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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 Clinical Aesthetic, ((Rassman WR, Pak JP, Jino K, Estrin NF. Scalp Micro-Pigmentation, A Concealer for Hair and Scalp Deformities. Clinical Aesthetic, March 2015, 8(3): 35-42.)) scalp micropigmentation (SMP) is an effective cosmetic solution for millions of men and women who currently have significant scalp deformities for which there are few, if any, good medical treatment options.

Scalp Micro-Pigmentation is a Permanent Hair Loss and Scar Concealer

SMP is a permanent cosmetic tattoo of carefully selected pigments applied to the scalp in a stippling pattern to mimic closely cropped hair. This technique allows a physician skilled in SMP to effectively conceal a variety of alopecias and scars.

SMP can address the following situations:

  • Female hair loss not responsive to minoxidil or cannot be treated with a hair transplant
  • Hair loss due to chemotherapy
  • Deformities from autoimmune diseases, such as refractory alopecia areata or alopecia totalis
  • Scalp scars from scarring alopecias
  • Scars from neurosurgery or head trauma
  • A visible scar from a strip harvesting procedure or punctate scars from an FUE procedure
  • Visible open donor scars from older harvesting techniques – usually those from the 1950s through the early 1990s
  • A pluggy or corn-row look from older hair restoration procedures

Scalp micro-pigmentation can also create the appearance of fullness on an otherwise thinning or bald scalp with or without a shaved head.

The Scalp Micro-Pigmentation Process

The physician skilled in SMP has a variety of tools at hand, including pigments of different colors and viscosities. The pigments can be introduced into the skin using a number of different needle types and sizes.

The physician begins by taking a needle and inserting a tiny droplet of pigment through the top layer of the skin and into the upper dermis. Because the thickness of the top layer of the skin varies across the scalp, the doctor must judge the appropriate depth at each location by both “feel” and visual cues. For example, a portion of the outer skin layer that has more fat and hair follicles will have a different look and will produce a different feel when inserting a needle compared to a scarred or bald scalp.

To place the correct amount of pigment at the correct depth at a particular location on the scalp, the operator of the tattooing instrument must take into account the following variables:

  • The angle and depth of the needle
  • The time the needle is left in the scalp (in order to place the pigment into the upper dermis)
  • The resistance of the scalp, which varies locally across the scalp
  • The particular color and viscosity of the pigment
  • The size and shape of the particular needle

In order to produce the desired shading and create the desired illusion of texture and fullness, the doctor must vary the density of the stippling across the area of application. Because every patient is unique and every area of the scalp is different, the doctor must proceed carefully in order to achieve the desired aesthetic effect and to minimize the chances of the pigment bleeding into the area surrounding the point of application.

The complete SMP process usually takes two to four sessions.

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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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Restoration Robotics

Restoration Robotics, the company that developed the ARTAS® Robotic Hair Transplant system, has published a white paper case study on how Dr. Bernstein utilizes the robotic system’s tools to minimize scarring after Robotic FUE.

The paper describes how a Bernstein Medical patient — a 45 year old man with Norwood Class 5A male pattern baldness — had 2,540 follicular units harvested with the ARTAS robot, generating a total of 2,768 grafts. Some of the tools and techniques that Dr. Bernstein employed include:

  • Small 19g dissecting needle — the small needle leaves a smaller wound that heals more rapidly than previous needles.
  • Software programmed to avoid 1-hair follicular units — the extraction of follicular units with more than one hair maximizes the number of hair follicles per graft and reduces the number of donor wounds that need to be made.
  • Minimum distance between harvest sites — by increasing the distance between harvested follicular units (from 1.7mm to 2.0mm), Dr. Bernstein enabled “feathering” between harvested and non-harvested zones. This blending of harvest zones into non-harvested zones makes the harvested area less noticeable.

In the third month after his Robotic FUE hair transplant surgery, the patient’s donor area was reviewed for scarring with hair shaved at four different lengths.

See images of the patient’s donor area below:

Before Robotic Hair Transplant
Before Robotic Hair Transplant
Day 2 Following ARTAS Procedure
Day 2 Following ARTAS Procedure
3mo Post-op: Shaved with #2 Clipper
3mo Post-op: Shaved with #2 Clipper
3mo Post-op: Shaved with #1 Clipper
3mo Post-op: Shaved with #1 Clipper
3mo Post-op: Shaved with Peanut Clippers
3mo Post-op: Shaved with Peanut Clippers
3mo Post-op: Shaved with Peanut Clippers (Close Up)
3mo Post-op: Shaved with Peanut Clippers (Close Up)
3mo Post-op: Shaved to the Skin
3mo Post-op: Shaved to the Skin
3mo Post-op: Shaved to the Skin (Close Up)
3mo Post-op: Shaved to the Skin (Close Up)

The case study illustrated that the ARTAS Robotic Hair Transplant system’s suite of tools can minimize the detectability of scars after an FUE hair transplant.

Dr. Bernstein describes advanced Robotic FUE techniques used at Bernstein Medical (VIDEO)
Read about Robotic Hair Transplantation

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Q: I heard that for someone who has had several strip procedures, the ARTAS robot for FUE does not work because it is programmed to work with “textbook male pattern baldness”, which I no longer have. I thought the scars from previous procedures, as well as the large amount of already transplanted hair, might throw off the robot’s programming (it wouldn’t quite know what to do). But if I am wrong about this then the robot may in fact be the best approach for me. Please advise. — N.C., Paris, France

A: When performing robotic hair transplants on patients with prior surgery, I program the robot to avoid scarred areas – just as we would do visually when performing manual FUE.

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Q: I haven’t seen much new with ACell. Have you been making progress with your research?

A: Thus far, we have not been able to multiply transplanted hairs with ACell, nor have been able minimize the width of the donor scars following FUT. At present, we are not recommending ACell to our patients, but are continuing to explore different ways of using it.

Visit the Hair Cloning News section to read about the latest research on cloning and multiplication
Read about Hair Cloning Methods

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

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

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

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Q: I 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: 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: I have heard of body hair transplants as an option being considered by some patients. Do you think that could be an option for me as my donor area isn’t able to provide the hair that I need? — N.S., Winnetka, I.L.

A: With body hair transplants, the hair quality is poor and there can be a significant amount of scarring where the hair is harvested, so we are not recommending it at this time.

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Q: Is it more important to do scalp exercises before the first procedure or the second? — P.P., Richmond, V.A.

A: When the scalp is tight, it can be useful for either the first or the second hair transplant.

Keep in mind, however, that the scalp will naturally stretch between hair transplant procedures, so that if exercises were not needed for the first procedure, they will generally not be needed for the second.

In our practice, we generally wait one year between hair restoration sessions so that we can see the full cosmetic impact of the first procedure and give the scalp laxity a chance to return to normal on its own.

In addition, there is a risk that active massage after the first procedure may widen the donor scar. Therefore, before considering massage before a second hair transplant, make sure that enough time has elapsed between procedures so that stretching of the scar will not be a be a problem.

In general, since the scalp will normally continue to relax for up to a year after a procedure, it makes sense that when there is a tight scalp, one should wait at least a year before considering the next hair transplant session. If massage is contemplated, it should be started one year after the prior procedure. This will give the scalp a chance to loosen naturally and will ensure that the massage will not stretch the donor scar.

In my opinion, it is a mistake to plan hair restoration sessions too close together in patients where scalp laxity is a constraint.

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Q: I am Hispanic and I have thick, black coarse wavy hair. Do you transplant Hispanics and are there any difficulties in performing hair transplants in them?

A: Yes, we treat Hispanic patients. There are no specific issues unique to Hispanics when performing hair restoration procedures. However, things to consider are:

  1. Hispanics have a slightly greater incidence of forming a thickened donor scar than Caucasians (but not as great as African-Americans)
  2. Hispanics often have coarse hair, but a low donor density, so fewer absolute numbers of grafts may be available for the restoration. The coarse hair, however, will make the restoration appear fuller.
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Q: My first hair transplant was a breeze. Will a second procedure be any different than the first? — B.B., Murray Hill, N.Y.

A: Generally in a second procedure, a patient can expect less swelling post-up although the reason for this is not known.

There will also generally be less shedding in the second hair transplant session since the weak miniaturized hair that will be shed is often lost in the first session and the previously transplanted hair is generally more resistant to shedding.

In a second session we generally, but not always, transplant fewer numbers of grafts.

If the old scar in incorporated into the new incision, then there will be slightly less hairs per graft since the density in and around the scar will be slightly altered.

For those who are bald, the second hair restoration is sometimes less dramatic than the first since the second is used for fine tuning rather than taking the person from completely bald to having hair.

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Q: I recently had a follicular unit extraction procedure of 320 grafts to fix an old strip scar. The donor area where the FUE’s were taken looks very diffuse – worse than the original scar ever was, it looks horrible. My doctor said this was just shock loss. Have you seen that happen where the donor area gets all diffuse from shock? If not, have you seen it where the FUE’s are taken in an illogical pattern resulting in new scarring that is noticeable? — E.O., Providence, R.I.

A: You can have shedding in the donor area from an FUE procedure, although it is not common. In FUE, the hair must be taken from the permanent zone and if there is too much wastage in the extraction process, too large an area may be needed to obtain the hair. This can leave a thin look even without shock loss (shedding).

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Q: I am in my early 20’s and I was told my hair loss pattern is a Norwood Class 6, on its way to becoming a Class 7. My hair is brown in color and medium to coarse and I was told I have high density in my donor area. Although I was told I could have hair transplants, do you think that I should based upon what I have told you? — D.W., Pleasantville, N.Y.

A: The main concern I would have is that when someone is already a Class 6 by their early 20’s, he may eventually be left with only a very thin see-through fringe as he ages. A high donor density now does not ensure that this will not occur – and coarse donor hair at age 22 does not ensure that it will not become fine over time. In fact, there is a significant chance that it will.

Since the hair restoration would require one or more large sessions, there is a risk that the donor scar(s) will not be hidden over time. If you had a widened linear donor scar from an FUE-strip procedure, you would need to grow your hair longer on the back and sides to cover it (if that is even possible). And this look of longer hair on the back and sides would not be a good one for a young person, especially if there was not enough donor hair to fill in the crown.

On the other hand, large FUE sessions leave a very wide band of small round scars in the back and sides of the scalp that can become visible if the anticipated permanent donor zone was not truly permanent and narrowed over time.

When we are younger, our decisions are often more emotion-based and impulsive. When one is older, and our tastes change, we may change our mind about having had surgical hair restoration, but the hair transplant, once performed, is not reversible.

Read about the Candidacy for a Hair Transplant

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

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

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

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

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

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

Follicular Unit Preservation

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

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

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

Donor Scarring

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

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

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

Popping

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

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

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

Blood Flow

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

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

Limited Donor Supply

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

Conclusion

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

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

For further discussion see:

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Q: I am trying to have my donor scar repaired after a 1000 graft hair transplant. I was told the FUE’s placed into the scar would conceal it enough to shave my head? I would like to shave my head completely bald with a razor. — N.R., Poughkeepsie, N.Y.

A: In general, after a scar correction with follicular unit extraction you can clip your hair very short, but not shave your head. If you shaved your hair completely bald, you would generally see a vague outline of the linear scar as well as the small scars from FUE.

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Q: I have heard that the hair for a hair transplant is taken from the back and sides of the scalp. Where exactly is the best place to remove the hair from? — L.L., Rivington, C.T.

A: You are correct. The best place to put the donor incision is in the mid-part of the permanent zone located in the back of the scalp. As more hair is needed the incision is extended towards the sides.

The vertical position can be found by feeling for the bump in the mid-part of the back of the scalp, also called the occipital protuberance. The strip should lie over this point.

If hair is removed too low on the back of the scalp, there is a greater chance that the wound will heal with a stretched scar from the movement of the underlying muscles. If the incision is too high, the hair will be subject to the same genetic balding and may not be permanent.

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Q: I understand that even if you have multiple hair transplants you will only be left with one scar in the donor area. — T.J., Yonkers, N.Y.

A: If the closure is performed without tension, each procedure should result in the same fine scar.

The best-placed incision is in the mid-portion of the permanent donor area. Since there is only one mid-point, there is one best position for the scar. All incisions should lie on this plane leaving one scar.

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Q: There is such a big deal made on the chats about people getting Megasessions of over 4000 grafts per session. When I look at the pictures on your website, the results look great, but I am surprised that not many grafts were used compared to what is being talked about. — N.R., Poughkeepsie, N.Y.

A: My goal is not to transplant as many grafts as possible, but to get the best results possible without exhausting a person’s donor supply. It is important to keep reserves for future hair loss. Unnecessarily large sessions also risk poor growth and have a greater incidence of donor scarring.

View Before and After Hair Transplant Photos

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Q: When a second hair transplant is performed, should there be a second incision or should it be incorporated into the first? – D.V., Inwood, N.Y.

A: It is a very common practice to make a second separate scar in the second hair restoration procedure. This is done to maximize the hair in the second session, and it is technically the easiest to perform. If you incorporate the old scar in the new incision, there will obviously be less hair. As long as the upper incision is still in the permanent zone, the hair quality will be good.

That said, in my practice I almost always use only one scar. The subsequent procedure would incorporate the first and extend the scar to one side or the other (or both). I generally use the old scar as one edge of the new strip so that there is only one incision into virgin scalp (rather than two).

There are a number of reasons for this technique.

  1. The hair will always be taken from the mid-portion of the permanent zone, so we utilize the thickest, most stable hair
  2. A line scar in this location is generally the least visible and most easily camouflaged with the persons existing hair
  3. One avoids making a scar too low that increases the risk of widening the scar
  4. One scar will be easier to camouflage with Follicular Unit Extraction (if this is ever necessary)
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Q: When harvesting donor hair, how does the surgeon know when to stop? – D.D., Pleasantville, N.Y.

A: The patient must first decide the shortest length he/she is comfortable wearing his/her hair.

Donor hair can be removed — whether through Follicular Unit Transplantation (FUT) or Follicular Unit Extraction (FUE) — as long as, at this length, the back and sides do not look too thin (i.e. do not have a transparent look) and the donor scars are not visible. The surgeon needs to use his judgment when harvesting, so that this endpoint is not crossed.

Additionally, the surgeon must anticipate that the caliber of hair in the donor area will decrease slightly over time as a normal course of events. The actual number of grafts that can be harvested varies greatly from person to person. It depends on the patient’s donor density, scalp laxity, hair characteristics and size of the donor area.

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Q: Can you shave your scalp after a hair transplant with FUE without noticing scarring in the donor area? — A.A. Bronxville, N.Y.

A: Although there is no line scar in follicular unit extraction, there are tiny round ones. You can clip your hair very short after FUE, however, shaving your head will make the very fine white scarring visible.

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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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Q: Is it possible to use the strip technique with the extraction technique together? If so, would that hide the scar enough for me to wear my hair really short? — J.J., Austin, TX

A: The combination of Follicular Unit Transplantation (FUT) and Follicular Unit Extraction (FUE) used the way you are suggesting does make sense and is actually how I originally envisioned the two procedures to work together.

The camouflage of the donor scar will probably never be necessary, but if it is desired, it should be postponed until after the last FUT procedure. FUE will make it possible for most people to wear their hair very short.

Read about FUT Hair Transplants
Read about FUE Hair Transplants

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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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