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Q: I have read that some doctors perform something called a trichophytic closure. What is this? — M.S. ~ Thornwood, N.Y.

A: Trichophytic closure is a way to minimize the appearance of the donor scar in a hair transplant using a strip incision. The technique provides improved camouflage of a linear donor scar in Follicular Unit Transplantation (FUT). Normally, in FUT, the surrounding hair easily covers the scar. For some patients with very short hairstyles, the resulting donor scar may be visible. With the trichophytic closure technique, Dr. Bernstein trims one of the wound edges (upper or lower), allowing the edges to overlap each other and the hair to grow directly through the donor scar. This can improve the appearance of the donor area in patients who wear their hair very short.

The trichophytic donor closure can be used on patients who have had previous hair transplant procedures and are looking for improvement in the camouflage of their donor scar. It is particularly useful in hair transplant repair or corrective work. Trichophytic closures work best with sutured incisions. Stapled closures have their own advantages. The doctor will recommend which type is best in your case.

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According to an article published in the journal of Facial Plastic Surgery Clinics, ((Rassman W, Pak J, Kim J. Scalp micro-pigmentation: a useful treatment for hair loss. Facial Plast Surg Clin North Am. 2013;21(3):497–503.)) scalp micro-pigmentation (SMP) has been found to be a useful cosmetic treatment for hair loss and scalp scars.

SMP is a scalp tattooing technique that uses fine dots – like a stippled painting – to mimic the appearance of extremely short hairs on an otherwise bald scalp.

SMP can create the appearance of a fuller head of hair on a scalp that is losing hair by softening the contrast between the hair that remains and the color of the scalp. It can also effectively camouflage a scalp scar, like the donor scar from a strip hair transplant procedure, the scar from a scalp reduction or scars from trauma to the scalp.

Finally, SMP can help augment the results from either a Follicular Unit Hair Transplant (FUT) or a Robotic FUE Transplant (R-FUE), especially for patients who do not have enough donor hair to give the appearance of full coverage.

More Art than Science

While one might think the placement of the dots need only follow, in a straightforward fashion, the natural distribution and density of hair that occurs on a normal scalp, the application of SMP is in fact more art than science.

The effective application of SMP requires a strategy and technique custom tailored to each patient that takes into account the particular aesthetic needs of the patient and the particular characteristics of their hair and scalp.

To correctly design and execute such a tailored approach, a physician needs to have considerable expertise regarding where to place the dots, the proper needle size, the best angle of application, the depth and duration of penetration, and the best type of dye to use for a particular person’s scalp.

In addition to SMP being an art form, the article stresses that in the case of concealing pattern hair loss, a physician also needs to have a thorough medical understanding of the progressive nature of the genetic balding process.

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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: 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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Q: I am scheduled to have a hair transplant next month and wonder if I should do scalp exercises before the procedure? — G.F., Providence, R.I.

A: For the majority of patients, scalp exercises are not necessary.

The scalp in the donor area has a fair amount of redundancy. With a properly planned hair transplant, the donor area will close relatively easily.

If a patient’s scalp is particularly tight, or if a very large session is planned (even in the face of an average scalp), vigorous scalp exercises are useful in increasing laxity.

The advantage of stretching one’s scalp prior to surgery is that it allows the doctor to remove a slightly wider strip and it decreases tension on the closure so the person will heal with a potentially finer scar.

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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: I recall that you wrote an article about Monocryl for the donor closure in hair transplants. Why are you now using staples? — R.S., Park Slope, NY

A: I have been using staples in almost all of our follicular unit hair transplants since the beginning of 2006. When we published the Sutures vs. Staples study in 2001, some doctors were still not convinced. Because of this I continued to look at the issue, not in a bilaterally controlled experiment, but just looking at my cases done with the 5-0 Monocryl and those with staples that I continued to use from time to time. After doing hundreds of additional cases, I was still convinced that, overall, the suture line looked better with the 5-0 Monocryl sutures than with the staples.

However, it occurred to me that perhaps we were looking at the wrong thing. I began to think that perhaps we should be looking at hair preservation, rather than cosmesis alone.

The problem with the appearance of stapled closures is that it results in a very well demarcated, geometric line. Monocryl sutures, on the other hand, results in a much softer, more smudgy line – the characteristic that made it look better in the study.

This effect is produced by two things. The first is that the very fine 5-0 Monocryl sutures placed very close to the wound edges allow perfect wound edge approximation. However, the running suture actually destroys some hair as it makes its spiral course through the skin, destroying some hair and producing this smudgy appearance. We had felt that suturing very close to the would edge, using fine suture caliber 5-0 Monocryl, advancing the running stitch on the surface rather than in the SC space, and the mechanism of action of Monocryl absorption (via hydrolysis rather than by an inflammatory reaction) would all mitigate against any hair loss – but there was still some. It seemed that although the overall look was better with sutures, it might be at the expense of some hair loss.

To test this, I began to look at the hair yields in the donor strips of second hair transplant procedures where the new harvest completely encompassed the old scar. It seemed, at least anecdotally, that the strip containing an old incision that had been sutured closed contained slightly less hair than that from one that was stapled closed, even if the former looked better. Although I did not do a rigorous study, this was my “sense.”

In addition, I realized that staples could be left in the scalp for 3 weeks after a hair transplant without causing excessive inflammation (patient discomfort not withstanding) and this gave me more flexibility in using staples in patients with slightly tight scalps without having to rely on subcutaneous sutures. I began to take out alternate staples at 7 to 10 days and the remaining staples at 18-21 days post-op.

With the issue of hair preservation, rather than just the cosmetic benefit, as the main goal and with the added flexibility of being able to leave in alternate staples for up to 3 weeks, I started using staples routinely in almost all of our hair transplants.

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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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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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Q: I am considering having an FUE procedure and have heard the phrases topping, capping, and tethering as part of the procedure. What do all these terms mean? — C.C., Hell’s Kitchen, N.Y.

A: These are all terms that refer to the types of injury that can occur to grafts during a follicular unit extraction procedure.

In FUE, a sharp instrument (or sharp instrument followed by a blunt one) is used to separate follicular units from the surrounding donor tissue. Forceps are then used to remove the follicular units from the scalp.

Topping occurs in the first step when the doctor accidentally cuts off the top of the graft so that the remainder of the graft cannot be removed.

Capping occurs when the doctor grabs a graft with forceps and the top of the graft (the epidermis and upper dermis) pulls off, leaving the rest of the graft behind.

Tethering occurs when the bottom of the graft is still attached to the deeper tissues after the first step causing the follicular unit to pull apart during extraction.

There are a few other terms used as well.

Shredding occurs when the follicular unit is not totally separated from the surrounding tissue and pulls apart upon extraction. Shredding can also occur when the follicular unit was partially damaged in the first step.

Transection is like topping, but here the mid or lower portion of the hairs in the unit are cut.

Buried grafts occur when the graft is pushed into the sub-cutaneous space rather than extracted. Buried grafts can usually be removed, but if not removed completely, may turn form small cysts.

Visit the Follicular Unit Extraction page.

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Q: Dear Dr. Bernstein, a full head of hair averages ~100 FU/cm2. To achieve the appearance of fullness with a hair transplant 50% is required. In one of your articles you say that you recommend 25 FU / cm2 to your patients. Is that the density per one session or the final one? If that is final density, then it is far below the 50%. Please explain as I am profoundly confused. — W.N., Easton, C.T.

A: If a person is to become a Norwood Class 6, the hair that we have available for us to transplant is only about 12% of what was there originally. This, of course, will vary from patient to patient depending upon one’s donor density and scalp laxity and a host of other factors.

We make the hair restoration look good by restoring 25-50% in the front, and proportionately less in the back. Logically one cannot restore 1/2 of ones original density to an entire bald scalp with only a thin strip of donor hair – there is just not enough hair, even with multiple sessions.

I transplant 25-35 FU/mm2 in one session, but this is the density created in the front, not overall.

Due to follicular unit graft sorting (placing the larger follicular units in the forelock area) this provides even more density than the actual numbers suggest. If someone is relatively certain to have more limited hair loss, then the numbers can be increased, but it is risky if you underestimate the degree of eventual hair loss.

Please carefully read the article on Hair Transplant Aesthetics.

It will answer your excellent question in greater detail. The article is a bit old, but the principles are the same.

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Q: I am interested in an FUT hair transplant. How do you figure out how large a strip to use for the hair restoration when transplanting all follicular units? — P.K., New York City, N.Y.

A: The length of the donor strip incision is determined by the number of follicular unit grafts required for the hair restoration. There are slightly less than 100 follicular units/cm2, so if a 1cm wide strip is used, a hair restoration procedure requiring 1800 grafts would need a strip that measured slightly more than 18cm in length.

A 2800 graft procedure would measure slightly more that 24cm if the strip were 1.2cm wide.

The width of the strip is determined by scalp looseness or laxity. For more information, please see the page on the Donor Area.

Read more about FUT hair transplant procedures

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Q: Why are strips used so much in a hair transplant when there is now Follicular Unit Extraction (FUE)? — E.N., Long Island, N.Y.

A: Strip harvesting is used in the majority of hair transplant procedures because it allows the surgeon the ability to perform hair transplant sessions using large numbers of grafts while minimizing injury to the patient’s hair follicles.

This is possible because once a strip is removed from the back of the scalp, the tissue can be placed under a stereomicroscope where dissection is accomplished using direct visualization of the follicular units. This allows the grafts to be dissected with minimal trauma.

This degree of accuracy is not possible with other hair restoration techniques, such as FUE, where the separation of follicular unit grafts from the surrounding tissue is accomplished “in vivo” (directly from the scalp).

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Q: Why can donor hair become frizzy and dry once transplanted? — G.F., Stamford, C.T.

A: Frizzing and kinkiness is a temporary phenomenon that is part of the normal healing process after a follicular unit hair transplant. During the healing process, the new collagen that forms around the grafts can alter their growth. Over time, usually within a year, this collagen matures and the hair quality usually returns to normal. If grafts have been excessively traumatized or grafts larger than follicular units have been used, these changes are more likely to be permanent.

Dry hair is felt to be caused in part by trimming follicular units too closely and thus removing the sebaceous glands which normally provide an oily film to the surface of the hair and skin. With grafts smaller than follicular units (i.e. with closely trimmed micro-grafts) the risk is even greater.

To prevent this, in the dissection phase of the hair transplant, one should isolate intact follicular units from the donor tissue and trim away excess skin, but not trim the follicular units “to the quick.” Excess trimming, besides removing the sebaceous glands, also makes the grafts more subject to drying, warming and mechanical trauma (particularly during graft placing).

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Follicular Unit Forum - Bernstein Medical - Center for Hair RestorationFollicular Unit Forum is unique in that it affords visitors an opportunity to anonymously ask questions about the “ins and outs” of hair transplant surgery, of those who actually have had the state-of-the-art Follicular Unit Hair Transplant procedures.

Questions are posted to people who have actually undergone hair restoration procedures. Individuals who are considering a surgical solution to their hereditary baldness are able to search through “threads” or conversations that will answer their most pressing concerns such as; what to expect before, during and after a hair transplant, and what kind of procedure one should have.

The focus of this new online health resource is Follicular Unit Transplantation and Follicular Unit Extraction, two procedures that are universally considered to be the most up-to-date approach to surgical hair restoration. Follicular Unit Transplantation is a surgical technique that transplants hair in naturally occurring groups of 1-4 hairs. These groups (called follicular units) are taken from a single donor strip of skin and dissected using a microscope. Follicular Unit Extraction is a method that obtains the tiny follicular unit grafts from the donor area by using an instrument which removes them one-by-one directly from the scalp.

Patients who have received hair transplants with undesirable results (such as the typical pluggy “dolls hair” look) can also benefit from monitoring the site. FollicularUnitForum.com has posts from patients who have had unnatural looking grafts removed and re-implanted in a more natural way – as follicular units – to produce the most best results.

“We wanted to create a consumer-to-consumer forum that exclusively addressed the topic of Follicular Unit Hair Transplantation – the procedure that is now considered to be the gold standard in surgical hair restoration” said Robert M. Bernstein M.D., founder of Bernstein Medical – Center for Hair Restoration and sponsor of the site. “There are some great forums for hair loss out there but we felt that there was room for one that was created specifically for people who had done their preliminary research but now wanted to hear more first hand experience with FUT or FUE”.

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Q: If I had a hair transplant using Follicular Unit Transplantation, how many grafts would be in a 15cm by 1cm donor strip, on average? — J.A. Point Pleasant, N.J.

A: In a person with average donor density there are approximately 100 follicular units per square centimeter. A 15cm long strip would have slightly less than 1500 grafts due to the tapering of the strip ends.

Therefore, in a hair transplant of 1500 follicular unit grafts, one should take out a 17 cm x 1cm strip (that includes the tapered ends). This is 15cm2.

Read about the number of grafts in a hair transplant

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Q: What is Follicular Unit Transplantation and how is it different from Follicular Unit Extraction? — H.L., White Plains, NY

A: Follicular Unit Hair Transplantation, called FUT for short, is a procedure where hair is transplanted in the naturally occurring groups of one to four hair follicles. These individual groups of hair, or units, are dissected from a single donor strip using a stereo-microscope. The area where the donor strip was removed is sutured closed, generally leaving a thin, fine, line scar.

In Follicular Unit Extraction, or FUE, the individual units are removed directly from the back or sides of the scalp through a small round instrument called a punch. There is no linear scar. There is, however, scarring from the removal of each follicle. Although the scars of FUE are tiny and round, the total amount of scarring is actually more than in FUT.

In addition, since in FUE the bald skin around each follicular unit is not removed, the total amount of hair that can be removed in FUE is substantially less than in FUT. This is because if one were to remove all the hair in an area, it would be bald. In FUT, the intervening bald tissue is removed along with the follicles in the strip.

Read our page on FUE vs. FUT

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Dr. Bernstein — and a Bernstein Medical – Center for Hair Restoration hair transplant patient — were featured on NBC television’s “Today” program with Matt Lauer. The segment, which mostly covered hair transplant repair procedures and hair restoration, was one of a three-part series on hair loss.

Visit NBCNews.com for breaking news, world news, and news about the economy

Read below for a portion of the transcript:

What men will do for a few more strands of hair

Recent changes in transplant surgery have led to more natural-looking results and a boost of self confidence for some balding men

Hair transplants are one of the top five cosmetic procedures for men in the U.S., with more than 19,000 performed last year, according to the American Society for Aesthetic Plastic Surgery. But is it worth it? As part of a three-part series on hair loss, “Today” spoke with two men who underwent the procedure.

Allen Appleblatt has made a big change in his life. He works out, spends time with family and stays busy with work. And when it comes to his appearance, he’s feeling good about his new head of hair.

“I kind of felt like I was an idiot looking at myself in the mirror,” said Appleblatt. “Whenever I took a shower, at the end of the shower I found a clump of hair at the bottom of the drain. And there was no way of stopping it.”

So Appleblatt had two hair transplants. His partner, Shirley Garofano, likes what she sees.

“I liked him both ways. But I like him better now. He looks great, he’s very positive, he’s happier,” she said.

Happier, but he still wants thicker hair. “Today” followed him while he underwent his third hair transplant, taking advantage of the latest techniques.

“Over the past 10 years we’ve developed a new procedure called follicular unit transplantation, where hair is transplanted exactly the way it grows,” said Dr. Robert Bernstein, an associate clinical professor of dermatology at New York’s Columbia University.

This new technique replaces the plugs — groups of hairs inserted into round holes in the scalp — used in the early days of hair transplant procedures. It is now known that hair grows in groups of one to four hairs.

“So follicular unit transplantation is a transplantation of hair in its naturally occurring groups,” said Bernstein. “We’re really just transplanting the root.”

Appleblatt is given valium and local anesthesia, and then a donor strip is removed from the back of the head where hair is not genetically programmed to fall out.

“We have a team of people dissecting the grafts. They divide it into individual follicular units,” said Bernstein.

The units are then transplanted into the balding area. And 10 to 12 months later, the new hair will be in place.

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Dr. Bernstein was interviewed by Skin & Allergy News in their article, “Microscopic Dissection Offers Superior Yield” The complete article is below:

Skin & Allergy News
February 1999

Skin & Allergy News - Microscopic Dissection Offers Superior Yield

Microscopic Dissection Offers Superior Yield
Articles by Anna Nidecker
Senior Writer

Washington — The dissecting microscope takes some getting used to, but using it makes more efficient use of donor hair during follicular unit transplantation than magnifying loupes with transillumination, reported Dr. Robert Bernstein of Columbia University Microscopic Dissection of follicular unitsCollege of Physicians and Surgeons, New York.

“A limiting factor in all hair restoration surgery is the patient’s finite donor supply. […] Meticulous stereomicroscopic dissection should help preserve the supply and ultimately provide the patient with the most transplantable hair,” he said at the annual meeting of the International Society of Hair Restoration Surgery.

Dr. Bernstein compared the follicular unit graft yields of dissections performed with stereoscopic microscopes and with loupes and backlighting. Initial sectioning of the intact strip was done with loupes, as the staff had not yet mastered the skill of slivering that is needed to section the intact strip under microscopic guidance.

“This method may be useful for a team in transition, a model for staffs in transition to using the microscope,” the hair transplant surgeon suggested.

Tips on Transition to Microscopes

The microscope offers a better yield with follicular transplantation, but some doctors feel that abruptly switching from loupe magnification may send an office into turmoil.

Microscopes will be well received by staff if they clearly understand the benefits and are eased into the transition, Dr. Bernstein said.

Dr. David Seager advised physicians planning the transition to the use of microscopes to let staff observe microscopic dissection at another clinic with an established program, and to send them somewhere to be trained before they start. The Toronto hair transplant surgeon also advised buying a couple of microscopes and letting the staff “play” with them for a while, cutting at their own leisurely rate before entering into a high-pressure transplant session.

Dr. Bernstein also recommended easing slowly into the transition by first training a small portion of staff, which will not affect the overall time of surgery.

Another option is to hire a couple of new technicians and train them from the beginning with microscopic dissection, Dr. Seager suggested.

“You’ll be amazed at the beautiful grafts they will be cutting in a couple of weeks. […] It may be only 40 grafts an hour, but these newcomers will be cut­ting better grafts than even your 8-year veterans,” he said. “Old staff will look at these new technicians and their grafts, and, if they take pride in their work, they will be quite jealous and will be re­ally eager to catch up.”

Dr. Bernstein agreed: “The value of the microscope may be more significant in the hands of less experienced dissectors. […] There’s some advantage even at the outset.”

Continued resistance from staff should be met with a deadline: ‘Anyone who can’t or won’t fit in, tell them they can do something else in the office, but they won’t be doing transplanting,” Dr. Seager said.

In 41 patients, the donor strip was harvested with a double-bladed knife from the midportion of the permanent zone in the back of the scalp.

The strip was divided into two equal parts along the midline; these were further divided into 2- to 3-mm wide vertical sections using loupes and a straight razor. Sections from one of these donor strip halves were further dissected into follicular units using a 10x power microscope; sections from the other donor strip half were dissected using magnifying loupes.

Follicular units cut using the microscope contained an average of 2.41 hairs; those cut using loupe magnification yielded 2.28 hairs. Use of the microscope also yielded 10% more follicular units and 17% more hair overall, compared with use of loupes.

The grafts were dissected and sorted into follicular units containing one to four hairs, and all hair and hair fragments judged to be potentially viable were counted towards the yield (Dermatol. Surg. 24[8]:875-80, 1998).

Microscopic dissection took from two to four times as long as loupe magnified dissection when technicians first began using the microscopes. After 3 months, the procedure still took twice as long with the microscopes. But by the end of the study 1 year later, it took only 10% longer, a rate they currently maintain, Dr. Bernstein said.

Hand-eye coordination was a factor which automatically improved, and the inefficient movement of grafts in and out of the microscopic field was solved with better organization, he said. Technicians with a tendency to obsessively sculpt grafts under the microscope can be educated to limit this sculpting, which does not affect the quality of the transplant.

Use of the microscope also led to fewer reports of back and neck strain by assistants. They also reported easier dissection when there was donor scarring, and with blond or light-colored hair.

Besides the benefit at the stage of dissecting the sections—as shown in this study—microscopes can improve yield by 5%-10% at the “slivering” stage. Yield can be improved an additional 15%-20% by avoiding use of the multibladed knife at the donor harvesting stage.

Loupe advocates argue that microscopes unduly slow down the procedure and that staff resistance to this new technology may be an insurmountable problem in some practices. They also lament the higher economic cost of purchasing the microscopes, training the staff, and slowing down dissection time with no clear benefits.

Dr. Bernstein said that the benefits of microscopic dissection far outweigh these minor inconveniences and should be incorporated into hair transplant procedures.

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

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

Form Follows Function: Follicular Transplants Mimic Natural Hair Growth Patterns

By Neil Osterweil
Contributing Editor

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

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

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

Natural Hair Groups Used

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

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

Keys to the follicular transplant technique are:

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

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

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

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

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

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

Procedure Lowers Cost

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

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

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

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