Clinical Trials Logo

Clinical Trial Summary

Most common forms of hair loss (alopecia) are caused by aberrant hair follicle cycling and changes in hair follicle morphology. However, current treatments for alopecia do not specifically target these processes. Adipose-derived stromal vascular cells (ADSVCs) that can be harvested from fat cells are one of the latest breakthroughs in the aesthetic field. The potential use of stem cell-based therapies for the repair and regeneration of various tissues and organs offers a paradigm shift that may provide alternative therapeutic solutions. This study aimed at the presentation of clinical cases to suggest a therapeutic plan comprised of acquisition of small volume of fat, followed by injection of ADSVCs in the scalp. 20 patients will be recruited for this study (considering the second group). Hair regeneration will be assessed by the pull test, hair quality, and hair density. All patients must show increased significant improvement of the hair quality and density. The obtained results must prove the efficacy and the safety of the treatment and satisfaction of the patient that will confirm the quality of the results.


Clinical Trial Description

Hair loss is one of the most common complaints among all patients consulting a dermatologist and is usually associated with severe psychological disturbances, distress, and symptoms of depression. Most common forms of hair loss (alopecia) are caused by aberrant hair follicle cycling and changes in hair follicle morphology. Cells with stem cell properties have recently been described in many integument appendages including feathers and teeth, but the hair follicle stands out as one of the best model systems for studying adult stem cells. Hair follicles are accessible, well defined in terms of their developmental biology, and their stem cell populations are located in discrete compartments or niches.

There are three phases of hair growth, which every hair follicle undergoes. The first phase is when follicles undergo extremely rapid epithelial cell division and execute exquisitely timed differentiation programs when in the growing (Anagen) phase. The second phase is when follicles growth stops during a certain period, the (Catagen) phase. The third phase is when most follicles regress into structures that resemble immature developing follicles, after which they go into a period of mitotic quiescence, the (Telogen) phase. Stem cells are at the core of all hair dynamic events that includes a new burst of activity and further morphogenetic remodeling as the follicle grows again at the start of a new Anagen phase.

The term "Stem Cell" is given to a cell which has the ability to self-renew as well as to differentiate into defined cellular subtypes. Multipotent stem cells are present in different adult tissues such as bone marrow, dental pulp, adipose tissue, etc. and within the adipose tissue the adipose-derived stromal vascular cells (ADSVCs), which are one of the most promising stem cell population identified since the human adipose tissue is easily obtained in large quantities with little patient discomfort and secretory factors from ADSVCs have been considered as a promising therapy for skin aging. Therefore, the use of autologous ADSVCs can be promising for hair loss. Since the stromal vascular fraction (SVF) is saturated with stem cells among other cells derived from adipose tissue, cells can be called ADSVFC if they are used freshly, or ADSC/ADASC or others terms in cases of primary cells placed in culture having then the adherent feature, resulting in a set of mesenchymal stem cells (MSCs). In fact, contrary to cultured ADSCs, freshly isolated ADSVCs were shown to be highly positive for CD34, and positive for CD117 and HLA-DR. MSCs derived from adipose tissue when obtained by culture are mostly negative for CD34, and HLA-DR. This indicates clearly that primary cells are significantly more promising in cases of need to maintain a certain level of CD34 in the graft.

In the present study, the investigators aimed to use autologous ADSVCs graft for the treatment of alopecia and to assess the safety and effectiveness of the transplantation. This ADSVCs group will be compared to a group of cultured ADSCs. In fact, the study is divided into 2 groups: ADCVCs and ADSCs, where the first group had been started in 2013 and since 2016, the investigators aimed to add a comparative group by using the cultured ADSCs instead of the primary non-cultured ADSVCs. (Note: the investigators started using grafts of PRP (Platelets Rich Plasma) in 2013 before using isolated adipose-derived cells, where no significant improvement in the hair quality was observed. Then, the investigators aimed to use adipose-derived cells firstly without culture and secondly subjected to culture. The first group was done in collaboration with Reviva Regenerative Medicine Center at the Middle East Institute of Health University Hospital at Bsalim Lebanon. The second group will be realized with a collaborator to be defined by the Lebanese University after approval of the administration and corresponding committee.

The process flow is defined as following: (1) the file study: which start by receiving the file of the patient, the file will be forwarded to appointed physician coordinator for review and submission of medical report (Here Dr. Rami Anderi), then the medical report will be evaluated by the cell therapy committee and the patient will be asked for clinical examination, and after consultation a reply to the patient with medical decision will follow with an approval or not be recruited and if yes, a brief report about the procedure will be submitted and explained in details to the patient, a consent form must be signed if the patient agrees to be included in the study, (2) the patient admission: which may start by completion of the procedure forms and doing the pre-op evaluation (initial work up defined as a clinical and biological assessment upon C.A.S), followed by lipoaspiration of the subcutaneous adipose tissue to be performed by the plastic surgeon, then sample processing for isolation and characterization of the stromal vascular fraction enriched with ADSVCs (the quality control assessment will be realized before and after all the steps of the procedure starting from the SVF collection to transplantation; (3) the delivery (transplantation). The patient will be put on antibiotic/anti-inflammatory for a defined period and followed by the team at 1 week, 3 months, and 6 months. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03427905
Study type Interventional
Source Lebanese University
Contact Nehman A. Makdissy, PhD
Phone 0096171210250
Email almakdissy@hotmail.com
Status Recruiting
Phase N/A
Start date January 27, 2017
Completion date December 30, 2018

See also
  Status Clinical Trial Phase
Active, not recruiting NCT04953416 - Fractional Non-ablative Laser for the Treatment of Hair Loss N/A
Completed NCT01929330 - Bioequivalence Study of Dutasteride Five 0.1 mg and One 0.5 mg Soft Gelatin Capsules in Healthy Male Volunteers Phase 1
Recruiting NCT05213936 - Scalp Cooling for Chemotherapy-Induced Alopecia in Patients of Color N/A
Completed NCT02919735 - Efficacy, Safety and Tolerability of CG428 Cutaneous Solution on Chemotherapy Induced Alopecia; Controlled Study (ELAN) Phase 2
Recruiting NCT02591823 - Hair Fall in Patients on Low Dose Methotrexate N/A
Enrolling by invitation NCT01651689 - Hair Counts From Vertical and Horizontal Sections of Scalp Biopsy SPecimens in Thai Population With Alopecia N/A
Completed NCT01189279 - Safety and Pharmacokinetics Study of New Formulation of Bimatoprost in Patients With Alopecia Phase 1
Recruiting NCT01111981 - Safety and Efficacy of Clobetasol Propionate 0.05% E Foam in Alopecia Phase 4
Terminated NCT01385839 - Efficacy of Hair Transplantation Compared With Hypodermic Needle Irritation in Alopecia Areata N/A
Active, not recruiting NCT03382184 - Fractional Photothermolysis for Hair Follicle Induction Early Phase 1
Not yet recruiting NCT05544448 - In Vitro Effect Study of Interleukin-2 Muteins on Regulatory T Cells of Patients With Different Autoimmune, Allo-immune or Inflammatory Diseases N/A
Completed NCT03689452 - The Effect of Platelet Rich Plasma on Non-scarring Alopecia N/A
Recruiting NCT00801086 - Efficacy Study of Tempol to Prevent Hair Loss From Radiotherapy to the Brain Phase 2
Completed NCT06095739 - Study to Investigate the Effectiveness of a Topical Cosmetic Formulation DA-OTC-002 N/A
Completed NCT05587699 - The Parallel Study to Evaluate the Pharmacokinetics, Pharmacodynamics, and Safety of CKD-843 A Phase 1
Completed NCT03351322 - ENERGI-F701 for Female Hair Loss Treatment Phase 2
Terminated NCT02935569 - Compression Headband Use to Prevent Hair Loss During Whole Brain Radiotherapy N/A
Completed NCT01590238 - Enhancing Hair Density With Platelet Rich Fibrin Matrix (PRFM) Phase 3
Not yet recruiting NCT01557491 - Hair Regrowth After Bicoronal Incision N/A
Completed NCT00515762 - Prevention of Persistent Alopecia Following Docetaxel by Means of Scalp Cooling Phase 2