Salons That Do Hair Extensions

Surgical procedure is popularly used for those who have saggy, excess skin as a result of weight loss. You can go for thigh lift, arm lift, breast lift. Your sagging abdomen skin can be made firmer post pregnancy. Aging and weight loss are other causes for sagging abdomen which needs to be tucked. You can try out cosmetic surgical procedure known as “body lift”. Other surgical procedures for thigh lift, breast lift or fat reduction includes Vaser LipoSelection System Ultrasonic-assisted Liposuction (UAL) and Power-assisted Liposuction (PAL).

Enhance your body contours and look great!

With the help of surgical treatments you can improve your figure and achieve firmer and more attractive-looking legs, breast, abdomen, back, buttocks etc. Get rid of those ugly looking flab which is a result of pregnancy, age or sudden weight loss. Your skin may have lost its elasticity due to “over extension” caused by being overweight too. With the help of body lift, certain areas such as abdomen, legs, breast, groin, arms, chest, buttocks and thigh area can be worked out to remove excess skin tissue of the body.

Your buttocks can be made firm with an incision made to create more prominent contour of the back or buttocks. It is achieved by excess skin or unwanted skin removal. Body lift procedures are carried out in various part of the body to gain a more appealing result. Other than this, massage with oil also helps post pregnancy and during old age. This helps to make the sagging skin firmer and gives elasticity to your skin. It also makes your skin glow. Massaging your breast will help keep them firm and increase the breast size if they are too small. Proper blood circulation is boosted with the help of massaging and as a result the breast tissues grow back.

Contour Ab Belt of a good brand will help to some extent, provided you have a well balanced diet. Ab belt or flexi belt functions as abdominal toning tool. Remember, to find out about the product from your relatives or friends who have used it before and then consider buying them. Happy exercising!

Unlike some of the other available ab energizers, this particular ab shocker is made to be used only on the abdomen. Like others, though, it is portable and can be worn under clothing while doing a variety of activities. Consider this product, after through examination as it has its own advantages and disadvantages.

It is surprising to find that, after a hair transplant, patients with tight scalps and snug donor closures often heal with fine scars, whereas patients with loose scalps and easy to approximate wound edges occasionally heal with unacceptably wide scars. This seems contrary to the basic surgical dictum that non-tension closures heal better than those that are tight.After seeing a patient with Ehlers-Danlos Syndrome several years ago, we began to think that connective tissue integrity was possibly more important than scalp laxity per se, in determining whether or not a primary closure would heal with a fine scar. It would help to explain the apparent “Scalp Laxity Paradox” – the sometimes-inverse relationship seen between scalp laxity and donor scarring (i.e. the better the laxity, the worse the scarring). Case StudyA 26 year-old white male with male pattern alopecia presented to our office after having 6 hair transplant procedures between 1995 and 1999. Other than an unnatural, pluggy-looking frontal hairline, his first 4 procedures were uneventful. His 5th and 6th procedures healed with slightly widened donor scars. Our goal was to remove some of the larger grafts and re-distribute them as individual follicular units, in order to soften the appearance of his frontal hairline. In addition, we planned to excise the widest scar hoping to reduce its size and, in the process, harvest a small amount of hair to transplant to the frontal scalp. Since only some of the scars were wide, and the scalp was still lax, our clinical impression was that the widened donor scars were most likely technique dependent. The patient had no other abnormal scars on his body and he had a negative skin pull for Ehlers-Danlos Syndrome. Although we weren’t considering the diagnosis of EDS at the time, we perform this test routinely on all patients presenting with widened donor scars. We harvested a 12.5 x 0.7 cm donor strip that yielded 235 follicular units from the periphery of the excised scar. These grafts were placed at the frontal hairline and in the anterior scalp. We closed the donor wound, without tension, using a 4-0 Monocryl running stitch. The procedure was uneventful. Post-operatively the patient developed mild but persistent erythema and edema along the suture line. There was no response to oral antibiotics. At 8 weeks post-op, with the symptoms persisting, our clinical impression was that the patient was possibly experiencing a hypersensitivity reaction to the Monocryl sutures (although the incidence of this is extremely low). We treated the area with a small amount of intralesional triamcinolone acetonide 10mg/cc injected along the suture line. At 10 weeks post-op, the scar had returned to its original width and we entertained a diagnosis of Ehlers-Danlos Syndrome.The patient’s history was taken in greater detail. It revealed a number of symptoms that were not indicated by the patient in the history questionnaire or picked up by the doctor at the initial consultation. These included: 1) slow healing from testicular surgery in childhood, 2) back pain from kyphosis, 3) mitral valve prolapse, 4) chronic periodontal disease, and 5) undiagnosed chronic arthritis. On re-examination the patient was noted to have hyper-extensible joints and was able to touch his nose with his tongue (Figures 2 & 3). The patient was sent to the Department of Genetics at Schneider Children’s Hospital for further evaluation. Based upon his history and clinical findings, he was felt to have a diagnosis most consistent with Ehlers-Danlos Syndrome: Benign Hypermobile (Type III). There are no specific biochemical tests available for this type of EDS. Skin biopsies were taken from the patient for biochemical testing of cultured fibroblasts. Type I & III pro-collagen and collagen were examined by protein gel electrophoresis to rule out the more severe forms of EDS. These tests were normal.DiscussionEhlers-Danlos Syndrome is a group of inherited disorders of connective tissue characterized by one or more abnormalities of joint hyper-mobility, skin hyper-extensibility, poor wound healing, abnormal scarring and easy bruising. There are 11 clinical variants, or subtypes, that arise from a variety of abnormalities of collagen structure, function, synthesis, and/or catabolism. Six subtypes have known biochemical abnormalities of collagen. The incidence of EDS in the general population is 1:440,000 with approximately 12% having EDS Type III.Although our patient developed a widened donor scar, it was interesting that he did not have the classic “cigarette paper” wrinkled scarring seen in many cases of EDS, nor was he positive for the skin distensibility test (stretching the skin on the ventral forearm and measuring the elevation). We routinely use this extensibility test on all patients presenting with wide scars. The tests negativity possibly contributed to our not considering the diagnosis of EDS initially. The wide range of clinical symptoms of Ehlers-Danlos Syndrome raises the question of how many cases may actually go undiagnosed. One can certainly postulate that a forme fruste of EDS may be the cause of some of the unexplained cases of wide donor scars seen in surgical practices and may be a partial explanation for the Scalp Laxity Paradox seen in hair transplantation. It may also help to explain the “mush dermis” condition described by Dr. Dow Stough and why direct follicular unit extraction from the donor area is not possible in every patient. Dr. Gerard Seery’s excellent commentary in the Forum4 on Cary Feldman’s article on “Tissue Laxity,” gives additional insight into the Scalp Laxity Paradox. Dr. Seery describes two distinct contributors to scalp laxity: Glidability – the ability of the scalp to slide or glide over the underlying pericranium (related to the fibroareaolar layer of the scalp) and Extensibility – the ability of the scalp to stretch (related to the elastin content of the dermis). He states that these two factors, Glidability and Extensibility, are independent phenomena. Dr. Seery concludes that: “Some scalps are highly elasticized and reasonably wide strips can be removed purely by undermining and stretching, but this is relatively much more detrimental to tissue viability than sliding.”There is another implication of this differentiation that can be of great importance to hair restoration surgeons. When scalp laxity is due to Glidability, one can be confident that a loose scalp will result in a fine donor wound. However, if scalp laxity is due to Extensibility, then “Surgeon Beware.” An extensible scalp may give the false impression that an easily closing wound will heal with a fine scar. Instead, it may be a signal that there might be excessive post-operative stretching and a cosmetically unacceptable result. In addition, the extensible scalp may be a sign of underlying connective tissue defects – or possibly EDS. If only we could differentiate between the two before the hair restoration surgery begins!Dr. Feldman devised a means to determine “scalp elasticity” by injecting saline into the subcutaneous space and then assessing how much the tissue “balloons” as a result. Dr. Feldman implies by the term “scalp elasticity,” that he is actually measuring Extensibility as defined by Dr. Seery (i.e. the ability of the scalp to stretch due to the elastin content of the dermis). Dr. Seery describes a simple way to measure Glidability. “This is easily determined by simply placing the pulps of the examining fingers on the scalp and moving it on the underlying pericranium.” So there you have it: we now have easy ways of measuring the two components of scalp laxity – well, not so fast! How do we know that Dr. Feldman’s test is not really measuring Glidability and Dr. Seery’s is not actually measuring Extensibility? Or that both are measuring a combination of the two; by assessing tissue laxities, but not differentiating which is the responsible component? I don’t think that we can really tell from these tests! How can we tell, for example, that the tissue “distension” measured by the balloon is due to skin stretch rather than from movement in the subcutaneous space or that when the skin is “moved” with the finger tips, it is simply gliding over the pericranium and not stretching a little into its new position? Distinguishing between Glidability and Extensibility may be of more than academic importance. In clinical practice, the contribution of each may not be so easy to ascertain, but an accurate differentiation between these two causes of laxity may allow the surgeon to determine which patients may truly be at risk to form wide donor scars. It is possible that biochemical evaluations on patients with loose scalps may uncover a spectrum of conditions characterized by borderline defects in connective integrity and may serve an adjuvant to the clinician managing patients with wide scars. A deeper knowledge of the structure and function of connective tissue in patients without overt clinical syndromes may be the real key to understanding the Scalp Laxity Paradox. REFERENCES1. Pinnell SR McKusick VA. Heritable Disorders of Connective Tissue with Skin Changes. In: Fitzpatrick et al., eds. Dermatology in General Medicine, 3rd ed. New York: McGraw-Hill, 1987. 2. Demis DJ. Ehlers Danlos Syndrome. In: Clinical Dermatology, 21st Revision. 1994; (1) 4-3. 3. Rassman WR, Bernstein RM et al. Follicular Unit Extraction: Minimally invasive surgery for hair transplantation. (Submitted to Dermatologic Surgery)4. Seery G. Commentary #1. Hair Transplant Forum International 2001; 11(6): 179-180.5. Feldman CS. Tissue Laxity based on Donor Tissue Ballooning. Hair Transplant Forum International 2001; 11(4): 119.

IntroductionThe follicular unit (FU) was first defined by Headington and the conceptual framework for using FUs in hair transplantation was laid out by Bernstein and Rassman. It became clear to most surgical hair restoration practitioners that the single-strip harvesting and stereomicroscopic dissection techniques developed by Limmer in 1988 were the best way to both harvest and isolate FUs.Although single-strip harvesting is an extremely efficient means of obtaining tissue for subsequent dissection into FUs, it results in a linear scar. Careful technique with thin donor strips will produce very fine scars, but if the strips are taken too wide, the scar can widen to an unacceptable degree. Covering the donor area with longer hair was the only solution to widened scars, as surgical repairs of these wounds generally proved to be ineffective. As a result, a number of patients became hesitant to undergo a hair transplant procedure that had a potentially difficult-to-treat widened linear scar.In the mid-1990s, Rassman set out to find a way around this problem by directly extracting FUs from the donor area using a small punch. Early attempts were frustrated by high transection rates in a significant number of patients until Richard Shiell brought the work of Masumi Inaba to his attention.Inaba”s technique varied slighty, using a similar punch but only partially cutting down on the hair follicle and then removing the remainder with forceps. Inaba”s insight led to Rassman and Bernstein describing follicular unit extraction or the FOX procedure (FOllicular unit eXtraction), outlining an entire surgical hair restoration procedure without strip harvesting After performing the FOX procedure on patients of various nationalities it became obvious that extraction proved to be quite variable. Histologic analysis was used in an attempt to elucidate the cause of patient variability and the FOX Test was introduced, an important surgical recommendation tool to determine patient candidacy.Overall results showed that the FOX Test classified approximately 60% of all patients as candidates for the FUE procedure. However, even the good hair transplant candidates had a strong possibility of follicle transection.Two-Step TechniqueThis process is comprised of two main steps. In the first step, a sharp 1 mm punch is placed over the follicular unit and aligned to approximate the angle of the hair shafts below the skin surface. A rotational motion of the punch is then used by the hair restoration doctor to cut through the skin and isolate FUs in the epidermis and upper dermis.For a successful hair transplant procedure, the incident angle of the punch cannot vary much from the hair shaft direction or some, or all, of the hairs in the FU will be transected. Since the hair bulbs in each FU splay outward in the deep dermis and fat, it is also important to limit the depth of the punch to the upper dermis, which proves difficult.In step two, the extraction, fine rat-toothed forceps are used to apply gentle traction to the top of the FU until the unit is pulled loose from its deep dermal and subcutaneous connections. There is person-to-person variation with this procedure. To help limit variation effects, the technique was refined further, adding dissection when simple extraction proved difficult. If a graft cannot be removed with gentle traction, then the deeper part of the graft is separated from the surrounding tissue through dissection using a fine needle (with a U-shaped tip) while traction is applied with delicate forceps.With this additional dissection step, percentages of positive FOX patients increased. Despite a significant yield improvement, a large number of hair restoration patients still could not be shifted into “FUE candidacy.” In many cases transection rates were still unacceptably high and dissection times for significant cases unacceptably long; the additional step slowed the entire process.Three-Step TechniqueJames Harris presented a paper and a new solution at an ISHRS scientific meeting, in which he added an additional third step requiring new instrumentation. In this new three-step hair transplant procedure, a sharp punch is used to score the epidermis (rather than cut through the full thickness to the dermis) and then a dull punch is used (through a back-and-forth twisting motion) to bluntly dissect the FU graft from the surrounding epidermis and dermis .This variation has several advantages over the original two-step process. Using a dull punch avoids follicle transection and allows intact FUs to be extracted more easily. As the blunt-tipped punch is advanced into the dermis, splayed follicles are “gathered together,” avoiding transection. In effect, the dull-punch technique allows a full realization of the “extraction concept” with an easy-to-learn methodology. One untoward result of the three-step technique is a possible higher incidence of buried grafts, as discussed later. In addition, some of the FUs remain tethered to the subcutaneous tissue and require additional dissection.One great advantage of this addition was that it opens this surgical hair restoration technique to the inherent FOX-negative population: those with very fine hair and those with African kinky hair types. Because the procedure is performed blindly, visualization is no longer an issue, potentially increasing yield for those with hard-to-see gray hair. In addition, it appears that this FUE modification has applicability for corrective procedures, removing FUs inside old plugs.Indications for FUE have evolved considerably. Initially, FUE was limited to FOX-positive patients (that showed minimal transection) and in those in which the size of the balding area matched the surgical team”s ability to perform the procedure in an acceptable time frame – essentially small procedures in select patients. With improved techniques, Rassman reported his largest case yet in 2004: 1903 FUs performed exclusively with the original two-step technique. Harris” modification should allow these large sessions in a greater number of hair transplantation patients.Nuances of three-step techniqueAlthough the three-step technique is easier to master than the two-step technique, there are certain factors that will increase its efficiency and success.Because the subcutaneous course of follicles cannot be ascertained with great accuracy, “scoring” incisions should be limited to a depth of between 1.3 mm and 1.5 mm (approximately the level of the end of the bevel on a standard 1 mm Miltex punch) to decrease the risk of inadvertent transection. However, in hair transplant patients whose follicles are slightly longer, scoring incision depths may be increased by 0.1-0.2 mm. This increase should facilitate insertion of the “dissecting” punch and may decrease the incidence of “buried” grafts.Even though the use of a blunt punch provides protection for follicles and makes the angle of insertion less critical, follicles may be damaged if the angle is radically different from the follicle”s direction. To prevent damage, scoring incisions can be created, and their angles reassessed to obtain a more accurate estimate of the follicle”s direction and more accurately “aim” the dissecting punch.Follicle separation from the epidermis and upper dermis at the sebaceous gland may occur during extraction. This phenomenon, which has been called “capping,” can be handled in three ways. If the subcutaneous attachment is significant, a second pass with a dissecting punch can be attempted. A second option is to grasp the unit at the sebaceous gland region and pull, applying a slow, steady force. The final option, if standard dissection fails, is to leave the graft in situ and allow the skin to heal by secondary intention.Since a third step is required in this new hair restoration method, the need for efficiency has increased. Rather than performing each of the three steps for each FU in sequence, a preferred method is to identify an area to be extracted, score 25-50 FUs, dissect each one, and then extract. Assistants may help with dissection and extraction but care must be taken to identify any buried grafts for subsequent retrieval efforts.The need for tumescence varies from patient to patient, but for the most part, it has been found that tumescence may cause the dermis to become somewhat “mushy” and impede the extraction process. The hair transplant surgeon must make constant assessments of extraction success each step of the way with every patient. Ease of extraction also seems to vary with scalp location. The occipital area tends to be easier while temporal areas may require manual dissection due to a higher degree of tethering.Management of buried graftsAs previously mentioned, this hair transplantation technique has an inherent possibility of producing buried grafts. Incidence can vary from patient to patient depending on unidentified skin characteristics. It has been observed that in some patients and in some areas (the temples for example), slightly increasing scoring depths decreases the incidence of buried grafts.When a buried graft is identified, immediately apply pressure around it in an attempt to “force” the graft to the surface. If this maneuver fails, the hair restoration doctor should examine the circular incision to identify the follicle base, a key step in facilitating removal. If the follicle is not visible, use small, curved forceps with the tip directed towards the “superior” aspect of the incision in an attempt to grasp the FU. Owing to punch insertion angles, the incision depth is shallower at the superior aspect of the incision. Grafts often invert at this location by tethering to a nonscored attachment.If the graft still cannot be located, make a small incision towards the superior aspect to create a larger exploratory opening. If after these steps visualization still eludes the hair transplant surgeon, the graft should be left buried. Exact incidences of graft burial and graft recovery are not available; however, in a 40-patient and approximately 10,000-graft study, only two instances of buried grafts resulted in hair-bearing inflamed cysts requiring removal.Indications for FUEFUE is indicated in the following situations:1. When even a very thin linear scar is unacceptable (i.e. in those who shave their head or wear their hair very short)2. When a patient requests an FUE procedure and enough grafts can be harvested to meet his or her needs3. In patients with limited hair loss or those who require small sessions. This group would include patients with androgenetic alopecia in a Norwood Class 3 pattern or those with small vertex balding areas4. For limited cosmetic areas, such as widow”s peaks, eyebrows, eyelashes, mustaches5. For limited areas of alopecia secondary to dermatologic conditions6. In the treatment of widened scars resulting from traditional strip excisions7. In patients without adequate laxity for a strip excision8. For scarring from dermatologic conditions, trauma, or neurosurgical procedures9. For individuals with heavily scarred donor areas making a linear incision problematic10. In patients who tend to heal with wide or thickened linear scars11. In athletes who must resume full activity soon after the procedure12. For patients with an inordinate fear of pain or scars13. When the body or beard serves as a donor area.Contraindications for FUEContraindications for FUE include:1. Inexperience in performing FUE techniques2. Unavailability of proper instrumentation3. Inadequate and uninformed patient consent4. Unrealistic patient expectations5. Inadequate donor supply6. Scarring that makes both the two- and three-step procedures problematic.ConclusionFUE is an exciting advancement that propels the field of hair transplant surgery one step closer to the elite minimally invasive status. The promise of an almost scarless surgery is enticing to both patient and surgeon. For the hair restoration doctor who has to perform this tedious technique, there remain many vague issues ranging from ethical representations of patient results to practical realities of surgical indication. Training periods are extensive, risks of less than desirable results are high, and many technical problems have yet to be worked out.FUE clearly has a valuable place in a growing number of hair transplant candidates. Although the techniques have improved, issues of patient selection, donor area healing by secondary intention after large sessions, and imbedded grafts still remain. The reasons for selecting FUE rather than a strip harvest may be the avoidance of a linear scar, the desire for a virtually pain-free recovery period, or simply the idea of having a minimally invasive procedure.Further ReadingBernstein RM, Rassman WR, Seager D, et al 1998 Standardizing the classification and description of follicular unit transplantation and mini-micrografting techniques. Dermatologic Surgery 24:957-963Bernstein RM, Rassman WR, Szaniawski W, Halperin A 1995 Follicular transplantation. International Journal of Aesthetic Restorative Surgery 3:119-132Bernstein RM, Rassman WR 1997 Follicular transplantation: patient evaluation and surgical planning. Dermatologic Surgery 23:771-784Bernstein RM, Rassman WR 1997 The aesthetics of follicular transplantation.Dermatologic Surgery 23:785-799Bernstein RM 1998 A neighbor”s view of the “follicular family unit.” Hair Transplant Forum International 8:23-25Harris JA 2004 Follicular unit extraction: The SAFE System. Hair Transplant Forum International 14:157,163,164Inaba M 1996 Androgenetic alopecia: modern concepts of pathogenesis and treatment. Springer-Verlag, Tokyo pp 238-245Kim JC, Choi YC 1995 Regrowth of grafted human scalp hair after removal of the bulb. Dermatologic Surgery 21:312-313Limmer BL 1994 Elliptical donor stereoscopically assisted micrografting as an approach to further refinement in hair transplantation. Dermatologic Surgery 20:789-793Okuda S 1939 Clinical and experimental studies of transplantation of living hairs. Jon Journal of Dermatologic Urology 46:135-138 [in Japanese]Orentreich N 1959 Autografts in alopecias and other selected dermatological conditions. Annals of the New York Academy of Sciences 83:463-479Rassman WR, Bernstein RM 2002 Follicular unit extraction. Minimally invasive surgery for hair transplantation. Dermatologic Surgery 28:720-728Rassman WR, Carson S 1995 Micrografting in extensive quantities: the ideal hair restoration procedure. Dermatologic Surgery 21:306-311Rassman WR, Bernstein RM 2002 Follicular unit extraction: Minimally invasive surgery for hair transplantation. Dermatologic Surgery 28:720-728Sasagawa M 1930 Hair transplantation. Japanese Journal of Dermatology 30:493 [in Japanese]

Hair loss can be of great concern to both men and women at some time in their lives. This concern mainly centers on fears of looking prematurely old, unattractive to the opposite sex, lack of self-esteem and, without any real justification, of being thought of as lacking virility and of even being regarded as impotent.

Here, we shall briefly outline three types of hair loss conditions of the Alopecia category. Then we shall outline five methods that are commonly used to address these conditions.

Alopecia Areata has clearly apparent bald patches, often round or oval in shape. Alopecia Areata can appear on the head, beard, and other hairy parts of the body. Even if the spots disappear within a year of treatment, it’s common for Alopecia Areata to reoccur again. Alopecia Totalis means total baldness, all the hair on the scalp has disappeared. Alopecia Universalis is the condition where there is a complete loss of hair from all sections of the body. It sometimes occurs as an extension of generalized Alopecia Areata. The whole head and body of an individual becomes bald. Hair disappears from all regions, i.e., pubic, armpits, eyelashes, eyebrows, chest, legs, beard, and other areas.

Here are five methods to treat hair loss, and these exclude hair transplanting which is outside the scope of this article.

1 Laser or low level light therapy has been shown to be beneficial to hair in several studies. Both clinical treatment and hand held laser therapy are available. Also, larger laser models can be bought for use in salons and hair replacement studios.

2 Di-hydro testosterone (DHT) is the major cause of hair loss for both men and women. DHT inhibitor products can either interfere with the conversion of testosterone to DHT or help to block DHT from binding to the hair follicle.

3 In relation to this, hair vitamin products help to aid in growth of hair; either by inhibiting DHT and/or providing the vitamins and minerals that optimizes good quality hair growth.

4 There are only two FDA-approved treatments for hair loss and one of these, Minoxidil, is the only anti-baldness drug approved for women. Originally introduced as a medicine to treat high blood pressure, it was noticed that users began to grow extra hair.

5 Hair and scalp cleansing products can be optimized to give hair and the scalp the nutrients that are needed without adding harmful chemicals like sodium laureth sulfate, cocamide diethanolamine, or alcohols that are present in most shampoos. These harmful chemicals cause these shampoo to strip hair of the essential oils that hair needs. Proper hair and scalp hygiene and nutrition is the first step to healthier, thicker and fuller hair.

In conclusion, early steps can be taken to address hair loss, however it is strongly recommended that plenty of research is done first to ascertain the real cause of the condition, that may be unique to and thus different from individual to individual, before deciding what action to take.

Although many technical advances have been made in the field of surgical hair restoration over the past decade, particularly with the widespread adoption of follicular transplantation, many problems remain. The majority revolve around doctors recommending surgery for patients who are not good candidates.  The most common reasons that patients should not proceed with surgery are that they are too young and that their hair loss pattern is too unpredictable.  Young persons also have expectations that are typically too high – often demanding the density and hairline of a teenager. Many people who are in the early stages of hair loss should simply be treated with medications, rather than being rushed to go under the knife.  And some patients are just not mature enough to make level-headed decisions when their problem is so emotional.In general, the younger the patient, the more cautious the practitioner should be to operate, particularly if the patient has a family history of Norwood Class VII hair loss, or diffuse un-patterned alopecia.  Problems also occur when the doctor fails to adequately evaluate the patient?s donor hair supply and then does not have enough hair to accomplish the patient?s goals. Careful measurement of a patient?s density and other scalp characteristics will allow the surgeon to know exactly how much hair is available for transplantation and enable him/her to design a pattern for the restoration that can be achieved within those constraints.   In all of these situations, spending a little extra time listening to the patient?s concerns, examining the patient more carefully and then recommending a treatment plan that is consistent with what actually can be accomplished, will go a long way towards having satisfied patients.  Unfortunately, scientific advances will improve only the technical aspects of the hair restoration process and will do little to insure that the procedure will be performed with the right planning or on the appropriate patient.     Five-year ViewThe improvement in surgical techniques that have enabled an ever increasing number of grafts to be placed into ever smaller recipient sites had nearly reached its limit and the limitations of the donor supply remain the major constraint for patients getting back a full head of hair.  Despite the great initial enthusiasm of follicular unit extraction, a technique where hair can be harvested directly from the donor scalp (or even the body) without a linear scar, this procedure has added relatively little towards increasing the patient?s total hair supply available for a transplant. The major breakthrough will come when the donor supply can be expanded though cloning.  Although some recent progress had been made in this area (particularly in animal models) the ability to clone human hair is at least 5 to 10 years away.       Key Issues 1. The greatest mistake a doctor can make when treating a patient with hair loss is to perform a hair transplant on a person that is too young, as expectations are generally very high and the pattern of future hair loss unpredictable. 2. Chronic sun exposure over one?s lifetime has a much more significant negative impact on the outcome of the hair transplant than peri-operative sun exposure. 3. A bleeding diathesis, significant enough to impact the surgery, can be generally picked up in the patient?s history; however OTC medications often go unreported (such as non-steroidals) and should be asked for specifically. 4. Depression is possibly the most common psychiatric disorder encountered in patient?s seeking hair transplantation, but it is also a common symptom of those persons experiencing hair loss.  The doctor must differentiate between a reasonable emotional response to balding and a depression that requires psychiatric counseling. 5. In performing a hair transplant, the physician must balance the patient?s present and future needs for hair with the present and future availability of the donor supply.  It is well known that one?s balding pattern progresses over time. What is less appreciated is that the donor zone may change as well.  6. The patient?s donor supply depends upon a number of factors including the physical dimensions of the permanent zone, scalp laxity, donor density, hair characteristics, and most importantly, the degree of miniaturization in the donor area – since this is a window into the future stability of the donor supply. 7. Patients with very loose scalps often heal with widened donor scars.   8. One should never assume that a person?s hair loss is stable. Hair loss tends to progress over time.  Even patients who show a good response to finasteride will eventually lose more hair. 9. The position of the normal adult male hairline is approximately 1.5 cm above the upper brow crease. Avoid placing the newly transplanted hairline at the adolescent position, rather than one appropriate for an adult. 10. A way to avoid having a hair transplant with a look that is too thin is to limit the extent of coverage to the front and mid-scalp until an adequate donor supply and a limited balding pattern can be reasonably assured – an assurance that can only come after the patient ages.  Until that time, it is best to avoid adding coverage to the crown. Introduction Hair Transplantation has been available as a treatment for hair loss for over 40 years. [1]Through a majority of that time, hair transplantation was characterized by the use of plugs, slit grafts, flaps and mini-micro grafts. Although these were the best tools available to physicians at the time, they were incapable of producing consistently natural results.  With the introduction of Follicular Unit Transplantation (FUT) in 1995, doctors were finally able to produce these natural results. [2] But the mere capability to produce them did not necessarily ensure that these natural results would actually be achieved. The FUT procedure presented new challenges to the hair restoration surgeon and only when the procedure was properly planned and perfectly executed, would the patient truly benefit from the power of this new technique.[3]The ability of follicular unit grafts to mimic nature soon produced results that were completely undetectable.  This is the hallmark of Follicular Unit Hair Transplantation. [4] Of equal importance, however, is hair conservation – the one to one correspondence between what is harvested from the donor area and what ultimately grows in the recipient scalp.  Since a finite donor supply is the main constraint in hair transplantation, the preservation of hair is a fundamental aspect of every technique.  However, unlike the older procedures that used large grafts, the delicate follicular units are easily traumatized and very susceptible to desiccation, making follicular unit transplantation procedures, involving thousands of grafts, particularly challenging. [5]       As of this writing, the vast majority of hair transplants performed in the United States use Follicular Unit Transplant techniques.  Due to limited space, this review will focus on only this technique and not on the older procedures.  Nor will it focus on Follicular Unit Extraction, since this technique is still evolving and the ways to avoid the major pitfalls of this procedure are still being worked out and a subject onto itself.  As the title suggests, this paper will focus on the prevention of the various problems encountered in FUT, rather than its treatment – an equally important subject, but one that has already been covered in an extensive review. [6, 7] For those not familiar with Follicular Unit Transplantation, there is a concise review of the topic in the dermatology text Surgery of the Skin [8].  For more detailed information, several hair transplant textbooks have sections devoted to this technique. [9, 10]   The most common types of problems that occur in FUT procedures can be grouped into two broad categories; those involving errors in planning the hair transplant and those caused by errors in surgical technique. Of the two, errors in planning often lead to far more serious consequences for the patient and will be the subject of this paper.    Patient Selection AgeThe single greatest mistake a doctor can make when treating a patient with hair loss is performing a hair transplant on a person that is too young.  Although, there is no specific age that can serve as a cut off (since this will vary from person to person), understanding the problems associated with performing hair restoration in young persons can help the physician in deciding when surgery may be appropriate.  Getting it wrong can literally ruin a young person?s life. When someone is beginning to lose hair in their teens or early 20s, there is a significant chance that he (or she) may become extensively bald later in life and that the donor area may eventually thin and become see-through over time.  Although miniaturization (decreased hair shaft diameter) in the donor area is an early sign that this may occur, and can be picked up using densitometry, these changes may not be apparent when a person is still young.     If a person were to become very bald (become a Norwood Class 6 or a Class 7) then he would often not have enough hair to cover his crown.  A transplanted scalp with a thin or balding crown is a pattern acceptable for an adult, but totally unsuitable for a person in his twenties. [11] In addition, if the donor area were to thin over time, the donor scar might become visible if the hair were worn short – a style that is much more common in people who are young.  ExpectationsThis subject is very closely related to age.  For surgical hair restoration to be successful, expectations must match what can actually be accomplished.  The expectations of a young person are usually to return to the look they had as a teenager; namely to have a broad, flat hairline and to have all of the density they had only a few years before. The problem is that a hair transplant neither creates more hair (and therefore can?t increase overall density) nor prevents further hair loss (so the pattern must be appropriate as the person ages).  But since receded temples and a thin crown is not an acceptable look for a young person, the surgery should best be postponed in a person in whom this is not acceptable. As a person ages, he often becomes more realistic and is happy with what a hair transplant can actually achieve.  And, over time, if a person?s donor area proves to be stable and his hair loss limited, more ambitious goals can be attained.Chronic Sun ExposureAlthough it is common wisdom to avoid sunburns after a hair transplant, in fact, significant chronic sun exposure over one?s lifetime has a much more significant negative impact on the outcome of the hair transplant then peri-operative sun exposure.Actinic damage alters the collagen and elastic fibers so that the grafts are not grasped as securely and the alteration to the vasculature decreases the ability of the recipient tissue to support the transplantation of a large number of grafts.  Even with the very small recipient sites used in follicular unit transplantation, making sites too close can result in a compromised blood supply and result in poor growth.   Another issue is that a hair transplant will cover areas of sun damage and make cancer detection more difficult.  When the actinic related growths are finally treated, the involved sections of the hair transplant will be destroyed.  The best approach in a person with significant sun damage is to first treat the entire scalp aggressively with 5-flurouracil to remove all of the pre-cancerous lesions before hair transplant is contemplated.  One should wait at least 6-12 months after the treatment for the scalp to completely heal, as the tissue will be more friable during this period. Although this treatment can set the surgery back a year or more, it will result in better graft survival and less problems with future skin cancer detection.   Medical Conditions and MedicationsAlthough not necessarily an absolute contraindication to surgery, a number of medical conditions make the follicular unit hair transplant procedure more problematic and need to be taken into account.  Whenever significant medical conditions are present, it is always prudent to obtain medical clearance from the patient?s primary care physician or appropriate specialist.  Because the scalp is quite vascular, and FUT procedures involve a large surgical team, patients that are known to have blood born pathogens, such as HIV and Hepatitis B and C, pose some increased risk to the staff, despite the fact that universal precautions are used.  It is useful if the team is aware of the medical histories of hair transplant patients so that they can proceed with a higher degree of alert when necessary.  In an HIV positive patient, it is important to make certain that the patient?s immune status is adequate, so that the patient does not have a greater risk of infection. In patient?s with Hepatitis, it is important to assess their liver function so that the dosing of medications is appropriate. Patients with diabetes mellitus may be at greater risk of having a peri-operative infection.  In this case the normal aseptic conditions that most hair transplants are performed under might be changed to a modified sterile technique (modified in that it is difficult to prep the scalp).  This should also be considered in patients with cardiac valvular disease, implanted devices and others in whom bacterial seeding might have more severe consequences.  Antibiotic coverage should also be administered in high risk individuals, although it is not needed in routine hair restoration procedures. [12] A bleeding diathesis, significant enough to impact the surgery, can be generally picked up in the patient?s history; however medications often go under the radar and should be asked for specifically.  Patient?s often don?t think to report taking aspirin and this must be asked about as well as other non-steroidal anti-inflammatory medications.  Plavix, in particular can significantly increase bleeding during the procedure.  Alcohol, of course increases bleeding as well. [13]  One should make adjustments in a patient?s anti-coagulant medication in conjunction with his/her cardiologist or regular physician.  As a general rule, one should stop anti-platelet medications one week prior to the hair transplant, but the interval will vary depending upon the specific drug, the size of the procedure, and the importance of the medication to the patient?s health. They can be resumed three days after the procedure. If the anticoagulants cannot be stopped, it may be reasonable to proceed with a smaller session.   Since epinephrine is used in most hair restoration procedures, if a person has a history of arrhythmias or other cardiac disease that could be exacerbated by epinephrine, medical clearance from the patient?s primary care doctor, or cardiologist, should be obtained.  Epinephrine can also interact with broad-beta blocking agents such as propranolol, causing a hypertensive crisis; therefore, it is best to have the patient switch to a selective beta-blocker for the surgery. [14] A number of manipulations can be used during the procedure to control bleeding and decrease the need for epinephrine.  Among the most useful, is to scatter the recipient sites broadly over the area to be transplanted (allowing the extrinsic pathway to begin coagulation) and then filling in the areas with additional sites when the bleeding has subsided. [15]  If patients have a history of seizures, it is important that they do not discontinue their medication for the procedure and that medical clearance is obtained.  One should also remember that otherwise normal patients can have a vaso-vagal episode during the procedure; particularly during the administration of the local anesthetic.  This can be avoided by immediately placing the patient in Trendelenberg as soon as the patient complains of nausea or begins to sweat, or look pale.  A patient should be monitored with a pulse oximiter if a significant amount of sedatives or other respiratory depressants are used. The patient should be monitored closely to be sure that local anesthetics are administered in safe amounts and that the warning signs of lidocaine overdose are well known to all members of the surgical team. [16]  Finally, it is helpful to have a pre-printed summary of all the medications and their doses commonly used during the procedure. This can be given to the patient?s regular physician when seeking medical clearance. Psychological FactorsHair loss can take a psychological toll on a person?s self-esteem and cause considerable emotional distress.  When a person has underlying psychiatric issues, the impact can be more severe and, therefore, management of hair loss considerably more difficult.  It is important to identify these problems as well as other psychological factors that may play a role in a patient?s ability to clearly understand both the hair restoration process and its anticipated outcome. In some cases, counseling can be done in conjunction with hair restoration, but often it should precede treatment, especially when surgery is contemplated.  It is prudent to obtain clearance for surgery from a psychiatrist or clinical psychologist when there is a history of mental illness, or when it is suspected at the time of the consultation.A number of psychiatric conditions are particularly relevant to the successful outcome of a hair transplant.  These include Trichotillomania, Obsessive-Compulsive Disorder (OCD), Body Dysmorphic Syndrome (BDS), and Depression. Trichotillomania is a relatively common condition characterized by the persistent urge to pull out one?s hair.  It most commonly involves scalp hair, but can also involve the eyelashes, facial hair or other body hair.  It often results in bald patches and can be identified by short hairs in the affected area that are not long enough to grasp.  Active trichitollomania on any part of the body is an obvious contraindication to a hair transplant, but if a person has a history of this condition, the doctor should also be cautious and only consider surgery if the therapist is confident that the condition has little chance of recurring.  Obsessive-compulsive disorder (OCD) is a condition characterized by recurrent, intrusive thoughts (obsessions) and related behaviors (compulsions) which attempt to neutralize the anxiety or stress caused by the obsessions.  In consultation, the OCD patient often asks a litany of questions and often asks the next question before listening to the answer to previous one.  OCD patients are extremely difficult to satisfy and even in a very successful hair transplant can focus on a minor imperfection seeming oblivious to the good overall result.   Body dysmorphic disorder (BDD) is a mental disorder that involves a distorted image of one?s body. The person is extremely critical of their physical self, despite the fact there may be no actual defect.  It should be obvious that patients with BDD will not be satisfied with a hair transplant, or other forms of cosmetic procedures, and the condition is best treated by a psychiatrist rather than a surgeon.  Another note of caution is that patients with BDD have a much higher suicide rate than the general population, even greater than patients with depression. [17]    Depression is possibly the most common psychiatric disorder encountered in patient?s seeking hair transplantation, but it is also a common symptom of those experiencing hair loss.  The doctor must differentiate between a reasonable emotional response to balding and a depression that requires psychiatric counseling.  It is important to realize that a hair transplant will be ineffective in curing a medical depression and unfulfilled expectations may lead to a worsening of the condition.References 1. Orentreich N: Autografts in alopecias and other selected dermatological conditions. Annals of the New York Academy of Sciences 83:463-479, 1959. 2. Bernstein RM, Rassman WR, Szaniawski W, Halperin A: Follicular Transplantation. Intl J Aesthetic Restorative Surgery 1995; 3: 119-32. 3. Bernstein RM, Rassman WR: Follicular Transplantation: Patient Evaluation and Surgical Planning. Dermatol Surg 1997; 23: 771-84. 4. Bernstein RM, Rassman WR: The Aesthetics of Follicular Transplantation. Dermatol Surg 1997; 23: 785-99. 5. Gandelman M, et al: Light and electron microscopic analysis of controlled injury to follicular unit grafts. Dermatol Surg 2000; 26(1): 31. 6. Bernstein RM, Rassman WR, Rashid N, Shiell R: The art of repair in surgical hair restoration – Part I: Basic repair strategies. Dermatol Surg 2002; 28(9): 783-94. 7. Bernstein RM, Rassman WR, Rashid N, Shiell R: The art of repair in surgical hair restoration – Part II: The tactics of repair. Dermatol Surg 2002; 28(10): 873-93. 8. Bernstein RM, Follicular Unit Hair Transplantation. In: Robinson JK, Hanke CW, Siegel DM, Sengelmann RD, editors: Surgery of the Skin, Elsevier Mosby, London UK. 2005. 9. Unger WP, Shapiro R. Hair Transplantation. New York: Marcel Dekker, Inc. 2004. 10. Bernstein RM, Rassman, WR. Follicular Unit Transplantation. In: Haber RS, Stough DB, editors: Hair Transplantation, Chapter 12. Elsevier Saunders, 2006: 91-97. 11. Norwood OT. Male pattern baldness: classification and incidence. So. Med. J 1975; 68:1359-1365. 12. Haas AF, Grekin RC: Antibiotic prophylaxis in dermatologic surgery. J Am Acad Dermatol 1995; 32: 155-76. 13. Otley CC. Perioperative evaluation and management in dermatologic surgery. J Am Acad Dermatol 2006; 54: 119-27. 14. Gandelman M, Bellio R, Barretto M: Beta-blockers and local anesthetics with vasoconstrictors: A dangerous association. Intl J Aesthetic Restorative Surgery 1995; 3 (2): 143-45. 15. Bernstein RM, Rassman WR: Limiting epinephrine in large hair transplant sessions. Hair Transplant Forum International 2000; 10(2): 39-42. 16. Skidmore RA, Patterson JD, Tomsick, RS: Local anesthetics. Dermatol Surg 1996; 22:511-522. 17. Phillips KA, Menard W: Suicidality in body dysmorphic disorder: A prospective study.  Am J Psychiatry, 2006; 163:1280-82.  18. Bernstein RM, Rassman WR. The scalp laxity paradox. Hair Transplant Forum International 2002; 12(1): 9-10.