Abstract(Platelet-Rich Plasma in Androgenic Alopecia)
Platelet-rich plasma (PRP) has become a newer method for the treatment of various types of alopecia. In this prospective study, the safety, efficacy, and feasibility of PRP injections in treating androgenic alopecia were assessed. Eleven patients suffering from hair loss due to androgenic alopecia and not responding to 6 months of treatment with minoxidil and finasteride were included in this study. The hair pull test was performed before every treatment session. A total volume of 2-3 cc PRP was injected into the scalp by using an insulin syringe. The treatment was repeated every two weeks, for a total of four times. The outcome was assessed after 3 months by clinical examination, macroscopic photos, hair pull test, and patient’s overall satisfaction.Platelet-Rich Plasma in Androgenic Alopecia
A significant reduction in hair loss was observed between the first and fourth injection. Hair count increased from an average number of 71 hair follicular units to 93 hair follicular units. Therefore, the average mean gain is 22.09 follicular units per cm2. After the fourth session, the pull test was negative in 9 patients.
PRP injection is a simple, cost-effective, and feasible treatment option for androgenic alopecia, with high overall patient satisfaction.
Platelet-Rich Plasma in Androgenic Alopecia
Androgenic alopecia or male pattern baldness is a very common type of hair loss observed in both males and females. Platelet-rich plasma (PRP) is an autologous preparation of platelets in concentrated plasma. Although the optimal PRP platelet concentration is unclear, the current methods by which PRP is prepared to report 300-700% enrichment, with platelet concentrations consequently increasing to more than 1,000,000 platelets/L.
 PRP has attracted attention in several medical fields because of its ability to promote wound healing. Activation of alpha granules of platelets releases numerous proteins, including platelet-derived growth factor (PDGF), transforming growth factor (TGF), vascular endothelial growth factor (VEGF), insulin-like growth factor (IGF), epidermal growth factor (EGF), and interleukin (IL)
 It is hypothesized that growth factors released from platelets may act on stem cells in the bulge area of the follicles, stimulating the development of new follicles and promoting neovascularization.
 Our pilot study aimed to evaluate the safety, efficacy, and feasibility of PRP for the treatment of androgenic alopecia.
MATERIALS AND METHODS
Between August 2013 and November 2013, all patients suffering from androgenic alopecia and on topical minoxidil and finasteride for at least 6 months without much improvement were considered for PRP therapy. Written informed consent was obtained. All included patients were tested by ELISA for HIV, HBS Ag, and platelet count. Exclusion criteria were hematological disorders, thyroid dysfunction, malnutrition, and other dermatological disorders contributing to hair loss. A 1 cm × 1 cm square area was marked over the right parietal area in the mid-pupillary line, 10 cm proximal to the right eyebrow in each patient. Baseline follicular units were manually counted with the help of triclosan in this area by dividing them into four small quadrants.
Before each session, the hair pull test was performed three times by the same clinician. All patients were advised to avoid washing their hair two days before the treatment. A bundle of approximately 50-60 hair was grasped between the thumb, index, and middle finger from the base close to the scalp. The hair was firmly tugged away from the scalp, and the extracted hair was counted in every session. To evaluate overall hair growth, hair volume, hair quality, and fullness, global pictures were taken in every session from the front, vertex, lateral and back view.
PRP was prepared by collecting 20 ccs of fresh blood in sodium citrate containing vacutainers in minor operation theatre under proper aseptic precaution. The tubes were rotated in a centrifugation machine at 1500 revolutions per minute for 6 minutes. The first centrifugation is called “soft spin”, which allows blood separation into three layers, namely bottom RBC layer (55% of total volume), topmost acellular plasma layer called platelet-poor plasma (PPP, 40% of total volume), and an intermediate PRP layer (5% of total volume) called the “buffy coat”. A separate buffy coat with PPP was collected with the help of a Finn pipette in another test tube. This tube underwent second centrifugation, which was longer and faster than the first, called “hard spin”, comprising at 2500 revolutions per minute for 15 minutes. This allows the platelets (PRP) to settle at the bottom of the tube. The upper layer containing PPP was discarded and the lower layer of PRP was loaded in an insulin syringe containing calcium chloride (1 part calcium chloride and 9 parts of PRP) as an activator.
One hour before administration of PRP, anesthetic cream was applied over the bald area. The area of the scalp to be treated was cleaned with cetavlon, spirit, and povidone-iodine. With the help of an insulin syringe, PRP was injected over the affected area by nappage technique (multiple small injections in a linear pattern one cm apart) under proper aseptic precaution in a minor operation theatre. A total volume of 2-3 cc was injected. The treatment was repeated every two weeks for four sessions. At each visit, hair count was noted over the prefixed square area. Subjective improvements of patients were noted on a scale of worst (1) to best (10). We evaluated all the patients at the end of 12 weeks.
Eleven male patients in the age group of 20-40 years were included in the study. According to Hamilton’s classification of male pattern baldness, 4 patients were in grade 2, 4 patients were in grade 3 and 3 patients were in grade 4 androgenic alopecia.
Before treatment, all our patients (100%) had a positive hair pull test with a mean number of 10 hair. After the fourth session, the pull test was negative in 9 patients (81.81%) with an average number of three hairs. A significant reduction in hair loss was observed between the first and fourth injection as noticed by patients. Global pictures also revealed a moderate improvement in hair volume and coverage. Hair count depicted an average number of 71 hair follicular units over the marked area before starting the treatment, and after 4 sessions of PRP, the average number of follicular units was 93.09 follicular units. Therefore, the average mean gain is 22.09 follicular units per cm2. Overall, patient satisfaction was high with a mean result rating of 7.0 on a scale of 1-10.
The side effects after PRP injections were minimal pain, redness at the time of injections, and pinpoint bleeding.
Hair loss has a significant influence on psychological distress and is associated with low self-esteem and depression. Treatment options for androgenic alopecia are very limited and include topical minoxidil and oral finasteride (FDA approved) either alone or in combination. However, there are several reported side effects such as headache and increase in other body hairs for minoxidil whereas loss of libido has been reported with oral finasteride. Finasteride also interferes with genital development in a male fetus and is contraindicated in pregnant women and those likely to become pregnant.
PRP has already attracted attention in plastic surgery, orthopedic surgery, and cardiac surgery because of its potential use in skin rejuvenating effects, rapid healing, reduced infection, decreased chance of hypertrophic keloids, and scars Growth factors are known to activate the proliferative phase and transdifferentiation of hair and stem cells and produce new follicular units. bFGF is reported to promote the in vitro proliferation of papilla cells and thereby plays a key role in elongating hair shaft.
We prepared PRP by double spin method, in which blood cell layers were manually separated. Activation of platelets through coagulation triggers the secretion of various growth factors, which produce mitogenic effects in various cell types. Activated PRP promotes the proliferation of dermal papillary cells and prevents their apoptosis.
In our study, the hair pull test became negative after four sessions of PRP. This finding is comparable with the study conducted by Best et al.This study also observed significant improvement in hair volume and coverage in global pictures, but according to our study, only moderate improvement in hair volume and coverage was observed.
Uebel et al. observed a significant improvement in hair density and stimulation of growth when follicular units were pre-treated with platelet plasma growth factors before their implantation. There was a significant difference in the yield of follicular units on comparing the experimental with the control areas of the scalp. The areas treated with platelet plasma growth factors demonstrated a yield of 18.7 follicular units per cm2 whereas the control areas yielded 16.4 follicular units per cm2, an increase in follicular density of 15.1 percent.
Our study has some limitations. Microscopic hair evaluation could have given more objective results. The sample size is very small. Mean follow-up of patients is also short to conclude the long-term effectiveness of treatment. Thus, further studies are needed with longer follow up and with a large sample size.
CONCLUSION (Platelet-Rich Plasma in Androgenic Alopecia)
PRP injection for androgenic alopecia is a simple, cost-effective, and feasible treatment option for hair loss and can be regarded as a valuable adjuvant treatment modality for androgenic alopecia. Although PRP has a sufficient theoretical scientific basis to support its use in hair restoration, hair restoration using PRP is still in its infancy. Clinical evidence is still weak. Considering its excellent safety profile and relatively low cost, PRP hair treatment is a promising treatment option for patients with thinning hair.
Post source – NCBI
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