Greetings,

Today I wold like to discuss the term Hair Transplant Or Hair Transfer. This term has become synonymous with the process of moving hair follicles from the donor zone on the scalp to areas of thinning or balding. The term Hair Transplant has always bothered me, as the term transplant is typically used to describe the donation of an organ from one individual to another. The hair taken from one individual will not grow if placed on another person unless both individuals are identical twins. Therefore, in actuality the term hair transplant is a misnomer as we are never taking hair from one person to transplant onto another. What we are actually performing is a hair transfer. We move hair follicles from the permanent donor zone on the back and sides (this is the hair that is immune to the process of genetic balding) to the areas of thinning. I would like to encourage others to begin to use the term hair transfer when discussing the process we perform as I believe it will help more people to understand what is involved in the process we routinely call hair transplant procedures.

All the best,

Marc Dauer, MD

Greetings,

Today I will discuss microscopic dissection in Hair Transplant procedures. Since the advent of Follicular Unit Hair Transplantation there are many different ways that physicians employ their staff to dissect the donor strip into individual follicular units in the process of hair transplant procedures, that is the groupings of hair that naturally occur on the scalp that we seek to move to the areas of thinning. There are many different types of microscopes that people use to dissect grafts and many different levels of magnification. Some physicians only have their staff use magnifying glasses on light boxes. I personally have my staff dissecting our grafts using brand new state of the art microscopes with 10x magnification and LED lighting. These microscopes are much more expensive than the typical microscopes but I believe they perform a superior job in dissecting the grafts. The 10x magnification is necessary to visualize the follicle in it’s entirety and allow for optimal dissection and the LED lighting provides excellent visualization while generating almost no heat (which typical lighting generates and can cause the grafts to dry out thus diminishing their chances of survival). Lessor magnification can result in the loss of intact follicles that cannot be visualized under lower magnification. This is turn can lead a lower survival of grafts in the hair transplant procedure.

In summary, state of the art high powered LED lit microscopes are more expensive, but superior in creating healthy follicular units for use in hair transplant procedures.

All the best,

Marc Dauer, MD

Donor Scar After FUT- Strip Harvest Hair Transplant Procedure

Greetings,

Today I would like to discuss the closure of the hair transplant donor strip in FUT, which is the strip harvest procedure. This is where we take a strip of hair from the donor zone and dissect it into individual follicular units for transplanting. In order to have an excellent result in the donor region (a fine linear donor scar, between 1-3mm in width) it is imperative to limit the width of the donor strip. Keeping the donor strip limited to a width of 10-15mm is usually safe for a fine scar result. Performing a trichophytic closure (which I have discussed in previous blog entries) can cause the hair to grow through the scar, further camouflaging it. Some physicians prefer to close the door region using staples. This technique is much quicker and easier for the physician. It is also much more uncomfortable for the patient. Sleeping on hard staples in the back of your scalp can be very painful. Staples are also painful to remove. I prefer to use a fine nylon suture which takes longer to place, but is much more comfortable to sleep on and is painless in it’s removal. I also believe that the healing with sutures is better than with staples. I typically have my patients leave their sutures in for 12-14 days before removing them. In hair transplantation there are always many different ways that each step of the process can be performed. It is imperative that the treating physician make decisions that are best for the patient in both the short term and long term.

All the best,

Marc Dauer, MD

Greetings,

Today I will show a patient of mine who received 1653 grafts via FUE using the SAFE system motorized manual punch with the .9mm hand piece. This patient was experiencing his hair loss primarily in the frontal scalp and this is where the majority of the grafts were placed. I believe the SAFE system which utilizes the blunt tip technology to extract the donor grafts in the best motorized piece of equipment for harvesting grafts via FUE. I also believe that the .9mm punch tip is ideal for extracting intact healthy grafts, while causing the least amount of scarring. Most punches for FUE are 1mm or larger, including the new ARTAS robot which only uses a 1mm punch at present. the difference between .9mm and 1mm may not seem like much, but when you multiply 1500 or 1600 times .1mm it adds up to a significant amount of increased scarring with the larger punch tip. In this patient I also used ACell which is an extracellular matrix (ECM) a natural biological material that can be implanted at the site of an injury or damaged tissue in order to stimulate healing. The graft stimulates the body’s own cells to form new tissue specific to that site (a process referred to as “Auto-cloning”). Therefore, instead of the body producing scar tissue, the body heals by remodeling with new tissue. I mixed the grafts to be implanted with ACell and saline and then at the end of the case I placed all the ACell and saline over the donor region and over the grafted region. The patient reported a minimal amount of crusting after the procedure both in the recipient and donor regions, and quick healing. The photos you will see show the patient immediately pre procedure and then then 7 days later. I will also be charting this patient’s progress throughout the next year with both photos and video. More to follow.

All the best,

Marc Dauer, M.D.

Greetings,

Today I want to discuss hair transplantation into a mustache scar. This patient was referred to me by a Plastic Surgeon and the patient had the mustache scar for many years and wished to conceal it with hair transplant grafts. I have performed hair transplants into scars all over the face and scalp. It proves very effective in minimizing the appearance of the scar. When scars form, they destroy the hair follicles in that area. When we place hair transplant grafts into the scar it makes the scar appear less noticeable as hair then begins to grow through the scar, like it did before the scar was formed. The growth rate of the hair follicles transplanted into scar is slightly less than hair transplants into normal tissue because of the decreased blood flow present in the scar. In typical healthy tissue we usually see growth rate of transplanted follicles around 90%. When transplanting into scar the growth rate may be somewhere between 70-80%. This still presents with a great opportunity to conceal scars by performing hair transplants into them. I will show the before and after mustache scar photos below and in future blogs I will address scars in other areas where I have performed hair transplants with excellent results.

All the best,

Marc Dauer, MD

Greetings,

Today I want to discuss the immediate post procedure time frame and something I have found to make the healing process quicker and better. I have found over my many years of experience performing Hair Transplants that keeping the grafts moist and clean as much as possible in the immediate post Hair Transplant procedure phase has contributed greatly to better and quicker healing of the grafts. I also believe that the better and quicker healing contributes to greater growth potential of the grafts. This is also why I routinely apply a thin layer of antibiotic ointment to the grafts and the suture line immediately post hair transplant procedure. I have formulated my own compound of a copper peptide spray solution that I give to all my patients. I call my post hair transplant copper peptide solution “Heal Spray”. I dispense Heal Spray to all my patients post hair transplant procedure and instruct them to spray the grafts 3-5 times per day. I have found that this regimen loosens the crusts associated with the transplanted grafts and promotes quicker healing and return to normal appearing scalp. Patient’s also say the heal spray provides soothing to their scalp and helps to minimize the itching in the transplanted region. Patient’s who underwent previous hair transplant procedures without the heal spray and then have used it in subsequent procedures have reported significant satisfaction with the product and it’s positive effect on the entire healing process. I hope to share my heal spray with other hair transplant surgeons in the near future. Until then we look forward to sharing it with all of our patients.

All the best,

Marc Dauer, M.D.

Greetings,

Today I will demonstrate a case I recently performed utilizing FUE (Follicular Unit Extraction) to harvest the individual follicles and subsequently transplanted the follicles into and eyebrow scar. Traditionally I would not usually perform FUE in an eyebrow transplant case as it only requires a small incision in order to harvest the number of follicles necessary in order to restore typical eyebrows to normal appearing density. In patients who insist on shaving their hair extremely short (#2 buzz cut or shorter) FUE is a better option in order to make sure that the scar does not show through. In a small FUE case I do not have to shave the entire donor area, and can shave a small strip of hair to harvest the donor follicles and then the patient can cover the donor region by combing the hair above over the shaved area. As you can see from these results the transplanted follicles into the scar grey very nicely and the patient was very happy with the final outcome. I have also used FUE to harvest follicles from the neck in order to transplant into mustache scars (in patients with cleft palate deformities and others) and other beard scars with excellent results. Below I have shown the before and after photos of this patient with the eyebrow scar.

All the best,

Marc Dauer, M.D.

Greetings,

Today I will discuss the scabs that form on the transplanted grafts immediately after the Hair Transplant procedure. Typically the crusts around the transplanted grafts form overnight. In my typical treatment I place a thin layer of antibiotic ointment on the grafts immediately post procedure. I also give all of my patients a copper peptide containing solution that I have formulated and call “Heal Spray”. I instruct my patients to spray on the grafts every 3-4 hours for the first 3-5 days. I have found that the copper peptide solution serves not only to keep the grafts moist, but it also loosens the crusts sooner and allows for quicker healing time and shedding of all the scabs. I also give my patients a special shampoo I have formulated called “Thicken” that contains a number of follicle thickening agents as well as coltar, which is used to treat a variety of different forms of inflammation and seems to calm the scalp down and reduce inflammatory properties that can cause scalp irritation. I encourage my patients to wash their hair with the Thicken shampoo beginning day 1 after their procedure by mixing a small amount of shampoo and water in a bowl and pouring it over the head. The Heal spray combined with the Thicken shampoo tends to get rid of most of the crusts around the transplanted follicles in 5-7 days which allows for a quicker return to normal appearance and a better growth potential of the grafts.

All the best,

Marc Dauer, M.D.

Greetings,

Today I will discuss an important concept in Hair Transplant Procedures known as “the illusion of density”. The typical density of follicles in a non balding scalp or healthy donor region is anywhere between 60-100 follicles per cm2. Usually the number is in the 70-85 range. Keep in mind that when I state follicles, the follicles may be single hair, 2 hair, 3, hair, or even 4 hair follicular units. Every individual has a different amount of each, but the average is about 2.5 hairs per follicle, with some having a slightly higher number and some slightly lower. The general rule is that once thinning of hair is noticeable in any particular region, the individual has already lost 50% of the original amount of hair that was present in the region. That is why we can create the illusion of density by re-creating slightly more than 50% of the original hair that was present in any given region. The reason why this is so important is that in many individuals they will go on to lose a large amount of hair over a lifetime. This can lead many male patients to end up as norwood 6 or 7, which means they end up losing most of the hair on the top of their head. The only difference between Norwood 6 and 7 is whether the donor hair fringe on the sides stays high, or gradually lowers over time as well. So clearly there would never be enough hair in the donor region to re create the original amount of density over such a large area. By meticulously and artistically placing the follicles with discrete angles and orientations, and creating a hairline that allows for future hair loss and conservation of donor follicles for this future loss, we can re- create completely natural hairlines, with less hair than was originally present. Hair caliber and curl are major determining factors in the final cosmetic result with an increase in hair caliber by .1mm possibly adding up to 30% to the overall cosmetic density of the final result. Also, skin to hair contrast has a major effect on the final cosmetic density as well.

This is why it is so important to have a strong grasp on the artistic elements that allow us to create this natural hairline and placing the hairline in a location that conserves donor hair for future hair loss.

All the best,

Marc Dauer, MD

Greetings,

Today I would like to discuss a question that is often posed to me regarding transplanting hair from one individual to another. Unfortunately the bottom line is that is does not work, unless it is from one identical twin to another. I have discussed this concept with a number of prominent hair transplant surgeons, one of whom actually tried to transplant 100 grafts from one individual to another. In the test case it did not work, and I have not spoken to one individual who claims to have had success transplanting from one individual to another. I do have a colleague who recently transplanted hair from one identical twin to another in a rare case where one twin lost hair secondary to radiation exposure for treatment of cancer. The transplant was performed less than 6 months ago, so the final results are not yet in, but preliminary results show good growth of the transplanted hairs in this case.

The holy grail for the field of hair transplant surgery will be the advent of hair cloning where we will be able to send a small sample of any individual’s hair to a lab for multiplication. This will negate the supply and demand imbalance that often exists and will also negate the need to harvest donor follicles either via FUE or FUT. Unfortunately we are many years away from being able to perform this in actual practice, but I have hope that the day will come. Until then, we can continue to harvest donor follicles via FUE or FUT and create impressive natural results in suitable candidates.

All the best,

Marc Dauer, MD