transplant procedure.

Be certain that this information will be available to you (and of course your surgeon) before scheduling a procedure.

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Q: After the day of the procedure, I could see what appeared as white specks on top of my scalp. Some are sticking out above the scalp more than others. I was wondering if the entire follicular unit should be at the level of the scalp. Is it normal for some part of it to be above the scalp? (I did not receive the procedure from you.) — T.C., London, U.K.

A: It is normal for the grafts to be a little elevated and you should expect them to flatten as they heal.

The effect may be exaggerated in the shower as the grafts become hydrated, but they should settle down soon after you dry off.

As long as the grafts were no larger than follicular units and the graft sites no larger than the size of a 19g needle, there should be no permanent marks.

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Q: I had several prior hair transplants that left me with a pluggy look, I was hoping to re-utilize the removed hair and re-implant it, perhaps in the front as a new, more recessed hairline. It is possible?

A: The hair from the excised grafts is always re-implanted.

The grafts that are removed are dissected into individual follicular units and then placed back in the recipient area in a more natural distribution and angle. See Patient LKE’s before and after photos in the Hair Transplant Repair Photo Gallery.

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Q: What is the difference between the following ways of doing hair transplants: Follicular Unit Transplantation (FUT), Ultra-refined FUHT, and Follicular Unit Extraction (FUE)? — N.D., Meatpacking, N.Y.

A: Please see the Bernstein Medical – Center for Hair Restoration website as it explains Follicular Unit Transplantation (FUT) and Follicular Unit Extraction (FUE) in detail.

In brief, with FUT, follicular units are obtained from the microscopic dissection of a donor strip that has been removed from the back of the scalp. In FUE, the doctor attempts to remove intact follicular units directly from the scalp via a small round instrument called a punch.

Ultra Refined FUHT (Follicular Unit Hair Transplantation) is term that Pat Hennessey uses on his Hair Transplant Network. It refers to using very tiny recipient sites, carefully dissected follicular unit grafts, and large hair transplant sessions in FUHT procedures.

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Q: Some surgeons are doing hair transplants using 5,000 to 6,000 grafts in a single surgery. Looking at the cases in your photo gallery, it seems like your hair transplants involve many fewer grafts per surgery. Do you do such large graft numbers in a single hair restoration procedure? — H.P., Cranston, R.I.

A: The goal in surgical hair restoration should be to achieve the best results using the least amount of donor hair (the patient’s permanent reserves) and not simply to transplant the most grafts in one session. In my opinion, although large sessions are very desirable, the recent obsession with extremely large numbers of grafts in one session is misplaced. The focus should be on results.

For example, I would prefer to have full growth with a properly placed 2,500 – 3,000 graft hair transplant session than partial growth in a 5,000 graft session. Of course, the 5,000 graft session will look fuller than 2,500 grafts but, in my experience, never twice as full, and never as full as two 2,500 graft sessions.

The ability to perform large sessions is possible because of the very small recipient sites needed in Follicular Unit Transplantation (FUT). It is one of the main reasons that we developed this procedure in back in 1995. See the first paper on this subject: Follicular Transplantation.

However, like all good things, the technique loses some of its advantage when taken to extreme.

In “very” large sessions, the long duration of surgery, the increased time the grafts are outside the body, the increased amount of scalp wounding, risk of poor growth, wider donor scars, placing grafts where they are not needed, sub-dividing follicular units, and the decreased ability to plan for future hair loss, can all contribute to suboptimal results. These problems don’t always occur, but the larger the session, the greater the risk. Therefore, it is important to decide if one’s goal is simply to transplant the maximum amount of hair that is possible in one session, or to get the best long-term results from your hair restoration.

Follicular Unit Preservation

One of the most fundamental issues is that doctors using very large sessions are not always performing “Follicular Unit Transplantation” and, therefore, in these situations the patients will not achieve the full benefit of the FUT procedure. Although doctors who perform these very large sessions take the liberty of calling their surgery “Follicular Unit Transplantation,” in actuality it is not, since naturally occurring follicular units are not always kept whole. The procedure is defined as follows: “Follicular Unit Transplantation is a method of hair restoration surgery where hair is transplanted exclusively in its naturally occurring, individual follicular units.” (see Hair Transplant Classification)

By preserving follicular units, FUT maximizes the cosmetic impact of the surgery by using the full complement of 1 to 4-hairs contained in naturally occurring follicular units. A whole follicular unit will obviously contain more hair than a partial one and will give the most fullness. Keeping follicular units whole also insures maximal growth since a divided follicular unit loses its protective sheath and risks being damaged in the dissection.

It can sound impressive to claim that you performing very large hair transplants, but if the large numbers of grafts are a result dividing up follicular units, then the patient is being short-changed. The reason is that, although the number of grafts is increased, the total number of hairs transplanted is not. A 3-hair follicular unit that is split up into a 1-hair and 2-hair micro-graft will double the graft count, but not change the total number of hairs actually transplanted. In fact, due to the increased dissection, more fragile grafts, and all the other potential problems associated with very long hair transplant sessions, the total number of hairs that actually grow may be a lot less. Please look at the section “Limits to Large Hair Transplant Sessions” on the Graft Numbers page of the Bernstein Medical – Center for Hair Restoration website for a more detailed explanation of how breaking up follicular units can affect graft counts.

Donor Scarring

Since there are around 90 follicular units per cm2 in the donor scalp, one needs a 1cm wide by 28cm long (11inch) incision to harvest 2,500 follicular units. A 5,000 follicular unit procedure, using this width, would need to be 22 inches long, but the maximum length one can harvest a strip in the average individual is 13 inches (the distance around the entire scalp from one temple to the other).

In order to harvest 5,000 grafts, one would need 5,000 / 90 FU/cm2 = 55.6cm2 of donor tissue. If one takes the full 13 inch strip (33cm), then it would need to be 1.85 cm wide (55.6cm2 / (33cm long) = 1.85cm wide) or 1.85/2.54= ¾ of an inch wide along its entire length. However, one must taper the ends of a strip this wide (you can’t suture closed a rectangle) and, in addition, you can’t take such a wide strip over the ears. When you do the math again, it turns out that for most of the incision, the width must be almost an inch wide, an incredibly large amount of tissue to be removed in one procedure.

This large incision obviously increases the risk of having a wide donor scar – probably the most undesirable complication of a hair transplant. Needless to say, very large graft counts are achieved by sub-dividing follicular units rather than exposing the patient to the risk of an excessively large donor incision.

Popping

There are other issues as well. Large sessions go hand-in-hand with very high graft densities, since you often need these densities to fit the grafts in a finite area. The closer grafts are placed together, the greater the degree of popping. Popping occurs when a graft that is placed in the skin causes an adjacent one to lift-up. When a graft pops (elevates above the surface of the skin) it tends to dry out and die. Some degree of popping is a normal part of most hair transplant procedures and can be easily controlled by a skilled surgical team, but when it is excessive it can pose a significant risk to graft survival.

The best way to decrease the risk of popping being a significant problem is to not push large sessions (and the associated very dense packing) to the limit. In a patient’s first hair restoration procedure, it is literally impossible to predict the likelihood of excessive popping and once a very large strip is harvested, or the recipient sites are created in a very large session, it may be too late to correct for this. In addition, popping can vary at different times during the procedure and in different parts of the scalp adding to the problem of anticipating its occurrence.

Even if the distribution of grafts is well planned from the outset, a very large first session may force the surgeon to place hair in less-than-optimal regions of the scalp when popping occurs. This is because the surgeon must distribute the grafts further apart and thus over a larger area to prevent popping.

Blood Flow

Particularly where there is long-standing hair loss, the blood flow to the scalp has decreased making the scalp unable to support a very large number of grafts. This is not the cause of the hair loss, but the result of a decreased need for blood when the follicles have disappeared. In addition, persons that have been bald for a long time often have more sun damage on their scalp, a second factor that significantly compromises the scalp’s blood supply and may compromise the follicles survival when too many grafts are placed in one session. As with popping, the extent of photo-damage, as seen when the scalp gets a dusky-purple color during the creating of recipient sites, often only becomes evident once the procedure is well under way.

In the healing process following the first hair transplant, much of the original blood supply returns and this makes the scalp able to support additional grafts (this is particularly true if one waits a minimum of 8-10 months between procedures). This is another reason why it is better to not to be too aggressive in a first session when there is long-standing baldness or significant photo damage and where the blood supply may be compromised.

Limited Donor Supply

Another issue that is overlooked in performing a very large first session is that the average person only has about 6,000 movable follicular units in the donor area. When 5,000 grafts are used for the 1st procedure there will be little left for subsequent sessions and limit the ability of the surgeon to increase density in areas such as the frontal forelock or transplant into new areas when there is additional hair loss.

Conclusion

There are many advantages of performing large hair transplants, including having a natural look after one procedure, minimizing the number of times the donor area is accessed, and accomplishing the patient’s goals as quickly as possible. However, one should be cautious not to achieve this at the expense of a wider donor scar, poor graft growth, or a compromised ability to plan for future hair loss.

Achieving very high graft numbers should never be accomplished by dividing up the naturally occurring follicular units into smaller groups, as this increases the risk to the grafts, extends the duration of surgery, increases the cost of the procedure (when charging by the graft) and results in an overall thinner look.

For further discussion see:

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Q: I recently had a hair transplant procedure done in Florida and it has been about 8 months. When I am in direct overhead light and when sunlight is behind me, I see many tiny holes that are not visible under normal light. I know these are where they placed the transplanted hair but need to know if there is a way to remove these tiny holes. I am obviously not getting any answers from the doctor that performed the hair restoration. I am wondering if dermal fillers, dermabrasion, or laser treatment would work to fix this and if so, do you offer these treatments?

A: This condition is often referred to as pitting and occurs when grafts are placed below the surface of the skin. It is more common with large grafts rather than small ones and is almost never seen in Follicular Unit Transplantation (FUT).

In general, visible holes can result from mini-micrografting hair transplant procedures where the grafts (and thus the recipient sites needed to hold them) are larger than approximately 1.2mm. Recipients sites smaller than 1.2 rarely leave any mark. In follicular unit hair transplant procedures, the grafts will fit into sites smaller than 1.2mm so surface changes are generally not seen (even if the grafts are not placed flush with the skin).

It is difficult to fix the holes directly with the methods you listed as fillers do not fix well defined holes and laser-abrasion and dermabrasion may destroy the surrounding hair.

A properly performed second procedure that places follicular unit grafts in the area should correct the problem.

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Q: Should I cut my hair prior to the hair transplant? — R.R., Poughkeepsie, N.Y.

A: It is easier for the hair transplant surgeon and his team to work when the existing hair in the area to be transplanted is cut short, but a skilled surgeon can work well in either situation. Most experienced surgeons are used to working without cutting the hair in the recipient area, since so few patients want their hair to be cut – particularly in New York.

The main advantage of having a closely clipped scalp is that one has better visibility and therefore the procedure moves along faster. This has little bearing in moderately sized sessions, but becomes very important in sessions over 2,400 grafts, when working through existing hair can make the duration of the procedure excessively long. Of course, the disadvantage of clipping the hair is that it is more difficult to “hide” the procedure.

I prefer for the patient to arrive the morning of the scheduled hair restoration with his/her hair having some length so that I can better see the demarcation of the area of thinning. Once the area is marked, the hair can be clipped to the appropriate length in the operating room. Although the hair transplant will be more visible post-op if the hair is clipped short, it is much easier for the scalp to be kept free of crusts.

It is important to differentiate between a closely clipped scalp, which is an advantage, and a shaved head, which makes performing the hair transplant more difficult. When there is some existing hair, the distribution and angle of the original hair is easy to discern and this allows the new grafts to be placed in a direction that follows the existing hair and in a distribution that complements that hair.

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Q: What exactly is compression in a hair transplant? — D.O., Short Hills, N.J.

A: Compression refers to the visible tufting of grafts due to the contraction of the grafts from the normal elasticity of skin around it, after it has been inserted into the recipient site. Compression is most commonly seen when minigrafts are used in the hair restoration (minigrafts contain more than four hairs each). Follicular units don’t show visible compression, since they are already naturally compact. However, if more than one follicular unit is placed into the same site, it can exhibit this phenomenon.

Compressed grafts will become less visible as more hair is transplanted to the area, but if they are close to the hairline or in areas where a lot of density may not be planned (such as in the crown) they may have to be removed. In this case, they can be placed under a microscope, divided up into smaller grafts and re-implanted.

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Q: What causes graft popping during a hair transplant? G.K. – Carle Place, N.Y.

A: Popping, or the tendency for grafts to elevate after they have been placed into the recipient area, is caused by a number of factors including:

  • Packing the grafts too closely, particularly when they are placed on a very acute (sharp) angle with the skin
  • Rough placing techniques
  • Bleeding
  • Poor fit between the graft and recipient site
  • Natural characteristics of the patient’s skin, including the elasticity and stickiness of wound edges

The problem with popping is that it exposes grafts to drying (while they are elevated on the skin surface) and trauma (when they have to be re-inserted).

The judgment and experience of the surgeon performing hair transplants is extremely important in minimizing popping. It is important that the surgeon customize the site size to the different size follicular unit grafts and to test the recipient sites as they are made, to make sure that the “fit” is perfect.

Although it is important to place grafts close together to get the best cosmetic result possible, over-packing of the grafts risks popping and other factors (such as overwhelming the blood supply) that may lead to poor growth.

In the end, maximum growth of the transplanted hair should be the primary goal.

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Q: What is “shock fall out”? – D.B., Chappaqua, N.Y.

A: Shedding after a hair transplant is also referred to by the very ominous sounding term “shock fall out.” The correct medical term is “effluvium” which literally means shedding. It is usually the miniaturized hair (i.e. the hair that is at the end of its lifespan due to genetic balding) that is most likely to be shed. Less likely, some healthy hair will be shed, but this should re-grow.

Interestingly, if transplants are spaced less than one year apart, one often notices some shedding of the hair from the first transplant, but this hair grows back completely. For most patients, effluvium is not a major issue and should not be a cause for concern.

Typically, when shedding occurs, a patient looks a little thinner during the several month period following the transplant, before the transplanted hair has started to grow. The thinning is often more noticeable to the patient than to others. Shedding is generally noted as a thinning, rather than of “masses of hair falling out,” as the term “shock fall out” erroneously suggests.

In general, the more miniaturization one has and the more rapid the hair loss, the more likely shedding will be from the hair restoration surgery. Young, actively balding patients would be at the greatest risk. Older patients with stable hair loss would have the least risk. In either situation, since miniaturized hair is eventually going to be lost, the effluvium has no long-term effect on the outcome of the procedure.

It is important to differentiate the phenomena described above from shedding of the hair in the graft. This shedding is an almost universal characteristic of a hair transplant and occurs because during a hair transplant a graft is temporarily stripped of its blood supply. As a response to this insult, the graft sheds its hair. This shedding is generally noted beginning a week following the procedure and can continue for up to six weeks. A very small percentage of patients do not shed and the transplanted hair continues to grow. In others, the transplanted hair remains on the scalp for months until a new hair pushes it out. Whether a patient sheds or not has no bearing on the outcome of the hair restoration.

There are a number of ways to minimize the effects of post-operative shedding: the first is using medication, the second is timing the transplant properly, and the third is performing a procedure using a sufficient number of grafts.

• Medication

Finasteride 1mg reverses or halts the miniaturization process in many individuals and is thus the logical way to decrease the risk of shedding following a transplant. Although many physicians have had the clinical impression that this assumption is correct, there has been no controlled studies to date that prove this.

• Timing and the size of the transplant

It is important to wait until a patient is ready to have a transplant, and then to perform one of sufficient size so that if there is some shedding, the procedure will more than compensate for it – and thus be worthwhile. A problem that patients often run into is that they present to their doctor with early hair loss but with a significant amount of miniaturization. The doctor performs a small procedure and it does not even compensate either for potential shedding or for progression of the hair loss. The result is that the patient is thinner (or more bald) than he was before the procedure. The doctor rarely blames the problem on the fact that the procedure was too small or that the miniaturization was not taken into account, but only that the patient continued to bald. The better solution is to treat early hair loss with medication, but once you make a decision to begin surgery, have a procedure large enough to make a significant cosmetic improvement.

• Performing the procedure using a sufficient number of grafts

As a final point, it is a fallacy that some doctors’ techniques are so impeccable that they can avoid effluvium or those “small” procedures will avoid shedding. Of course, bad techniques and rough handling will maximize effluvium, but effluvium is what hair naturally does when the scalp is stressed and it is stressed during a transplant from the anesthetic mixture and the recipient site creation. It is important to note that it cannot be totally prevented. Despite claims to the contrary, Follicular Unit Extraction has no bearing on this process as it is a harvesting rather than a placing technique.

In sum, the best way to deal with effluvium is:

  • Treat with Finasteride — the active chemical in the hair loss drug Propecia — when hair loss is early
  • Perform a hair transplant only when indicated
  • Perform a hair transplant with skill and using a sufficient number of grafts
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Q: What is graft compression? — E.Z. Wayne, N.J.

A: Graft compression refers to a tufted look resulting from the contraction of grafts caused by the normally elastic skin that contracts around the graft as the hair transplant heals. This was a common occurrence with mini-micrografting where 5 or more hairs from two or more follicular units were placed into one recipient site.

With follicular unit hair transplantation, follicular units won’t show visible compression since they are already naturally compact.

One reason why FU’s are valuable in a transplant is that they are compact enough to fit into a very small site. It is important, however to “customize” the site size to the size of the graft so the fit is just perfect. This speeds up healing, enables the patient to shampoo the day after surgery, and enhances graft growth.

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David Perez-Meza, MD, Melvin Mayer, MD

SUMMARY of Dr. Perez-Meza’s Abstract from his presentation at the International Society of Hair Restoration Surgery, 2005 – Sidney, Australia

There have been great advances in hair restoration surgery over the past decade. New surgical techniques, instruments and medications have been developed to treat patients with hair loss. Some surgeons use needles to create the recipient sites and others use blades – both groups obtaining great results. There is some controversy, however, about the “ideal” instrument to make the recipient sites.

The objective of this study was to evaluate three different blades and three different needles used to make sites in the recipient area and to compare the wound healing and hair growth after the hair transplant.

Recipient sites were made using the following instruments: 18-, 19- and, 20-gauge needles, Sharpoint 22.5º, Minde 1.3 mm and Custom blades. Each instrument was used to make sites at a depth of 4 mm and at an angle of 30-45º. Two-hair follicular units were placed in pre-made incisions.

We evaluated intra-operative bleeding from the recipient sites (bleeding makes it more difficult to place the grafts). We also examined the patient at 10 days post-op for redness, swelling and scabbing, and at 6 and 12 months for terminal hair counts.

The results showed that there were no differences between the two groups with respect to intra-operative bleeding and, at 10 days, there was similar healing for each of the instruments. In addition, at 6 and 12 months, the hair counts were similar.

Our conclusions were that all of the instruments produced similar hair growth and survival. None of the instruments produced cysts, ingrown hairs, pitting or cobblestoning. There was similar naturalness, quality of hair and cosmesis. In sum, if one uses very small instruments in the hair transplant, similar results will be observed regardless of the specific type of instrument used.

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Follicular Unit Transplantation - Dermatologic Clinics“Dermatologic Clinics” is a quarterly review with comprehensive, state-of-the-art information by experts in the field of dermatology. The industries most highly knowledgeable medical professionals provide current, practical information on the diagnosis and treatment of conditions affecting the skin. Each issue of Dermatologic Clinics focuses on a single topic. The July 2005 issue, entitled “Advanced Cosmetic Surgery”, published an article authored by Robert M. Bernstein M.D, and co-authored by William R. Rassman M.D. entitled “Follicular Unit Transplantation: 2005.”

In their article on FUT, the authors helped the dermatologic community to better understand the best practices of surgical hair restoration. Follicular Unit Transplantation (FUT) focuses on recognizing that the follicular unit is a discrete, anatomic and physiologic entity, and that preserving it through stereomicroscopic dissection is the best way to ensure the natural appearance of the hair restoration. Dr. Bernstein explains why this major step has brought hair transplantation into the twenty-first century.

This chapter also points out that the issues yet to be resolved in hair transplantation include determining the maximum density and number of grafts that can be used safely in a single session, deciding whether it is preferable to pre-make recipient sites or immediately place grafts into sites as they are made, and defining the precise role of Follicular Unit Extraction (FUE).

The authors conclude by stressing that the essence of providing the best care for hair transplant patients rests on proper patient selection, establishing realistic expectations, and using non-surgical management for young persons who are just starting to thin. When surgery is indicated, Follicular Unit Hair Transplantation is the ideal hair restoration procedure.

Read the publication Follicular Unit Transplantation: 2005

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Q: Does dense packing hurt grafts? — P.L., Rye, NY

A: There is no absolute answer to this question. In a hair transplant, dense packing of grafts has a risk of decreasing yield if there is a significant amount of photo damage to the scalp (which alters the blood supply) and if there is a tendency for the grafts to pop (this is difficult to predict pre-operatively). Very closely spaced grafts exacerbate the popping and expose the grafts to desiccation (drying), hypoxia (lack of oxygen) and mechanical trauma from the necessary re-insertion.

That said, the skill of the hair transplant surgeon and placing team, the size of the recipient sites, and the way the grafts are dissected and trimmed all play important roles in determining graft survival in dense packing.

Read a thorough analysis of the “pros” and “cons” of large hair transplant sessions
Read answers to more questions on dense packing of grafts

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Cosmetic Surgery Times features Dr. Bernstein’s presentation to the 55th annual meeting of the American Academy of Dermatology in their April 1997 issue.

The article entitled, “Follicular Transplants Mimic Natural Hair Growth Patterns,” describes Dr. Bernstein’s introduction of his new procedure, Follicular Unit Transplantation, to the academy as well as the keys to making the technique successful. Find the complete article below:

Form Follows Function: Follicular Transplants Mimic Natural Hair Growth Patterns

By Neil Osterweil
Contributing Editor

SAN FRANCISCO – In recent years, many hair replacement surgeons have adopted the modem architecture philosophy that “less is more,” moving from the use of hair plugs, to split grafts, to minigrafts and, finally, micrografts. But at least one hair transplant specialist contends that a more appropriate architectural dictum is “form follows function.”

In other words, the surgeon should let the technique fit the head, and not the other way around, suggested Robert M. Bernstein, MD, at the 55th annual meeting of the American Academy of Dermatology.

Dr. Bernstein is an assistant clinical professor of dermatology at the College of Physicians and Surgeons, Columbia University in New York. He described his “follicular transplantation” technique in a meeting presentation and in an interview with COSMETIC SURGERY TIMES.

Natural Hair Groups Used

Dr. Robert M. Bernstein“Hair doesn’t grow singly it grows in naturally occurring groups of from one to four hairs. In follicular transplantation, we use these naturally occurring groups as the unit of the transplant,” he told CST.

The typical follicular unit consists of one to four terminal hairs, one or two vellus hairs, sebaceous glands, subcutaneous fat and a band of collagen which circumscribes and defines the unit. In the follicular transplant technique, the follicular unit is carefully dissected and removed, and then the intervening skin is discarded. This enables the donor site to be small, allowing implantation through a small needle poke. Because trauma to the recipient sites is minimal, the entire procedure can be performed at one time. Dr. Bernstein and colleagues have implanted as many as 3,900 follicular units in a single, 1 day session.

Keys to the follicular transplant technique are:

Identify the patient’s natural hair groupings and isolate the individual follicular units – Hair groupings are assessed with an instrument called a densitometer, and the average size of a person’s groups can be easily calculated. This information is critical in the planning of the transplant. The density of hairs in an individual measured as the number of hairs per square millimeter of skin is quite variable, but the density of follicular units is relatively constant within individual races.

Most people of Caucasian ancestry have a density of approximately one group per millimeter; people of Asian and African descent tend to have slightly less dense growth patterns, although the characteristics of the person’s hair (such as wavy or wiry hair), can give a full appearance even with low density.

If a patient has an average hair density of two, he will receive mostly two hair implants, with some one-hair and three hair implants mixed in. “If you try to make the groups larger than they occur naturally, they will look pluggy. If you try to make them smaller than they naturally occur, they’re not going to grow as well, because each group is actually a little biologic machine that makes the hair — it’s an anatomic unit. If you break it up it just doesn’t grow as well,” Dr. Bernstein observed.

Form Follows Function: Follicular Transplants Mimic Natural Hair Growth Patterns
A 38-year old man with a Norwood Class 5A/6 hair loss pattern undergoes a single procedure of 2,500 follicular implants. The result 11 months later. (Photos courtesy of Robert M. Bernstein, MD)

Harvest meticulously – The acquisition and preparation of grafts must be carefully performed to ensure success for this demanding technique. Highly trained, skilled assistants are essential to the success of the procedure. Dr. Bernstein noted that he uses a highly trained team of up to 10 assistants to produce the implants for a single case. “The assistants, who range from medical technicians to registered nurses, are such an integral part of the procedure that they must become expert in their specific tasks for the surgery to be successful.” The physician must be able to skillfully harvest the donor strip and must be able to make accurate judgments about the size of grafts intra-operatively and adjust the technique accordingly. Dissection and placing of the follicular units is the most labor intensive part of the procedure.

Design the recipient area well – The recipient sites are carefully distributed so that a natural looking pattern is maintained throughout the recipient area. An important consideration for this stage of the procedure is to “frame the face and spare the crown” so those facial features are kept in correct proportion. A common mistake in hair replacement, said Dr. Bernstein, is to create a hairline that is too high thereby elongating the forehead and accentuating, rather than minimizing, the patient’s baldness. It is also important to avoid or eliminate contrast between the implants and surrounding skin by creating a soft transition zone of single hairs and to have the hair emerge from the scalp at natural angles.

Procedure Lowers Cost

Although the procedure is highly labor intensive, it can actually be less expensive than conventional hair replacement surgery, because it can be performed in a single, but lengthy, session.

“It is also much more efficient and conserves donor hair much better than conventional hair transplants. Every time you make an incision in the person’s scalp you waste some hair and make the remaining hair more difficult to remove. Accessing the donor area just once or twice will increase the total amount of hair that is available for the transplant,” Dr. Bernstein told CST.

“In the very near future, the procedure will be improved and made more affordable with automated instruments that will enable the surgeon to make sites and implant the hair in a single motion. This will also decrease the possibility of injury to the implants by reducing handling and keeping the grafts uniformly cool and moist. It is possible that someday hair follicles may be cloned to provide a virtually unlimited supply of custom follicular units, but until then the finite nature of a person’s donor supply must be respected,” concluded the doctor.

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