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In a study ((Shin JW, Kwon SH, Kim SA, Kim JY, Na JI, Chan Park K, Huh CH. Characteristics of robotically harvested hair follicles in Koreans. J Am Acad Dermatol, 2014 Sep 13. pii: S0190-9622(14)01789-7.)) published in the January 2014 issue of the journal ‘Dermatologic Surgery,’ researchers from the Republic of Korea collected and analyzed robotically harvested follicular units in a clinical setting using the ARTAS® Robotic System. This is the first time such data has been collected from Korean patients.

Specifically, they looked at the yield of follicular units, the ratio of successfully extracted follicular units to the total number of attempted extractions, and the rate at which hair follicles were transected, or damaged, during the procedure.

They found that the ARTAS system was able to harvest multiple hairs with high yields and low transection rates.

The Study: Characteristics of Robotically Harvested Hair Follicles in Koreans

The researchers collected data on robotically harvested follicular units from 22 Korean patients in a clinical setting using the ARTAS system. To reduce variation due to differences in patients, they collected follicular units from the same scalp location on each patient.

On average, the researchers found that 95% of extraction attempts were successful in producing a follicular unit, while the remaining 5% of attempts resulted in follicular units either being lost inside the robot’s suction system or becoming attached to the robot’s dissection instrument.

Of the successfully extracted follicular units, the average transection rate was 4.9%. This is 16% to 38% lower than has been reported elsewhere ((Wasserbauer S. Robotic assisted harvest of follicular units: Abstract book of 19th annual scientific meeting of International Society of Hair Restoration Surgery; September 14-18, 2011; Anchorage, AK. pp. 252-6.)), ((Kasai K, Haruyama I, Aikawa Y, Saito K. Advantages and disadvantages of FUE using ARTAS system form Japanese: Abstract book of 21st annual scientific meeting of International Society of Hair Restoration Surgery; October 23-26, 2013; San Francisco (CA). pp. 387-8.)). The researchers hypothesized that this lower transection rate could be due attribute these differences to the variability of a patient’s hair profile (e.g., waviness, thickness, color) and the surgeon’s minute control of the depth of punches.

Finally, they found that the robot was able to harvest follicular units that contained multiple hair follicles, anywhere from 2 to 5 follicles with the average being 2.4; However, they also found that as the number of hair follicles inside a follicular unit increased, the likelihood of transecting one or more follicles also increased.

The researchers concluded that the robot efficiently harvests not only follicular units with single hairs but also follicular units with multiple hairs. A limitation of the study was not comparing the characteristics of robotically harvested follicular units to manually harvested follicular units within the same group of patients.

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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: Can you do a hair transplant using someone else’s hair? — K.K., Garden City, N.Y.

A: Unfortunately, this is not possible because your body would reject the hair transplant without the use of immunosuppressive drugs. The problem with immune suppressants is that they will lower your natural immune response, increasing your susceptibility to infections and even cancer, and you’ll have to take them for the rest of your life.

A transplant using someone else’s hair is also not desirable for aesthetic reasons. There’s the style of the hair, its texture, thickness, color, etc. Trying to find the perfect donor whose hair would complement and flatter your particular features and blend in with your remaining hair would be a significant, if not impossible, challenge. It would be possible, however, to transplant the hair from one identical twin to another, but most likely if one went bald, so would the other.

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Journal of the American Academy of DermatologyDr. Bernstein is credited with introducing the “follicular unit” to surgical hair restoration, the innovation that allowed for a “completely natural-looking hair transplant” to be achieved. The commentary on Dr. Bernstein’s contributions to the field of hair transplantation are outlined in an historical review of dermatologic surgery that appeared in the Journal of the American Academy of Dermatology.

Dr. Bernstein is noted as being responsible for moving the field of hair restoration surgery away from large graft “plugs” and mini-micrografts to follicular units:

The following year, dermatologists Bernstein et al laid down the conceptual framework for follicular unit transplantation in their 1995 article, “Follicular transplantation.” In 1997, they detailed its clinical application in the paired articles, “Follicular transplantation: patient evaluation and surgical planning” and “The aesthetics of follicular transplantation.”

The 2 advances, the application of the stereomicroscope to follicular dissection and the use of follicular units as the basic element of hair transplantation, arose from a background in dermatology. They moved the field of hair restoration surgery from plugs and mini-micrografting, where this basic anatomical feature of the hair follicle was ignored, to follicular unit transplantation, where the follicular unit became sacrosanct. These 2 ideas, when put to clinical use, allowed the once elusive goal of a completely natural-looking hair transplant to finally be achieved.

Dr. Bernstein’s pioneering of the Follicular Unit Transplant (FUT) procedure still resonates, almost two decades later, as the follicular unit continues to be the anatomical structure that is transplanted in hair transplant surgeries worldwide.

The article then describes how Dr. Bernstein, along with his colleague Dr. Rassman, laid the foundation for the next major developments in hair restoration; first with his description of the Follicular Unit Extraction (FUE) technique and more recently with innovation in robotic hair restoration technology.

With the publication of the article, “Follicular unit extraction,” in 2002, the follicular unit extraction procedure gained popular appeal and was rapidly adopted by doctors worldwide. The authors cautioned on the limitations of this harvesting technique and the risk of follicular damage. Dermatologists Berman, Zering, and Bernstein, along with their colleagues in other specialties, continue to work on the problem of harvesting in follicular unit extraction, with the application of robotic technology showing particular promise.”

Taken together, these passages underscore how Dr. Bernstein’s research and medical publications have fundamentally transformed the field of hair restoration to the benefit of patients and physicians alike. While many other very talented physicians have had a substantial impact on hair restoration procedures ever since the hair transplant concept was first proposed by Dr. Norman Orentreich in the 1950s, Dr. Bernstein has contributed the key innovations that have made modern, natural-looking hair transplant surgery a medical and aesthetic possibility.

The article is titled, “Current status of surgery in dermatology.” The Journal of the American Academy of Dermatology is the official journal of The American Academy of Dermatology (AAD), the largest, most influential and most representative dermatology group in the United States.

Reference

C. William Hanke, Ronald L. Moy, Randall K. Roenigk, Henry H. Roenigk Jr., James M. Spencer, Emily P. Tierney, Cynthia L. Bartus, Robert M. Bernstein, Marc D. Brown, Mariano Busso, Alastair Carruthers, Jean Carruthers, Omar A. Ibrahimi, Arielle N.B. Kauvar, Kathryn M. Kent, Nils Krueger, Marina Landau, Aimee L. Leonard, Stephen H. Mandy, Thomas E. Rohrer, Neil S. Sadick, Luitgard G. Wiest, Current status of surgery in dermatology, Journal of the American Academy of Dermatology, Volume 69, Issue 6, December 2013, Pages 972-1001, ISSN 0190-9622, http://dx.doi.org/10.1016/j.jaad.2013.04.067.

Read more about Dr. Bernstein’s history of innovation in hair transplant surgery

Read Dr. Bernstein’s landmark medical publications

Download and read ‘Current status of surgery in dermatology’ (pdf)

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New York, NY (PRWEB) — Robert M. Bernstein, M.D., F.A.A.D., A.B.H.R.S., a world-renowned hair transplant surgeon, presented a series of improvements to hair transplant procedures which use the ARTAS Robotic System for Follicular Unit Extraction (FUE). These updates include revisions to the FUE surgical protocol and technical adjustments to the robotic extraction system. He presented his refinements at the first user meeting held by the developers of the system; Restoration Robotics, Inc.; on September 14 – 16 in Denver, Colorado.

Dr. Bernstein receives recognition from Restoration RoboticsDr. Bernstein receives recognition from Restoration Robotics

Dr. Bernstein described his series of improvements in a lecture to an elite group of physicians who are among the first adopters in the industry of the image-guided, robotic-assisted system. The updates are designed to improve the results of FUE hair transplantation by enhancing both the surgical protocols of the procedure as well as the functionality of the robotic system. In FUE, small groups of one to four hairs, called follicular units, are extracted individually from the back and sides of the scalp and are then implanted into recipient sites, which are tiny holes that the surgeon creates in a balding area of the scalp.

Dr. Bernstein discussing robotic-assisted FUE at Restoration Robotics' first user meetingDr. Bernstein discussing robotic-assisted FUE at Restoration Robotics’ first user meeting

The most important update to the FUE procedure that Dr. Bernstein proposed is for surgeons to create recipient sites before they extract the grafts, rather than create the sites after grafts are extracted. Drawing on his decades of experience in hair transplantation, Dr. Bernstein developed this technique of “pre-making” recipient sites in order to maximize survival of the grafts during the hair transplant. Using this technique, extracted grafts are outside the body for a shorter duration of time. It also minimizes instances of “popping,” in which grafts are exposed to desiccation (drying) and hypoxia (low oxygen) before they are inserted back into the scalp. By “pre-making” the recipient sites, these harmful factors are mitigated and a greater number of the grafts grow into viable, hair-producing follicular units. Dr. Bernstein encourages surgeons to use this technique on all FUE procedures, whether using manual methods or robotic instrumentation.

When asked to comment on his improvements to the robotic FUE procedure, Dr. Bernstein said:

“It was fortuitous timing that the ARTAS Robot became available just as I was developing my refinements to the FUE procedure. The combination of the automated robot for graft extraction with the technique of pre-making recipient sites has led to a significant improvement in hair transplant surgery.”

Dr. Bernstein is the founder of Bernstein Medical – Center for Hair Restoration, and he is recognized world-wide for his innovative work in the treatment of hair loss. He is among the first hair transplant surgeons in North America to utilize the ARTAS Robot for FUE in his practice.

Being an early adopter of the advanced follicular unit extraction system has enabled him to work with Restoration Robotics to refine it to his exacting standards. Dr. Bernstein has, again, put his fingerprints on a revolutionary upgrade to the hair transplantation industry. He was the first to describe FUT and FUE procedures in the medical literature, in 1995 and 2002 respectively. In contrast to FUE, where follicular units are extracted individually, in FUT procedures a strip of skin is removed from the back of the scalp, it is then dissected into follicular units, and those follicular unit grafts are then implanted into recipient sites in the patient’s scalp.

About Dr. Bernstein

Robert M. Bernstein, M.D., F.A.A.D., A.B.H.R.S. is a Clinical Professor of Dermatology at Columbia University and a pioneer in the field of hair restoration. His landmark scientific papers are considered seminal works in the field of hair transplant surgery, and he is the most widely published author on the topic having published more than sixty articles, editorial reviews, books, and textbook chapters.

Dr. Bernstein has been selected as one of New York Magazine’s “Best Doctor’s” for thirteen consecutive years and he 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, The Discovery Channel, CBS News, Fox News, and National Public Radio. Dr. Bernstein has been interviewed or featured in articles in GQ Magazine, Men’s Health, Interview Magazine, 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 restoration are performed using Dr. Bernstein’s pioneering techniques of Follicular Unit Transplantation (FUT) and robotic Follicular Unit Extraction (R-FUE).

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Q: Dr. Bernstein, can you please comment on leg and body hair transplants? — J.R., Ridgewood, NJ

A: I’ve tried the technique in the past but have been dissatisfied with the results. Scalp hair, unlike the rest of the body, has multiple hairs rising out of each follicle. With leg and body hair, you have only one hair per follicle, not follicular units of multiple hairs. Leg hair is also very fine. It might thicken up a little bit after it is transplanted, but not enough to be clinically useful. In men you want full thickness hair, so fine hair can make it look like it is miniaturizing, as it does when you’re losing it.

Body hair has been successful in softening hairlines, but most people have enough scalp hair to due this, since it often requires very little if properly placed. Another issue is that because leg hair emerges from the skin on a very acute angle, more wounding of the skin occurs as each hair is individually extracted and this leaves marks.

Body hair, from the chest or back, does hold better potential for success than leg hair, particularly if it is plentiful, but it still is extracted one hair at a time and can leave significant scarring when done in large numbers.

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Dr. Bernstein Featured With "First Of Its Kind" Robotic Hair Transplant System On NY1
Dr. Bernstein with ARTAS System for Robotic FUE

Dr. Bernstein not only pioneers hair transplant procedures, but hair restoration technology as well. The NY1 television station, based in New York City, visited Bernstein Medical to see a demonstration and talk about the newest tool in the hair restoration toolkit, the ARTAS Robot for Hair Restoration.

The NY1 piece shows the robotic FUE system in action at Bernstein Medical, with views of the robotic arm, the image-guided system, the punch tool, and the user interface.

The segment also reports that Dr. Bernstein is among the first hair transplant physicians to use the technology:

Removing those units has always proved to be the toughest part of this method, but the robot changes that, which is why even Dr. Robert Bernstein — the man who’s widely credited with developing follicular unit transplantation and follicular unit extraction — jumped to be among the first in the U.S. to use the device.

Dr. Bernstein speaks to one of the main benefits of the robot, the increased efficiency in extracting follicular unit grafts.

NY1 serves 2.1 million people in the tri-state area, including all five boroughs — Manhattan, Brooklyn, Queens, Staten Island, and The Bronx –– parts of Westchester and Hudson Valley, as well as cities and towns in Bergen County and Hudson County in New Jersey.

Read more about Robotic Hair Transplantation

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Dr. Bernstein Touts Benefits Of Robotic FUE On Bloomberg TV
Dr. Bernstein discusses the ARTAS Robot for FUE

Dr. Bernstein spoke with Bloomberg’s Matt Miller about the future of hair transplantation in a segment called, “The Bald Economy: Surgical Solutions to Hair Loss.”

Here is an excerpt from the segment:

Bloomberg’s Matt Miller: Riding the wave into the future happens to be one of the pioneers of FUE, Dr. Robert Bernstein.

Dr. Bernstein: “The robot now allows a mechanized system to do [follicular unit extraction] very, very quickly and very consistently, so that the human error in this part of the procedure is now gone.”

Matt Miller: That’s right, a robot. Dr. Bernstein is piloting a high-tech solution called ARTAS.

Dr. Bernstein: “What it is very precise at doing is getting around the follicular unit to separate it from the tissue.”

Matt Miller: The procedure, which costs twice as much as the standard surgery, has one clear advantage.

Dr. Bernstein: “The difference is, in the back, in the area where we take the hair, there will be little tiny dots that just fade into the scalp.”

Read more about the ARTAS Robot for FUE and Robotic Hair Transplantation

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Dr. Bernstein discusses ARTAS Robotic FUE system on NY1

NY1, a New York City television channel, has featured Dr. Bernstein in a segment on robotic hair transplantation.

Here is a transcript of the video:

A new robot could help return hair to those of us who, as we get older, find ourselves a bit follically challenged. Called the ARTAS System from Restoration Robotics, it was recently approved by the FDA to help with a type of hair transplantation technique called follicular unit transplantation where follicular units, groups of one to four hairs, are removed directly from the back of the head and transplanted on the top and front. Removing those units has always proved to be the toughest part of this method, but the robot changes that, which is why even Dr. Robert Bernstein – the man who’s widely credited with developing follicular unit transplantation and [follicular unit extraction] – jumped to be among the first in the U.S. to use the device.

“A follicular unit is about a half a millimeter and you have a one-millimeter circle that has to go dead center over it to punch this out. So when you’re doing it by eye and you’re doing thousands of them over time you’re missing them over time it’s not exactly precise. The robot is dead center each time and follows the angle of the hair,” explains Bernstein.

While the robot doesn’t really have any direct impact on how the transplant will ultimately look – that’s still up to the doctor’s expertise and artistic skill. What it does do is give the doctor a better quality sample of hair with which to work.

“There’s always damage to the follicles when you’re doing it because you’re doing it by hand through these very tiny incisions and so the yield is going to be less and so with a robot if you try to get out 100 follicles you’ll get very close to 100 follicles,” says Bernstein.

Again, the robot just makes the incision, the doctor still has to pull the hair, make sites on the front where the transplants will go and then actually make the transplants. However, developers say they are working on having future versions of the ARTAS System help with the entire process.

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Q: I wanted to find out about the difference between what Dr. Bernstein does with his robotic system versus NeoGraft. — G.M., Newark, NJ

A: The ARTAS robotic system, used at Bernstein Medical, has robotic control, video imaging and uses a blunt dissection technique. This allows for very precise extraction of follicular units from the donor area with minimal transection. The Neograft machine for FUE is a manually operated machine which uses sharp edge dissection. Because it relies on manual controls rather than robotics, it is less accurate and the cutting tip causes more graft injury. The precision of the robot allows the grafts to be harvested with less trauma and will thus result in better growth. In my opinion, these differences are very significant.

Read more about the differences between the ARTAS Robot and Neograft

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Eyebrow transplant and restoration article - New York TimesThe New York Times, once again, has recognized Dr. Bernstein’s pioneering hair restoration techniques. The NYT Fashion and Style section noted that he is, “the first hair transplant surgeon on the east coast,” to use the ARTAS robotic system for Follicular Unit Extraction.

This precision, image-guided robot is unique in its, “use of digital mapping and tracking to extract and harvest ‘follicular units.'”

For more information about the ARTAS System see our Robotic Hair Transplantation section of our website.

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Robotics in FUE hair transplant surgery is a topic that is attracting increasing attention in the world of hair restoration. As we have discussed, the ARTAS robotic system for hair restoration is the newest technology in this ever-evolving field.

Before & 9 Months After FUE with ARTAS Robotic System
Before & 9 Months After FUE with ARTAS Robotic System
Click image for larger version

This new system, developed by Restoration Robotics, Inc., is more than just a new tool for performing Follicular Unit Extraction. Rather, it is a complex system that uses the latest in mechanical and software technology to automate FUE surgery. The robot not only allows doctors to perform this typically labor and skill intensive procedure, but it provides a variety of benefits to their patients. Among these benefits are increased accuracy in follicular unit graft harvesting, reduced harvesting time, and increased graft survival.

An article in the September/October 2011 issue of the journal Aesthetic Trends & Technologies adds detail to our knowledge of the benefits of the ARTAS System. The article, titled, “How Technology is Changing the Hair Restoration Industry,” first gives a basic overview of the system and why it was developed. It then goes on to describe how a specially-designed device, called a skin tensioner, along with an image-guided system, tracks each follicular unit on the patient’s scalp and allows for the precise control of graft extraction.

From the article:

The technology determines the location, angle, and direction of each individual hair follicle; and via complex algorithms and computer programming, it is able to determine almost instantaneously the proper approach to harvest each follicular unit. The image-guided robotic arm begins harvesting the hair follicles in random patterns, according to the harvest spacing set by the physician. These random patterns make the procedure virtually undetectable after the wounds have healed.

The accuracy and performance of the image-guided robotic system is notable and contributes significantly to the improved outcome of the FUE procedure. As Miguel Canales, M.D., Medical Director for Restoration Robotics, says in the article, the transection rate, or rate at which follicular units are damaged in the extraction process, is consistently less with robotic controlled FUE compared to that performed manually.

This kind of consistency yields a benefit not only to seasoned hair restoration surgeons, but to physicians of all skill levels. James Harris, M.D., a hair restoration physician based in Colorado, says that a novice physician, who might only be able extract 50-70 grafts in one hour using the traditional manual technique, extract 600-700 an hour. For a procedure of 1,500 grafts, the physical demand on both the physician and the patient is substantially reduced with the ARTAS System versus the standard manual graft excision techniques in FUE surgery.

Before & 7 Days After FUE with ARTAS Robotic System
Before & 7 Days After FUE with ARTAS Robotic System
Click image for larger version

The developers of the ARTAS System were also conscientious of the safety of the FUE patient. An array of sensors monitors patient movement and causes the system to respond to the force of the punch used in graft excision or to any instances where the system’s casing touches the patient. If the force exerted is too strong, or if the casing touches the patient, the system automatically backs away from the patient, allowing the physician to make sure that all is well before the surgery proceeds. According to the article, there were no safety-related “adverse events” in trials with over 350 patients.

From the efficiency of the ARTAS System in extracting follicular unit grafts, to the quality of the grafts, to patient safety, the benefits are many for the physician. The patient will receive a high quality hair transplant with a less intensive time commitment, less local anesthesia needed to numb the area, improved hair growth rates, and a better overall FUE hair transplant experience.

Download and read the article here (pdf).

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Q: What is the main difference between NeoGraft and the ARTAS robotic system? — H.T., Staten Island, NY

A: The Neograft device is basically a powered FUE tool. It is still done by hand and therefore risks operator induced errors and damage to hair follicles. The ARTAS System, made by Restoration Robotics, uses electronic image-based tracking capabilities to map the individual follicular units. It does so to determine the optimal approach for automated graft harvesting. The robotic harvesting device produces consistently high quality grafts and low dissection rates.

For more information on these systems, visit the Follicular Unit Extraction (FUE) section or read Dr. Bernstein’s answers to questions on Robotics.

Read about Robotic FUE Hair Transplantation

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Restoration Robotics, Inc. — based in Mountain View, CA — has developed a robotic system for follicular unit extraction (FUE), called the ARTAS robotic system for hair restoration. The computerized device has received 510(k) approval from the Food and Drug Administration. Restoration Robotics is due to begin marketing the system for use in hair restoration clinics in the United States.

The FDA classifies the ARTAS robotic system for hair restoration as a “computer assisted hair harvesting system” and describes it as being used to identify and extract follicular units to aid the surgeon during hair transplant procedures.

The robot consists of a computer assisted station with needle mechanism, force sensor, robotic arm, and video imaging system. The software that runs the instrument helps the surgeon target follicular units for extraction and also uses stereoscopic video images to guide the needle mechanism and robotic arm.

At present, the device is used only for the graft harvesting aspect of the follicular unit transplant procedure.

Bernstein Medical – Center for Hair Restoration has been using the ARTAS robot for FUE since December 2011.

The following is an excerpt of a press release about the ARTAS™ System by the developer of the device, Restoration Robotics, Inc.

ARTAS System Receives FDA Clearance for Ground-Breaking Technology Treating Hair Loss

Restoration Robotics, Inc., a medical device company that pioneered the first robotic follicular unit harvesting system, today announced that it has received FDA 510K clearance for its revolutionary ARTAS System


ARTAS System for FUE Hair Transplantation

Mountain View, CA – April 14, 2011 – Restoration Robotics, Inc. a privately-held medical device company, today announced that its revolutionary technology, the ARTAS™ System, has received 510K clearance from the Food & Drug Administration (FDA) for harvesting hair follicles from the scalp in men diagnosed with androgenetic alopecia (male pattern hair loss) with black or brown straight hair. The ARTAS™ System was developed in close collaboration with several leading hair restoration physicians to enhance the quality of follicular unit harvesting for the benefit of physicians and their patients.

“We are thrilled to receive FDA clearance, and look forward to rolling out the ARTAS™ System to leading hair restoration physicians,” said Jim McCollum, Chief Executive Officer, Restoration Robotics. “Hair loss is a very real issue for millions of men in the United States. We’re pleased to offer a powerful new technology for patients who are interested in a safe new way to enhance their quality of life.”

ARTAS™ is a physician-controlled, state-of-the-art, interactive, computer-assisted system that enables harvesting of hair follicles during hair restoration procedures. It combines several features including an image-guided robotic arm, special imaging technologies, small dermal punches, and a computer interface. The ARTAS™ System is capable of identifying and harvesting individual follicular units to implement the follicular unit extraction (FUE) technique.

Read more about developments in Robotic FUE

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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.

Q: I have read your page on robotics in hair restoration and am interested in learning more. Are there any updates in the development of the system you mentioned? — W.T., London, UK

A: Restoration Robotics, Inc. — based in Mountain View, CA — has spent the last few years developing and testing a robotic hair transplant device for follicular unit extraction (FUE). The ARTAS robot system has recently received 510(k) approval from the Food and Drug Administration, meaning that the company may now begin marketing the system for use in hair restoration clinics.

The FDA classifies the device as a “computer assisted hair harvesting system” and describes it as being used to identify and extract follicular units and to help the surgeon do the same during hair transplantation.

The ARTAS robot consists of a computer assisted station with needle mechanism, force sensor, robotic arm, and video imaging system. The software that runs the instrument helps the surgeon target follicular units for extraction and also uses stereoscopic video images to guide the needle mechanism and robotic arm.

We will update you as more information becomes available about the ARTAS system and Restoration Robotics.

See a photo of the ARTAS robot and stay on top of developments by visiting our Robotic Hair Transplantation page

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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: If a person is graying on the top and sides and you do a hair transplant from the back, will the top look darker after the hair restoration? — W.C., Houston, TX

A: The hair is taken from the back and sides of the scalp and the follicular units, once dissected from the donor strip, are randomly inserted into the recipient area. That way, the color of the harvested hair will be mixed and will match perfectly.

Usually, people’s hair is lighter on the top because of the sun, so when you move the hair from the back and sides to the top, it will actually lighten to match the surrounding hair, if it didn’t match already.

For further reading on how your hair performs after a transplant, visit the Growth After Hair Transplant topic.

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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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Q: I am considering having a hair transplant. Does my hair need to be cut? — I.S., New York, NY

A: In all hair transplant procedures, we are able to transplant into areas of existing hair without it having to be cut. The question of whether hair needs to be cut in the donor area depends upon the way the donor hair is obtained (harvested).

With a Follicular Unit Hair Transplant procedure using single strip harvesting method (FUT), only the strip of hair that is removed needs to be cut. When the procedure is finished, the hair above the incision lays down over the sutured area and it becomes undetectable.

In Follicular Unit Extraction (FUE), particularly in sessions over 600 grafts, large areas of the donor area must be clipped short (to about 1-2mm in length) in order to obtain enough donor hair.

View our page on the Pros & Cons of FUE hair 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: What are the possible obstacles that you see with hair cloning using the plucking technique? — D.E., Boston, MA

A: Plucked hair does not contain that much epithelial tissue, so we do not yet know what the success of the procedure will be. Plucked hairs will most likely grow into individual hair follicles that are not follicular units and therefore, will not have completely the natural (full) look of two and three hair grafts. This limitation may be circumvented, however, by placing several hairs in one recipient site. It is possible that the sebaceous gland may not fully develop, so the cloned hair may not have the full luster of a transplanted hair.

The most important concern is that, since the follicle is made, in part, by recipient cells that may be androgen sensitive, the plucked hair derived follicles may not be permanent. It is possible, that since all the components of a normal hair may not be present, the cloned hair may only survive for one hair cycle.

Since the ACell extracellular matrix is derived from porcine (pig) tissue, the procedure may not be appropriate if you are Kosher or allergic to pork. Of course, we do not know what other obstacles may arise since this technique is so new –- or even if the ones mentioned above will really be obstacles at all -– only time will tell.

Follow the latest in Hair Cloning Research

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GQ - November 2010GQ Magazine includes a quotation by Dr. Bernstein in their November 2010 issue. In the magazine’s “Manual” section, which outlines the latest style trends for men, there is a two-page article on hair transplant surgery. Dr. Bernstein’s help was recruited in discussing old hair transplant techniques where multiple follicular units were transplanted in “plugs.”

“In the old days, up until the early ’90s, they used to transplant multiple follicular units at once,” says Robert Bernstein, M.D., clinical professor of dermatology at Columbia University, “so what you got were those plugs, which look completely unnatural and gave the surgery a bad reputation.”

The article’s main protagonist is 27 year-old New Yorker, and hair transplant patient, Jordan Blackmore, but it also drops a few celebrity hair transplant names (Marc Jacobs, Ted Danson, Kevin Costner, and Matthew McConaughey). To read the article you’ll have to find the November 2010 issue at your local newsstand.

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Q: I recently saw an episode of the Rachel Ray Show where her guest, Dr. Anthony Youn, said that the Neograft machine for Follicular Unit Extraction is painless and uses a vacuum rather than surgery to remove the grafts. Can this be true? — A.B., Old Greenwich, C.T.

A: Follicular Unit Extraction (FUE) using the Neograft machine is not painless and, while it does not produce a linear scar, it is surgery and there is significant scarring in the form of thousands of tiny holes that heal with round white marks.

In the video, Dr. Anthony Youn asks: “Do you wanna take a feel? It’s just a vacuum.” Rachel Ray states: “You don’t feel a thing.” Youn replies: “No [you don’t].”

This is very deceptive on the part of the doctor, since the instrument is basically a cutting instrument with the suction being used to remove and insert the grafts. Although the suction part would not be painful, the cutting part certainly is and requires the same anesthesia as a traditional hair transplant.

Our main concern is that the machine produces grafts that are sub-optimal with respect to quality and potential growth, as the Neograft’s suction apparatus tends to strip follicles away from their surrounding protective tissue and tends to dry the grafts out.

For in-depth information on this topic, read our pages on Follicular Unit Extraction (FUE) and the Neograft Machine for FUE.

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Dr. Robert M. Bernstein, founder of Bernstein Medical – Center for Hair Restoration, was selected by Castle Connolly as one of the New York metropolitan area’s top physicians through a peer-review survey of medical professionals.

Best Doctors 2010 - NY MagazineNew York, NY — Robert M. Bernstein, M.D., F.A.A.D., world-renowned pioneer of the hair transplant techniques, Follicular Unit Transplantation and Follicular Unit Extraction, and founder of Bernstein Medical – Center for Hair Restoration in Manhattan, has been included in New York Magazine’s “Best Doctors” issue for the eleventh consecutive year.

Dr. Bernstein, a Clinical Professor of Dermatology at Columbia University in New York, said he was honored to be chosen by his peers for the magazine’s special annual issue. He said, “It is a privilege to be involved in the care of treating patients struggling with hair loss and an honor to be recognized by my peers for contributions that I have made to the rapidly evolving field of surgical hair restoration.”

Dr. Bernstein has performed hair transplant surgery at his state-of-the-art Center for Hair Restoration in New York City since 1995. The practice is solely devoted to the diagnosis and treatment of hair loss in men and women and specializes in both restorative and corrective hair transplants.

The list of physicians in the Best Doctors issue is based on an annual peer-review survey conducted by Castle Connolly Medical Ltd., a research company that publishes Top Doctors: New York Metro Area. Each year, Castle Connolly distributes 12,000 nomination forms to medical professionals in New York metropolitan area. These medical industry peers are asked to nominate their choice of best doctors in a particular field and to take into account not only professional qualifications and reputation, but also skill in diagnosing and treating patients.

Dr. Bernstein has appeared on such notable programs and channels as The Oprah Winfrey Show, The Dr. Oz Show, The Howard Stern Show, The Today Show, Good Morning America, ABC News, Fox News, Discovery Channel, and National Public Radio. He also appeared in New York Magazine’s special issue Best Beauty Docs in New York, where he was included for his pioneering work in Follicular Unit Transplantation and Follicular Unit Extraction. He is co-author of Hair Loss & Replacement for Dummies: The Patient’s Guide to Hair Restoration, and numerous medical publications.

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Q: I had a hair transplant about a month ago and I had scabs and some dead skin until day 16 or 17. Will that endanger the growth of the hair restoration procedure? — S.P., Hoboken, N.J.

A: No, it will not. If follicular units were used for the hair transplant, the grafts should be permanent at 10 days. After this time, you can scrub as much as you need to get the scabs off.

Read more about caring for your hair transplant after your surgery.

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Q: I have been reading about hair transplantation and I have a question concerning FUT (strip-harvesting). I understand, in this method, a strip is excised from the back of the scalp, the wound then closed. I wonder, then, is not the overall surface of the scalp reduced in this procedure? After two or three procedures, especially, (or even after one large session) will not a patient’s hairline also be shifted? That is, the front hairline would move back by the amount of scalp excised, or, more likely, the “rear hairline” (which ends at the back of the neck) must certainly be “moved upward.” At least, this is how I imagine it would be. Is my logic flawed? I’ve been trying to understand this in researching the procedure, but the point still evades me. — M.M., Great Falls, V.A.

A: The hair bearing area is much more distensible (stretchable) than the bald area and just stretches out after the procedure. As a result, the density of the hair in the donor area will decrease with each hair transplant session, but the position of the upper and lower margins of the donor area don’t move much – if at all. As a result, the major limitation of how much donor hair can be removed is the decreasing hair density, rather than a decrease in the size of the donor area.

With very low donor hair density the strip will yield so little hair that further sessions eventually become impractical. To say it another way, since a hair transplant decreases the donor density, in each succeeding hair transplant session, you need an increasingly larger donor strip to remove the same number of grafts.

This effect also explains why, in most instances, FUE will not allow the doctor to obtain any significant amount of additional hair, since the donor area is already too thin, and FUE would thin it further.

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Howard Stern ShowDr. Bernstein was interviewed on the Howard Stern Show for a Howard 100 News Brief about hair transplantation.

George Takei — originally of Star Trek fame and currently an announcer for the show — had recently described his ‘pluggy’ transplant from 1980s in an interview on the show.

Stream the clip below (2 mins, 19 seconds):

Stream the clip from the Howard Stern Show

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Bizymoms.com, the premier work-at-home community on the Internet with more than 5 million visitors per year, has interviewed Dr. Robert M. Bernstein in order to answer readers’ common questions about hair restoration and hair loss.

Below is a sample of the interview:

Q: Who would be a good candidate for hair transplant surgery?

In general, men and women age 30 and older can be candidates, but there are a host of factors that determine if a person is a good candidate…

Q: How does hair transplantation work?

Hair removed from the permanent zone in the back and sides of the scalp continues to grow when transplanted to the balding area in the front or top of one’s head…

Q: What can be done for people dissatisfied with previous mini/micrograft procedures?

If the grafts are too large they can be removed, divided into smaller units under a microscope, and re-implanted back into the scalp (the same day)…

Q: What are the possible harmful effects of Propecia and Rogaine?

The main side effect of Propecia (finasteride 1%) is sexual dysfunction, which occurs in about 2-4% of men taking the drug. Fortunately, these side effects are completely reversible when the medication is stopped. […] The main side effect of Rogaine (minoxidil) is scalp irritation. […] Both Propecia and Minoxidil can produce some hair shedding at the beginning of treatment, but this means that the medications are working…

Q: How many grafts/hairs are needed for hair transplant surgery?

An eyebrow restoration can require as few as 200 grafts, a hairline 800 and a scalp, with significant hair loss, 2,500 or more grafts. An equally important consideration is the donor supply…

Q: What are the advanced hair transplant techniques?

Follicular Unit Transplantation (FUT), where hair is transplanted exclusively in naturally occurring follicular units, is the state-of-the art. […] A more recent means of obtaining the donor hair, the follicular units are extracted individually from the back of the scalp. This procedure, called Follicular Unit Extraction (FUE) eliminates the need for a line-scar, but is a less efficient procedure for obtaining grafts…

Q: What are the new hair restoration treatments available for men and women?

Low-Level Laser Therapy (LLLT) utilizes cool lasers to stimulate hair growth and reduce shedding of hair. […] Latisse (Bimatoprost) is an FDA approved topical medication for eyelash growth.

Go to Bizymoms.com to read the full interview.

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Q: Do patients need to wear a bandage after the surgery and for how long? — L.H., West University Place, T.X.

A: In a properly performed follicular unit hair transplant, the patient can remove any bandages the day after the procedure and gently shower/shampoo the transplanted area. The bandages do not need to be reapplied. The reason the dressing can be removed so soon is that follicular unit grafts fit into tiny needle-size incisions that heal in just one day.

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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: Dr. Bernstein, I think that you have established a great monument in the history of hair transplantation. Especially, your historical works about Follicular Unit Transplantation, which you published about 15 years ago, have contributed greatly to the spread of modern hair transplant technique in the whole world.

In the past days, there might have been many physicians who did not care much about the importance of the follicular unit and they have only cut the grafts to size. Now, every hair transplant physician believes the importance of follicular unit, and there is no one who cut the grafts to size ignoring each follicular unit.

However, there are some physicians who shout that a hair transplant procedure can be called FUT only when people use all single FU exclusively, and the procedure cannot be called FUT, if mixture of single FU and double FU are used in a session.

I would like to ask you, if you could accept the usage of combination of single FU and double FU under the name of FUT, as long as the grafts were cut according to each FU and intact FU are used throughout the procedure. Could you accept easing of the very strict definition of FUT, which you published about 15 years ago? Could you agree to use mixture of single FU and double FU under the name of FUT? — N.W., Huntington, N.Y.

A: Thank you for the kind words. In thinking about hair transplantation in general, it is important to consider that a hair restoration procedure spreads hair around and, as a result, the transplanted hair will be less dense than the person’s original hair. Therefore, one would never want grafts larger than the largest original follicular units or the results will not look natural. The artificially large grafts will stand out in relatively thin surroundings. If one were to try to fix this by transplanting the doubled FUs very close together (over one or more sessions) one risks running out of grafts for other areas of the scalp. In other words, you can’t fool mother nature.

For example, if a person has thin hair and has only 1-, 2- and 3-hair units occurring naturally in his scalp, then creating 4-hair grafts (by combining two 2’s or 1’s and 3’s) can result in an unnatural, tufted look. Doubling larger follicular units also necessitates larger wounds to receive the grafts which defeats one of the main advantages of FUT, namely to minimize recipient wounding.

That said, it is not unreasonable to place two 1-hair FUs in a single site (if there are extra 1s from the FU dissection) in order to increase density in an area and to eliminate an extra wound.) We do this for crown hair transplants when we are not doing a hairline and there is no need for 1-hair grafts. However, this is the exception.

Technically speaking, anything other than transplanting individual, naturally occurring follicular units is not FUT. However, a physician should make modifications to the procedure for the specific needs at hand. This is the art of medicine. By understanding and applying the underlying principles of Follicular Unit Transplantation, rather than being limited by its nomenclature, the physician will serve his patient best.

In addition to exploring Hair Restoration Answers to learn more about this topic, visit the Follicular Unit Transplant (FUT) section of our website and read detailed information about the hair transplant evaluation, the hair restoration procedure, follicular unit grafts, the donor area, and more.

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Q: I would like to have the donor area from an old hair transplant repaired so it does not show the scar when I cut my hair shorter. What are my options?

A: Widened scars can be improved in two ways: they can be re-excised to make the scar finer, or hair can be placed into the scar to make it less visible.

Excising a scar works best when the original incision was closed with poor surgical techniques. In this case, using better closure methods can improve the scar. When the scar is the result of a person being a naturally “poor healer,” a wide scar will be the result – regardless of how the incision was closed.

I often approach the problem by excising a small area first, to see if I can decrease the width of the scar. If so, I would then proceed to excise the rest of the scar. If not, I would obtain hair using follicular unit extraction (FUE) — extracting hair in follicular units directly form the scalp — and place this hair into the scar. The hair placed in the scar can also be obtained from the edges of a partially excised scar.

If a wide scar that is thickened (called a hypertrophic scar) is also excised, it will usually reoccur and may result in an even worse scar. Because of this, thick scars should be flattened with injections of cortisone prior to removing. This will decrease the chance of a recurrence.

Flattening the scar is also important to permit the growth of newly transplanted follicular unit grafts.

For more on this topic, please see the page on Fixing Scars.

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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: When can patients resume physical training? — T.M., Mineola, N.Y.

A: Moderate exercise may be resumed two days after the hair transplant.

The main limitation is to avoid putting direct pressure on the donor area and to avoid stretching the back of the scalp (neck flexion) as this will increase the chance of stretching the donor scar after a strip procedure.

There is no such limitation with follicular unit extraction (FUE). However, in general, contact sports should be avoided for at least 10 days with FUE and a month after a strip procedure.

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Q: When can I wash my hair after a hair restoration procedure?

A: If a follicular unit hair transplant is performed so that there is a “snug fit” between the graft and the incision into which it is placed, the grafts are reasonably secure the day after the procedure.

At this time, gently washing your scalp with lightly flowing water and a patting (rather than rubbing) motion is permitted. Vigorous rubbing, however, will dislodge the grafts.

Over the course of the week the grafts become more secure, and at 10 days post-op they are permanent. At this time, normal scrubbing of the scalp is permitted.

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Patient JAZ before and after hair transplant photo

Bernstein Medical patient before (left) and after (right) hair transplant

We all know that hair loss is common among both men and women, and that hair transplant and hair restoration procedures are becoming more and more popular around the world. But what thoughts go through the head of your average hair loss sufferer before, during, and after a hair transplant?

The answer to that question may now be revealed. ABC News correspondent Cari Nierenberg and associate producer Ryan Stevenson take us directly into the mind and life of Bernstein Medical patient Adam Khoudja in a diary and feature on hair loss and hair restoration.

View each article at ABCNews.com:

You can also see the patient’s full before/after photoset in our Hair Transplant Photos gallery

Learn more about the hair transplant procedure and visit our own hair transplant photo journal.

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Dr. Bernstein, pioneer of Follicular Unit Hair Transplantation, was a featured guest on The Oprah Winfrey Show. In addition to discussing his hair transplant technique, Dr. Bernstein showed Oprah and Dr. Mehmet Oz the results of a hair transplant on one of his patients. They also showed a video montage of Dr. Bernstein performing a hair restoration procedure.

Please read the full Bernstein Medical – Center for Hair Restoration press release below:

New York, NY (PRWEB) October 7, 2008 – The Oprah Winfrey Show features Dr. Bernstein discussing his pioneering follicular unit hair transplant procedure, focusing on the newest diagnostic and treatment techniques for hair restoration. The Oprah Winfrey Show aired Tuesday, October 7th at 4:00PM EST on ABC.

Dr. Bernstein is a Clinical Professor of Dermatology at the College of Physicians and Surgeons of Columbia University in New York. He is recognized world-wide for his pioneering work in the treatment of hair loss. Dr. Bernstein is known for developing the revolutionary Follicular Unit Transplantation procedure for hair restoration.

Dr. Bernstein with Dr. Oz and a Patient on the Oprah Winfrey ShowDr. Bernstein with Dr. Oz and a Patient on the Oprah Winfrey Show

After introducing Dr. Bernstein to Oprah, Dr. Mehmet Oz (health expert on The Oprah Winfrey Show) presents video footage of Dr. Bernstein performing a hair transplant and then invites the patient live onstage to be inspected by Oprah. In addition to engaging with the audience about baldness and hair transplant procedures, Dr. Bernstein examines a person from the audience who is experiencing early hair loss using an instrument known as a densitometer.

The densitometer is a self-contained, portable, device that houses a magnifying lens for viewing hairs close to the scalp. The idea behind densitometry is to determine the degree of miniaturization, or shrinking of the hair’s diameter, which contributes to hair loss. This information is used to evaluate whether the patient is a good candidate for hair transplant or medical treatment, as well as to predict future hair loss.

“Follicular Unit Transplantation is a procedure where hair is transplanted exclusively in its naturally occurring groups of 1-4 hairs. It is the logical end point of over 30 years of evolution in hair transplantation surgery,” explained Dr. Bernstein. “However, this by no means implies our work is complete. We are obsessed with making the procedure as perfect as possible.”

View the original press release at PRWeb.

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Columbia University Medical CenterColumbia University Medical Center has awarded Dr. Bernstein, Clinical Professor of Dermatology, a “Certificate of Appreciation” for sustained contributions to the academic programs of the Department of Dermatology, Columbia University. Please read below for the Bernstein Medical – Center for Hair Restoration press release and a transcript of an interview with Dr. Bernstein on receiving the honor:

Press Release:

New York, NY (PRWEB) October 2, 2008 — Columbia University Medical Center awarded their Certificate of Appreciation to Robert M. Bernstein, MD, founder of Bernstein Medical – Center for Hair Restoration for his sustained contributions to the academic programs of the Department of Dermatology at Columbia University.

Dr. Bernstein specializes in hair loss and hair transplant surgery. He was instrumental in developing the Follicular Unit Hair Transplant procedure, now considered the most advanced technique for surgical hair restoration. This procedure has revolutionized modern hair transplantation, with its unique ability to mimic natural hair growth patterns in the scalp.

In the past, multiple, small procedures were an inefficient way to restore a person’s hair. Using these new techniques, we now have the ability to transplant 3000 or more follicular units safely in one session.

“With respect to medical feasibility, follicular hair transplant surgery is significantly different from traditional grafting,” notes Dr. Bernstein. “In the past, multiple, small procedures were an inefficient way to restore a person’s hair. Using these new techniques, we now have the ability to transplant 3000 or more follicular units safely in one session.”

The complex nature and microscopic scale of the Follicular Unit Hair Transplantation procedure require superior surgical precision. Dr. Bernstein is well known for his surgical skill and talent; he has been named in New York Magazine’s “Best Doctors” list 9 years in a row.

In addition to his world-renowned skill in the field of hair replacement surgery, Dr. Bernstein is also acclaimed for the care that he provides for his patients. Dr. Bernstein and the rest of the staff at the Bernstein Medical Center for Hair Restoration aim to provide their patients with the best possible care and comfort during their hair transplant procedure. Their award winning website bernstm.devgmi.com is recognized for providing outstanding health information.

Columbia University is one of the world’s most important centers of medical research and distinguished learning environment for undergraduates and graduate students in many scholarly and professional fields. The University recognizes the importance of its location in New York City and seeks to link its research and teaching to the vast resources of a great metropolis. It seeks to attract a diverse and international faculty and student body, to support research and teaching on global issues, and to create academic relationships with many countries. It expects all areas of the university to advance knowledge and learning at the highest level and to convey the products of its efforts to the world.

About Dr. Bernstein:

Dr. Bernstein is the most widely published author on the subject of Follicular Unit Hair Transplantation, with over fifty articles, editorial reviews, books and textbook chapters. His landmark scientific papers are considered to be seminal works in the field of hair transplant surgery. In addition to a busy surgical practice, Robert M. Bernstein, MD, is Clinical Professor of Dermatology at Columbia University in New York. He lectures both nationally and internationally on the diagnosis and treatment of hair loss and treats patients from all over the globe at his state-of-the-art surgical facility in mid-town Manhattan.

Interview:

Interviewer: I am here today with Dr. Robert M. Bernstein, founder of the Bernstein Medical – Center for Hair Restoration. Dr. Bernstein is the recipient of the “Platinum Follicle Award” the highest honor given by the International Society of Hair Restoration Surgery. He has been chosen as one of New York Magazine’s “Best Doctors in New York” for nine consecutive years. Good morning Dr. Bernstein.

Dr. Bernstein: Good morning.

Interviewer: Dr. Bernstein, I understand you have recently been awarded a Certificate of Appreciation from Columbia University in New York.

Dr. Bernstein: Yes, I have been teaching at Columbia for 25 years. I was very honored to receive it.

Interviewer: Could you tell us about it?

Dr. Bernstein: The certificate is for the contributions that I have made to the academic programs of the Department of Dermatology.

Interviewer: You specialize in hair replacement and hair transplant surgery, and you were instrumental in developing the Follicular Unit Hair Transplantation procedure. Why don’t you tell us a little bit about this procedure and how you came up with the idea?

Dr. Bernstein: Sure. The Follicular Unit Hair Transplantation procedure is based on the discovery that in humans, hair does not grow singly as one commonly thinks, but rather, in tiny bundles of one to four hairs. We call these bundles follicular units. While evaluating patients for surgery using an instrument called a densitometer we could easily visualize these naturally occurring groups. It just made sense to perform the entire transplant using these tiny follicular units, as it would allow us to most closely mimic nature. We found that it also would enable us to safely transplant thousands of grafts in a single session and, for the patient, to complete the hair restoration as quickly as possible.

Interviewer: Interesting. I understand you not only use your knowledge in practice, but you are the most widely published author on this subject.

Dr. Bernstein: It is through publishing in medical and scientific journals that we can best share our ideas with our colleagues and ultimately improve patient care.

Interviewer: Is there a website where listeners can find these papers and learn more about the procedure and other information about hair loss?

Dr. Bernstein: Yes. If they go to the Bernstein Medical – Center for Hair Restoration website they will find links to all of my medical publications. The site has my blog and a lot of other useful information for persons who are experiencing hair loss.

Interviewer: Well, again congratulations, it was good to have you on the program.

Dr. Bernstein: Thank you.

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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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The website of Bernstein Medical – Center for Hair Restoration, a state-of-the-art hair transplant facility in Manhattan, was recently recognized by the World Wide Web Health Awards as one of the Internet’s best resources. BernsteinMedical.com was acknowledged for outstanding health information, based on accuracy, usability, and overall quality.

With over 30,000 unique visitors a month, the Center’s website has helped potential hair transplant patients from all over the world make educated decisions regarding their hair loss, including preventative medications and possible surgery.

“One of the most popular features of our website is the Hair Transplant Blog. It allows users to send in their questions and get clear, concise answers,” says Dr. Bernstein. “I try to clear up as much of the misinformation about hair restoration as I possibly can.”

Nearly two thirds of American males experience some measurable form of hair loss by age 35, according to the American Hair Loss Association. With millions of men and women seeking reliable information, Dr. Bernstein recognized the need for an informative, easy-to-navigate hair restoration resource on the Web.

The World Wide Web Health Awards is organized by the Health Information Resource Center (HIRC), a national clearinghouse for consumer health information programs and materials. These Web-based health awards are an extension of the HIRC’s 14-year old National Health Information Awards (NHIA), the largest program of its kind in the United States.

Bernstein Medical – Center for Hair Restoration, located in midtown Manhattan, is designed to deliver state-of-the-art hair transplant surgery. Dr. Bernstein is world renowned for his pioneering work in Follicular Unit Hair Transplantation and Follicular Unit Extraction. In addition to his private practice, Dr. Bernstein is Clinical Professor of Dermatology at Columbia University in New York.

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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: Can you give me an idea of the average width of a donor strip, i.e. the actual width taken from the back of your scalp for a hair transplant? — A.E., Fort Lee, N.J.

A: The average donor strip is 1cm wide, although this will vary depending on the patient’s scalp laxity, density, and the number of grafts desired for the hair restoration.

The length also depends on the number of grafts needed. We average 90-100 follicular unit grafts per cm2 of donor tissue (that is the density of follicular units in an average person).

A 2,000 graft procedure, for example, would require a donor strip 22 cm long and 1cm wide. A 2,500 graft session would be 1.2 cm wide and 23 cm long.

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New Hair Transplant Center in NY - Bernstein Medical - Center for Hair RestorationBernstein Medical – Center for Hair Restoration has moved to a new, state-of-the-art facility in mid-town Manhattan. The office is centrally located in the Park 55 building at 110 East 55th Street.

The new office is specially engineered for performing our pioneering follicular unit hair transplant procedures and innovative corrective surgery with custom surgical suites for patient comfort and operational efficiency.

The full Bernstein Medical – Center for Hair Restoration press release is below:

State-of-the-Art Hair Transplant Facility Opens in Mid-Town Manhattan

Bernstein Medical – Center for Hair Restoration, led by pioneering hair transplant surgeon Robert M. Bernstein M.D., has completed construction of their new state-of-the-art surgical facility in midtown Manhattan.

Occupying the entire 11th floor at 110 E. 55th Street (between Park and Lexington Avenues), this sleek new office has been designed exclusively for performing Dr. Bernstein’s pioneering surgical procedure known as Follicular Unit Hair Transplantation.

The only facility in New York designed specifically for Follicular Unit Transplantation; Bernstein Medical’s new center boasts the latest techniques in hair restoration. Special features include ergonomically designed equipment used by the surgical team to make the painstakingly detailed process of stereo-microscopic dissection go smoothly and efficiently. New techniques, such as vibratory anesthesia, custom surgical chairs and special lighting, maximize patient comfort.

In his seminal publications, Dr. Bernstein introduced a novel method of hair restoration surgery which recognized follicular units (groups of naturally growing hair follicles) as the ideal way that donor tissue should be used in hair transplant procedures. FUT, as it is popularly referred to, is now considered by many to be the single most important advance in surgical hair restoration in the last decade.

On the new center Dr. Bernstein stated, “Though our previous Manhattan location and our New Jersey facility both have had the latest technologies and instrumentation, it has always been our dream to design a surgical facility that had Follicular Unit Transplantation in mind from its architectural conception.”

Working closely with his architecture and interior design team, Dr. Bernstein oversaw all aspects of the project from its inception to insure that this new environment would be one to put patients at ease. From the use of natural sunlight and soothing colors, to the shapes of glass, stone and wood, all design elements were chosen to maximize the patient experience.

Dr. Bernstein has been named for the seventh consecutive year as one of New York Magazine’s Best Doctors for his pioneering work in hair transplantation. Dr. Bernstein is known to the general public from his appearances on NBC’s Today Show with Matt Lauer, CBS’s The Early Show, ABC’s Good Morning America, The Discovery Channel and other nationally syndicated programs.

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Q: I went to a hair transplant doctor for a consultation for my hair loss and he said that it was not that important to use microscopes for hair transplants. I had heard that it was. What’s the deal? — V.F., Hell’s Kitchen, N.Y.

A: It is extremely important to use microscopes when performing hair transplants. It is the only way that follicular units, the naturally occurring groups of hair follicles, can be isolated from the donor tissue without damaging them.

Other techniques, such as magnifying loops and back-lighting are not as precise. Using microscopically dissected follicular units in hair transplants has been the main advance that has allowed doctors to move away from the older mini-micrografting hair restoration techniques to the current procedure that can produce totally natural results.

See the Graft Dissection page.

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