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Dr. Bernstein closed the 2017 ARTAS Users Meeting with a discussion of five advanced techniques in robotic hair transplant procedures that he developed at Bernstein Medical. His presentation covered the benefits of pre-making recipient sites, long-hair FUE, tensioner placement, feathering edges in harvesting, and robotic graft selection. The “Hair Restoration Pearls” presentation included case studies, photographs, and videos demonstrating the techniques to the audience of hair restoration physicians. The two-day affair; which was held in Coronado, California; was a huge success, with over 260 attendees from around the world representing 204 robotic hair restoration practices.

Pre-Making Recipient Sites
There are several advantages of pre-making recipient sites in Robotic FUE procedures. One of the most important is that grafts are out of the body for a shorter period, which increases graft survival. During placement, there is less bleeding and greater graft stickiness, which result in increased visibility for the physician, less graft popping, and up to a 30% decrease in placing time. By pre-making sites, the physician can determine the exact number of grafts needed in the hair transplant. Also, the healing process can begin in the recipient area in advance of placing. This creates a fertile bed of oxygenated tissue with factors that promote healing and the subsequent growth of the follicular unit grafts.

Long-Hair Robotic FUE

In Long-Hair Robotic FUE, the patient has their hair temporarily lifted with tape during the hair transplant surgery. The physician then harvests from the donor area in a linear configuration so that, after the procedure, the long hair is let down covering the harvested area. The long-hair technique can be applied using one harvesting row (which yields up to 1,600 grafts), a double-row (2,000 grafts), or two separate rows (2,400). Long-Hair Robotic FUE, using the ARTAS Robotic Hair Transplant System, allows the donor area to be camouflaged immediately after surgery and does not limit a patient’s ability return to work. It also makes robotic hair transplants more practical for women, who usually prefer not to shave their donor area.

Tensioner Placement

Dr. Bernstein discussed a new two-handed technique for applying the robotic tensioner to the patient’s scalp. The tensioner applies traction to the scalp, stabilizes the skin, limits bleeding, and provides a system of fiducials that the ARTAS robot “reads” for proper orientation. Dr. Bernstein showed a video in which he demonstrates the technique and discusses the importance of applying the silicon straps as vertically as possible to ensure the greatest tension and stability. The two-hand technique allows for reduced stress on the physician’s hands, better control, and more accurate placement of the tensioner. It also facilitates easier edge engagement to create tension on the skin in preparation for harvesting.

Feathering Edges
Feathering is a common technique to avoiding a squared-off, geometric look after the FUE procedure. It allows the patient to maintain a natural look while wearing their hair short after the procedure. Dr. Bernstein presented two different ways to feather using existing capabilities of the ARTAS system. Dr. Bernstein showed how the physician can both round the edges of the harvest area and decrease the density on the outer edges, with simple, reproducible techniques. Most importantly, he discussed the situations in which feathering is important and the ones in which it should not be used.

Robotic Follicular Unit Graft Selection

Robotic graft selection is an advance over the harvesting technique used in earlier iterations of the ARTAS robot. The robot previously harvested grafts at random. By creating a software algorithm designed to skip over one-hair units and select only the larger follicular units, the harvesting process improved in efficiency. According to Dr. Bernstein’s study, the clinical benefit is 11.4% more hairs per graft and 17% more hairs per harvest attempt using this technique. Larger follicular unit grafts can be dissected into one-hair units for use in the frontal hairline and other cosmetically important areas in order to create the most natural aesthetic outcome in the hair transplant while minimizing the number of recipient wounds.

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Q: How are specifications for making recipient sites inputted into the ARTAS® robot? — A.F., Queens, NY

A: At the outset of the procedure, the physician sits at a computer terminal that is connected to the ARTAS Robot and enters the specifications directly into the robot’s software. Variables programmed in this manner include the number of recipient sites, density of sites, angle that the hair will extrude from the skin, depth of recipient sites, and the minimum distance away from existing hair follicles that a site can be created.

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Q: How does the ARTAS System avoid damaging hair follicles in the balding area during recipient site creation? — R.K., Brooklyn, NY

A: The ARTAS robot‘s optical guidance system enables it to accurately create recipient sites in areas of thinning hair without damaging existing hair follicles. During the recipient site creation process, the robot uses its advanced image-guided optical system to scan the surface of the skin, locate existing hair follicles in the recipient area, and then create recipient sites at a specified distance from these existing hairs.

The ARTAS robot carries out this process rapidly, accurately, and consistently according to the physician’s programmed specifications. Thanks to the microscopic precision of the image-guided technology, the robotic hair transplant system can avoid injury to follicles that can result when Follicular Unit Extraction (FUE) is performed using manual techniques.

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Dr. Bernstein Discusses the Latest in Robotic Hair Transplant Surgery on The Bald Truth

Dr. Bernstein appeared on The Bald Truth, where he was interviewed by the show’s host, Spencer Kobren, about the ARTAS® Robotic Hair Transplant system for FUE and the latest updates to the robot. He also discussed increased demand for FUE procedures, and hair transplants in general, around the world.

Bernstein Medical was among the first facilities in the world to use the ARTAS Robotic System to perform Follicular Unit Extraction (FUE) hair transplants, a procedure pioneered by Dr. Bernstein. Bernstein Medical is a beta-test site for this innovative technology. Physicians at Bernstein Medical have introduced new applications for the robot, including: custom punch sizes, robotic recipient site creation, automated follicular unit graft selection, and a “long-hair Robotic FUE” technique that allows the patient to keep their hair longer in the donor area. Every FUE hair transplant at Bernstein Medical uses the ARTAS Robotic System. Dr. Bernstein is a medical advisor to Restoration Robotics, the company that manufactures the ARTAS hair transplant system.

Watch video of the interview and read a transcript
Read more about Robotic FUE
Read our Robotic Hair Transplant FAQ

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

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

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

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

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

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

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

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

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

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

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

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

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

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Q: How do recipient sites get made in Robotic FUE? And how does the robot know where to create the sites? — K.K., Bergen County, NJ

A: In performing recipient site creation, the ARTAS Robotic Hair Transplant system automates another part of the hair transplant process that is repetitive and prone to human error. In robotic site creation, the physician first designs the hair restoration and then specifies the angle of hair elevation, hair direction, site depth, average density, and total number of the recipient site incisions. The robot then creates the sites according to these specifications.

During site creation, the robot automatically uses its image-guided technology to avoid hairs of a certain diameter (specified by the doctor). The robot creates sites at a minimum distance from hairs of the specified diameter (the distance is also specified by the physician) and will do so randomly throughout the areas where the hair is finer or the scalp is bald. With this important feature, the new distribution of sites can be made to complement the distribution of existing hair. Observation of the ARTAS System suggests that it performs recipient site creation with greater precision and consistency than can be accomplished manually.

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Q: How does the ARTAS robot control the depth of the incision in Robotic FUE? — B.V., Old Greenwich, CT

A: The ARTAS robotic system is equipped with advanced sensors that determine the precise depth of the sharp and blunt needles used both in the graft harvesting step and for recipient site creation. The robot automatically adjusts to the precise depth needed for the non-traumatic extraction of the grafts. The tip of the punching mechanism contains depth markings so that the physician can visually override the punch when he wants to fine-tune its action. While monitoring the procedure in real time, if it is observed that the punches are too superficial or too deep, punch depth can be modified using the robot’s computer system.

The physician can also use the ARTAS system to precisely control the depth of recipient sites. As with harvesting, the robot automatically adjusts the depth based on parameters set by the physician and the doctor can then make further adjustments, in real-time, during the procedure.

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Dr. Robert M. Bernstein presented the ARTAS Hair Studio™ digital hair transplant design software and robotic recipient site creation using the ARTAS® Robotic Hair Transplant system, each advances in key aspects of hair transplantation, at the International Society of Hair Restoration Surgeons (ISHRS) annual meeting in Kuala Lumpur, Malaysia on Saturday, October 11th, 2014.

Kuala Lumpur, Malaysia (PRWEB) October 31, 2014 — Robert M. Bernstein, M.D., F.A.A.D., a world-renowned hair transplant pioneer, has presented two advances in robotic hair transplant surgery to the hair restoration industry’s largest conference; an interactive hair restoration design software suite called ARTAS Hair Studio™ and recipient site creation capability in the ground-breaking ARTAS® Robotic Hair Transplant system. Dr. Bernstein’s presentation highlights the fact that the ARTAS System is the first system to integrate the planning and performance of a hair transplant procedure. Dr. Bernstein presented these new technologies at the 22nd Annual Science Meeting of the International Society of Hair Restoration Surgeons (ISHRS) in Kuala Lumpur, Malaysia, on October 11th, 2014.

ISHRS 2014 - 22nd Annual Scientific Meeting - Kuala Lumpur, Malaysia
ISHRS 2014 – 22nd Annual Scientific Meeting in Kuala Lumpur, Malaysia

ARTAS Hair Studio is a planning tool that assists the physician in the design phase of the hair restoration procedure. Dr. Bernstein’s presentation described how this software enables the physician to generate a three-dimensional model of the patient’s head and then create a treatment plan based on parameters such as the number of recipient sites, the angle of elevation of the hairs, and the direction of the hairs. With small modifications of the software, the technology can add “virtual” hair to the 3-D model and allow patients to see how the results will actually look. This will create a more interactive, educational experience for the patient and one that helps align the patient’s expectations with what is possible given their specific hair loss characteristics.

Dr. Bernstein showed how, using the new software, the surgeon can divide the treatment area into two or more sections and then program different recipient site densities for the different areas to closely mimic how hair grows in nature. The treatment plan created using ARTAS Hair Studio can be saved and then imported into the ARTAS hair transplant robot.

Once the design specifications have been imported, the ARTAS Robot can then create the recipient sites, the tiny incisions made in a patient’s scalp, into which transplanted grafts of naturally-occurring groups of 1-4 hairs, called follicular units, are placed.

Recipient Site Creation at Bernstein Medical Using ARTAS Robotic System
Recipient Site Creation at Bernstein Medical Using ARTAS Robotic System

In his presentation to the ISHRS, Dr. Bernstein described several advantages of robotic site creation over manual site creation, including: the elimination of inconsistencies in creating large numbers of recipient sites by hand, precise distribution of follicular unit grafts, automatic adjustment to site densities, and automatic avoidance of existing hairs without sacrificing speed. The robot uses advanced sensory equipment and optical cues to locate potential recipient sites on the scalp and then quickly and accurately make the incisions based on the pre-programmed parameters. The robot can create up to 2,000 recipient sites in approximately one hour.

Dr. Bernstein noted that these advances represent an integration of the design and planning processes with the actual performance of the procedure. Whereas in the past, the doctor would describe the treatment plan to the patient and then manually implement the prescribed plan, today’s computerized robotic system allows the physician to digitally design the hair transplant treatment plan, and then that plan directs the robot in the operating room.

Restoration Robotics Inc., the company that developed the robot, collaborated with Dr. Bernstein, using the Bernstein Medical – Center for Hair Restoration facility as a beta-testing site, to upgrade the ARTAS robot and test these and other advances. The ultimate goal is to deliver a robot that will mechanize every surgical aspect of an FUE hair transplant procedure.

About Robert M. Bernstein, MD, MBA, FAAD

Dr. Bernstein’s published articles on follicular unit hair transplant procedures have been called “Bibles” for the industry. He has received the Platinum Follicle Award, the highest honor in the field. He is a fellow of the International Society of Hair Restoration Surgery (ISHRS). Dr. Bernstein has appeared as a hair restoration expert on many notable television programs and in many news and lifestyle publications over the years. Examples include: The Oprah Winfrey Show, The Dr. Oz Show, The Today Show, Good Morning America, ABC News, CBS News, New York Times, Wall Street Journal, Men’s Health Magazine, and more. He is co-author of Hair Loss & Replacement for Dummies. Dr. Bernstein graduated with honors from Tulane University, received the degree of Doctor of Medicine at the University of Medicine and Dentistry of NJ, and completed his training in Dermatology at the Albert Einstein College of Medicine. Dr. Bernstein is a Clinical Professor of Dermatology at Columbia University.

About Bernstein Medical – Center for Hair Restoration

Bernstein Medical – Center for Hair Restoration, the facility Dr. Bernstein founded in 2005, is dedicated to the diagnosis and treatment of hair loss in men and women using the most advanced technologies. The state-of-the-art facility is located in midtown Manhattan, New York City and treats patients from around the globe. In 2011, Bernstein Medical became one of the first practices in the world to offer Robotic FUE procedures using the image-guided, computer-driven technology of the ARTAS Robotic System. Bernstein Medical is a beta-testing site of the robot’s new capability including the creation of recipient sites and Dr. Bernstein is a medical advisor to the company that produces the robotic system, Restoration Robotics, Inc. The board-certified physicians and highly-trained clinical assistants at Bernstein Medical take pride in providing the highest level of treatment and care for all patients.

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Q: I understand that in robotic hair transplantation, a robot performs the extraction part of the FUE procedure. What’s the outlook on the robot doing more of the hair transplant procedure? — B.B., Greenwich, CT

A: Currently, the ARTAS® Robotic System is a technology for extracting grafts. This is the most difficult part of a follicular unit extraction procedure, but it is only one part.

There are two other major parts to the FUE procedure: one part is the creation of recipient sites (in our practice, we create the recipient sites first, so that once we harvest the grafts, we can immediately place them into the scalp), and the other part is graft placement.

Recipient site creation involves more than merely making holes in the recipient area. It involves making decisions on hairline design, graft distribution, hair direction, recipient site size and depth. When done manually, the surgeon first designs the new hairline so that the hair transplant will look as natural as possible, particularly as the person ages. Next, the surgeon will demarcate the extent of the area to be transplanted and decide on the graft distribution (i.e., how much hair will be placed in each part of the scalp) and will then prepare a “recipient site” in the part of the scalp that has lost hair. The surgeon will then manually create incisions in the recipient site into which the follicular units will be placed.

On February 8, 2014, Dr. Bernstein unveiled “recipient site” creation capabilities of the hair transplant robot. These new capabilities allow the doctor to import a hairline design and other markings that have been made on the patient’s scalp directly into the robot. The robot then maps the design onto a precise 3-D model of the patient’s head. The physician can then program the proper distribution, direction and depth of the future recipient sites and the robot then creates the sites according to the physician’s specifications.

Graft placement, the last step, is perhaps the most challenging to automate. Engineers are currently working to design and build the capacity to automate the placement of extracted follicular units into recipient site incisions. Done manually, it requires significant hand-eye coordination and a very slow learning curve. For the hair transplant robot, it will be a significant challenge with development taking several years or more.

Read more about Robotic Hair Transplant

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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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