The present invention relates to a cell-free conditioned medium comprising beneficial stem cell factors secreted by human stem cells and a process for preparation thereof.
Further, the present invention relates to a therapeutic composition comprising a cell-free culture medium conditioned by stem cells or a fraction thereof for therapeutic and cosmetic purposes.
Additionally, the present invention relates to a method for treating dermatological conditions and aiding in hair regeneration by administering the composition of the present invention.
Numerous dermatological conditions, wound healing, age-related skin disorders, psoriasis, eczema, dermatitis, acne, skin irritation, skin rash and dry skin, and other dermatological diseases are common skin ailments and there is an obvious need to treat them effectively. Additionally, there is an increasing demand for people to look their best by reversing skin damage or hair loss. Both conditions may be due to intrinsic factors such as Androgenetic Alopecia (AGA) and Telogen effluvium and extrinsic factors including stress, pollution and toxins. Wound injuries in surgery, accidents, ulcers or burn related traumas are other examples in which there is a need for accelerated wound healing.
Premature baldness and age related hair loss is a common problem with male and female pattern baldness. Many researchers have aimed at resolving hair and dermatological associated problems using various approaches. Medicines today are drug driven, overruled by antibiotics, chemotherapy and other pharmaceutical products. The most common approach with respect to hair regrowth is the application of FDA approved drugs Minoxidil and/or Finasteride, or hair transplant surgery. Although generally well tolerated, these drugs have several well documented side effects viz., allergic reactions, dizziness, diarrhea and nausea and are contra-indicated in certain medical conditions.
Additionally, use of Minoxidil is a lifetime commitment as discontinuing usage regresses hair growth to the original condition. The surgical approach to hair loss is hair transplantation which is invasive and depends on the surgeon’s skill. Multiple sessions may be necessary to affect an aesthetic look. Since this is a surgical procedure it entails absence from work and risks associated with surgeries. For skin rejuvenation, many approaches are well known including use of animal derived collagen, chemical peels, fillers and Botox, however they may cause allergic reactions, facial paralysis or other side effects.
In light of the drawbacks of products meant for treatment of skin and hair conditions, there is a need to have a biocompatible hair and skin care product, thus potentially circumventing adverse health reactions. This would ensure gentle and beneficial skin and hair care which could possibly reverse damage. The medicine of the future will be based on cell based or cell-free therapies, focused on repair and regeneration or reactivation of tissues and organs. Thus, diseased cells can be replaced by healthy differentiated stem cells or alternately can be persuaded to become healthy by paracrine interactions of stem cells.
Stem cell-derived conditioned medium has been addressed to be a promising prospect for regenerative medicine. A review article by J. Pawitan et al published in BioMed Research International, Volume 2014, Article ID 965849, analyses results of different stem cell-derived conditioned media on various diseases. However, standardized methods of production and validation of components of a conditioned medium for therapeutic purposes and for administration in human beings need to be conducted.
Growth factors (GFs) are essentially proteins that synchronize cell growth, differentiation and proliferation under controlled growth environment. Synergistic interactions of multiple growth factors in human scalp or skin control and regulate hair and skin regeneration respectively. GFs have been proven to impact diverse mechanisms of action in skin repair and rejuvenation with many GFs working in a synchronized manner either independently or synergistically. Intrinsic and extrinsic factors of the scalp and skin reduce levels of endogenous GFs as well as the number and functionality of dermal papilla cells or hair follicle progenitors. Supplementing the scalp or skin’s endogenous GFs may enhance natural repair processes and help reverse damage caused by intrinsic and extrinsic factors. Thus a tiny proportion of topically applied GFs penetrating into the dermis can elicit a cell-mediated response leading to desirable and aesthetic outcomes. A synergistic blend of antioxidants, vitamins, amino acids and conditioners with physiologically balanced GFs provides an original and broad paradigm of hair regeneration as well as skin rejuvenation in aesthetic modalities.
R. Moghadasali et al (Experimental and Toxicologic Pathology 65 (2013) 595- 600) have investigated the role of human Mesenchymal stem cells (MSC)-derived conditioned medium in inhibition of nephrotoxicity by renal proximal tubular cells. They suggest identification of a specific set of cytokines and growth factors secreted by the MSC’s that are implicated in the protective mechanism on these cells leading to renal repair in-vivo to provide a novel therapy.
Apart from stem cells, conditioned media derived from the culturing process has tremendous potential for therapeutic and cosmetic applications as mentioned in the featured prior arts. A similar rationale that stem cells used for therapies should avoid animal derived products would also apply to conditioned media derived from stem cell culture. Thus, there is an urgent need, to manufacture a human serum based medium to culture stem cells economically, which is xeno-free and therefore safe from ethical and regulatory perspectives. Hence, the inventor of the present invention has resolved issues of animal based components interfering in cell based or cell-free products.
Therefore, in an attempt to provide a convenient, economically feasible and non-invasive composition having no side-effects to treat dermatological conditions and to aid in hair regeneration, the present inventors have made available a cell-free therapeutic and cosmetic composition comprising a stem cell conditioned medium supplemented with human serum.
In the most preferred aspect, the present invention provides a process for preparing stem cell conditioned medium (CM) for clinical and cosmetic applications comprising;
The process for extracting serum employed for supplementing the culture medium in step (i) of the process for preparing stem cell conditioned medium meant for cultivating mesenchymal stem cells comprises;
Accordingly, the stem cell conditioned medium comprises human Fibroblast growth factor (hFGF), human Granulocyte Colony Stimulating factor (hGCSF), human Hepatocyte growth factor (hHGF), Interleukin 1 receptor agonist (IL-1ra), human vascular endothelial growth factor (hVEGF) and Interleukin-6 (IL-6).
In yet another aspect, the present invention provides a method for treating dermatological or skin ailments, comprising topically applying the composition comprising stem cell conditioned medium onto a portion of affected human skin to encourage healthy growth or healing.
In one more aspect, the present invention provides a method of aiding in hair regeneration, comprising topically applying the composition containing stem cell conditioned medium onto a portion of affected scalp to encourage healthy growth.
In a further aspect, the present invention provides a cosmetic or therapeutic composition comprising the stem cell conditioned medium for use in treatment of dermatological conditions and in aiding hair regeneration.
Biological material used: Primary cultures of Human Mesenchymal stem cells are derived from human umbilical cord matrix or Wharton’s Jelly. The human umbilical cords are collected from normal or elective caesarian deliveries. Embryonic stem cells can be generated from discarded embryos and cultured using the above method. Induced Pluripotent stem cells can be cultured for personalized regenerative medicine (autologous) and cultured using the above method.
The term “adult stem cells” used herein denotes human mesenchymal stem cells (MSCs) from bone marrow, adipose tissue, umbilical cord blood or umbilical cord matrix, pericytes, endothelial progenitor cells, hematopoietic stem cells, monocytes, macrophages, keratinocytes, fibroblasts, and any other cell type, either alone or in a combination that generate or secrete proteins, growth factors, chemokines, cytokines or regulatory mediators.
The said “adult stem cells” are obtained from a single donor, or maybe pooled from multiple donors. The said cells may be used immediately upon donation or may be used only after being cryopreserved for a period of time.
The term “beneficial stem cell factors” used herein refers to factors that may be secreted from adult stem cells. The term denotes factors that have a desirable or positive effect on all cells of the human body due to paracrine interactions. Beneficial factors are adult stem cell secretory molecules which augment the culture medium so that it becomes conditioned by the stem cells.
The “stem cell factors” are selected from but not limited to exosomes, micro-vesicles, growth factors, regulatory factors, hormones, enzymes, cytokines, chemokines, lymphokines and peptides or combinations thereof.
MSCs, pericytes and endothelial progenitor cells or their mixed populations may be obtained from different tissues in the human body such as bone marrow, fat or adipose tissue, umbilical cord blood, Wharton’s Jelly, placental membranes or amniotic fluid or any other suitable source and from normal or elective caesarian deliveries. Stem cells and progenitor cells may also be sourced from peripheral blood; mobilized or activated peripheral blood, cord blood, menstrual blood or fat tissue, or any tissue in the body that may be an efficient source for stem, progenitor or regenerative cells.
The adult stem cells may also be obtained from an entire umbilical cord without removal of blood vessels or any other tissue and mixed cell populations maybe obtained comprising MSCs, endothelial progenitor cells, fibroblasts and pericytes.
The invention will now be described in detail in connection with certain preferred and optional embodiments, so that various aspects thereof may be more fully understood and appreciated.
In the most preferred embodiment, the present invention provides a process for preparing a stem cell conditioned medium for clinical and cosmetic applications comprising;
The process for extracting serum from fresh frozen plasma (FFP) or cryo-depleted plasma (CDP) has been disclosed by the present inventor in an earlier Indian Patent Application No. 1471/MUM/2014. However, the process for preparation of a stem cell conditioned medium by employing the serum in specific concentrations so as to obtain the secretion of growth factors in specific concentrations is not disclosed.
The process for extracting serum employed for supplementing the culture medium in step (i) of the process for preparing stem cell conditioned medium meant for cultivating mesenchymal stem cells;
In another preferred embodiment, the present invention provides the stem cells cultivated in the culture medium is selected from the group comprising mesenchymal stem cells (MSCs), embryonic stem cells and induced pluripotent stem cells (iPSCs) and/or stem cells derived from pericytes, endothelial progenitor cells, hematopoietic stem cells, progenitor cells, monocytes, macrophages, keratinocytes or fibroblasts.
The present invention provides culturing stem cells in a culture medium, comprising processing the umbilical cord and culturing and cryo-preserving stem cells being completely xeno-free. MSCs used for culturing may also be derived from bone marrow, umbilical cord blood, placental tissues, adipose tissue and amniotic tissues or any other suitable source.
In an embodiment, the present invention provides cultivation of stem cells in a culture medium supplemented with 5% to 30% serum including but not limited to Dulbecco’s modified essential medium (DMEM), alpha MEM, Ham’s F12, DMEM/F12, Minimum Essential Medium (MEM) and keratinocyte medium.
The human serum recovered from human fresh frozen plasma (FFP) or cryo depleted plasma (CDP) can be used as a growth supplement in a culture media including but not limited to Minimum Essential Medium (MEM), Ham’s F12, DMEM/F12 or Minimum Essential Medium (MEM) for culture and cryopreservation of various cell types. For dermatological applications, stem cells are cultured in keratinocyte medium.
The culture medium is devised so as to support the growth and maintenance of stem cells; allow secretion of exosomes, micro-vesicles, growth factors, cytokines, chemokines and soluble beneficial factors from the stem cells into the medium so as to form a stem cell conditioned medium.
In a further embodiment, stem cells in serum supplemented medium are cultured in step (ii) at a temperature ranging from 36°- 37° C. and at 4% - 20% CO2 and at a density of between 3000 to 60000 cells /cm2 for a duration of 24 hrs to 72 hrs.
In one preferred embodiment, the present invention provides a stem cell conditioned medium comprising human Fibroblast growth factor (hFGF) ranging from about 100 to about 1500 pg/ml, human Granulocyte Colony Stimulating factor (hGCSF) can be between 50-1500 pg/ml, human Hepatocyte growth factor (hHGF) can be between 50-3000 pg/ml, Interleukin 1 receptor agonist (IL-1ra) can be between 100-1500 pg/ml, human vascular endothelial growth factor (hVEGF) can be between 10-1000 pg/ml and Interleukin-6 (IL-6) ranging from about 100 to about 2000 pg/ml.
At least two of these growth factors should be present for the desired efficacy along with an in vitro anti-oxidant activity ranging from 25% to 90%. This anti-oxidant activity of the stem cell conditioned medium is estimated using 2,2-diphenyl-1-picryl hydrazyl (DPPH) assay.
In yet another preferred embodiment, the present invention provides a stem cell conditioned medium comprising growth factors selected from the above group consisting of exosomes, micro-vesicles, soluble proteins, cytokines, chemokines, enzymes, hormones, regulatory and anti-inflammatory factors, signaling molecules and growth factors wherein the said conditioned medium comprising at least two metabolites in a concentration ranging from about 50 pg/ml to about 3000 pg/ml.
The conditioned medium is prepared by culturing MSCs in a suitable culture medium for around twenty four hours to approximately three days so as to allow cell secretions to leach into culture medium, to form a physiologically balanced composition of beneficial cytokines, growth factors and proteins.
The resultant stem cell conditioned medium obtained by the present process is a pale yellow aqueous solution with a specific gravity of between 0.99 to 1.2.
In another embodiment, the present inventors have provided the stability of the stem cell conditioned medium for a period up to 2 years when stored at temperatures as less as -20° C. The stability is tested by total protein content, anti-oxidant activity and presence of growth factors.
After harvesting the conditioned medium, the supernatant that is free from cellular matter or debris is subjected to filtering to ensure sterility of the conditioned medium. An aliquot of the conditioned medium obtained from aforesaid method is subjected to sterility testing for bacteria and fungus using Thioglycollate and Saboraud Dextrose Broth (SB) media respectively. The aliquots are also tested for presence of mycoplasma and endotoxin.
In another preferred embodiment, the present invention provides an additional step comprising of filtering or centrifugation to remove whole cells or debris from the conditioned medium in order to obtain a cell-free extract. The process includes harvesting the extract such that removing the extract involves removing the cell culture supernatant resulting in a cell-free extract from cultured cells comprising the harvested conditioned medium. Whole cells and cellular debris are excluded.
In yet another embodiment, the present invention provides removal of supernatant conditioned medium from cumulative passages from single or multiple lots. The extract or supernatant from the culture medium may be from early passages of the adult stem cells or from late passages or cell lines derived from them.
The extract or the supernatant may be taken from the primary passage or from a later passage and either may be used in the skin or hair care formulation. It could also be a cumulative collection of various passages across different cell lots obtained from multiple donors. A preferable approach could be by preparing mixed master cell bank consisting of early passages from minimum 2 to multiple lots across different donors to get uniform end products. Furthermore, incorporating extracts from the conditioned medium into cosmetic or pharmaceutical formulations for skin care, hair care, wound healing or other therapeutic indications, the extract may be used after filtering or centrifugation to remove the cell debris so that the final extract is a cell free product. This extract maybe used in whole, concentrated or fractionated to isolate specific components which may be deemed to be desirable as per the intended application.
The conditions of the present processes maybe modified or optimized by altering Oxygen concentrations or the type of culture for e.g. 3D cultures or hollow fiber bioreactors to alter the secretions of the adult stem cells into the culture media.
The conditioned media maybe further concentrated by methods known to those in the art, for e.g. by centrifugation, protein separation, lyophilization and so on. This customized conditioned media can be formulated into formulations for cosmetic and therapeutic applications.
The conditioned media obtained by the present process is tested by in vitro and in vivo methods for safety and efficacy. The efficacy of the stem cell conditioned medium formulated in a therapeutic composition for the treatment of wound healing in rat showed reduced expression of Interleukin-10 (IL10) due to lower levels of inflammation and infection.
The safety of human Mesenchymal stem cell conditioned medium is indicated by the non-elicitation of any adverse immune reaction when injected or topically applied on wounds. Moreover, the application of the composition obtained by the present process does not elicit any adverse reaction in other mammalian species.
In one more preferred embodiment, the present invention provides a therapeutic composition for hair regeneration and cosmetic applications comprising;
The present invention provides a therapeutic composition comprising a conditioned medium containing beneficial factors selected from the group consisting of exosomes, micro-vesicles, soluble proteins, cytokines, chemokines, enzymes, hormones, regulatory and anti-inflammatory factors, signaling molecules and growth factors.
In another preferred embodiment, the present invention provides a therapeutic composition comprising growth factors/metabolites in a concentration ranging from about 50 pg/ml to about 3000 pg/ml. The growth factors/metabolites may include but not limited to the group consisting of human fibroblast growth factors (hFGF), human hepatocyte growth factors (hHGF), human vascular endothelial growth factors (hVEGF), human Granulocyte Colony Stimulating factor (hGCSF), Interleukin 1 receptor agonist (IL-1ra) and Interleukin-6 (IL-6). Cytokines comprised in the therapeutic composition of the present invention are selected from the group consisting of G-CSF, interleukins and interferons. Protein preferably present is human serum albumin.
More specifically, the stem cell conditioned medium comprises human Fibroblast growth factor (hFGF) in a concentration ranging from 100 to 1500 pg/ml, human Granulocyte Colony Stimulating factor (hGCSF) in a concentration ranging from 50 to 1500 pg/ml, human Hepatocyte growth factor (hHGF) in a concentration ranging from 50 to 3000 pg/ml, Interleukin 1 receptor agonist (IL-1ra) in a concentration ranging from 100 to 1500 pg/ml, human vascular endothelial growth factor (hVEGF) in a concentration ranging from 10 to 1000 pg/ml and Interleukin-6 (IL-6) in a concentration ranging from 100 to 2000 pg/ml.
The present therapeutic and cosmetic composition is formulated as an aqueous formulation, gel, lyophilized preparation, ointments, gels, creams, serums, mask, shampoos, lotions, and intravenous, sub-cutaneous or parenteral formulations. The said topical formulations such as ointments, gels, creams, serums, shampoos, lotions are formulated such that they remain on skin or scalp and involve daily applications. The formulated composition is stable for a period of up to 3 years.
The pharmaceutically acceptable excipient is selected from the group comprising emulsifying agents, antioxidants, buffering agents, solubilizers and solvents. Accordingly, the emulsifying agent used is xanthan gum. The antioxidant is selected from the group consisting of edetate disodium, sodium sulphite, sodium metabisulfite, propyl gallate, edetate trisodium, tocopherol derivatives, butylated hydroxyl toluene, butylated hydroxyl anisole, ascorbic acid, fumaric acid, malic acid, and citric acid. The buffering agents are selected from the group comprising sodium hydroxide, potassium hydroxide, ammonia, hydrochloric acid, acetic acid, lactic acid and citric acid. The solvent/solubilizer is selected from the group consisting of propylene glycol, polyethylene glycol, ethylene glycol, butylene glycol, and hexylene glycol.
In yet another preferred embodiment, the present invention provides the pharmaceutically acceptable excipients selected from the group consisting of;
Accordingly, a topical formulation comprising the conditioned culture medium can be administered as an ointment, skin gel, cream, hair or skin serum, shampoo, conditioner and lotions to lend a conditioning or improving property which positively impacts appearance of skin or hair in a non-invasive manner facilitating ease of convenience. Alternately the formulation maybe administered as sub-cutaneous, dermally, parenterally or suitable mode of delivery for therapeutic or cosmetic applications. The conditioned media can be incorporated into dressings such as gauze, band-aids, collagen, hydrogels or suitable scaffolds for wound healing or other cosmetic purposes. Substantial reduction in area of wound on 24th day of treatment with the present therapeutic composition (
The topical formulation is prepared so as to maintain stability of the stem cell derived factors and also its ability to permeate through skin and not degrade in skin. Moreover, it is formulated so that it achieves desired release rates.
Topical formulations for purposes of regeneration of hair involve cell-free extracts in a shampoo, hair serum, hair mask or conditioner. Accordingly, the said composition can be formulated into a shampoo with one or more pharmaceutically acceptable excipients.
The present formulation can be administered either topically or by infusions to treat diseased tissues, in particular application to the skin or scalp either directly in combination with derma roller, electroporation or energy based or other suitable devices to enable dermal delivery or in a suitable formulation would help support cell turnover. This would aid in skin rejuvenation, in reversal of skin damage and in hair regeneration. The cell free conditioned medium may also be used for wound healing in acute and chronic wounds, either directly or formulated into an appropriate formulation.
Use: The present therapeutic composition may be employed in treatment of numerous dermatological conditions, selected from but not limited to wounds, age-related skin disorders, psoriasis, eczema, dermatitis, acne, skin irritation, skin rash and dry skin. Wound injuries in surgery, accidents, ulcers or burn related traumas are other examples in which there is a need for accelerated wound healing. Additionally, the present composition can be employed for reversing hair loss caused due to intrinsic and extrinsic processes.
The application method may also include a step of formulating the extract into a cosmetic or pharmaceutical formulation to facilitate ease of convenience to apply or to increase the stability or for other reasons, and then applying the complete formulation to the skin or scalp.
In yet another embodiment, the extract may be used in part or whole, as a parenteral or infusion administration to either treat a particular condition such as wound healing, stabilization of bum victims or as an adjuvant for Graft versus host disease (GVHD) or donor transplant cases or for patients recovering from radiation treatment or for anti-inflammatory applications.
In one more embodiment, the present invention provides a method of improving the quality and health of human hair and scalp. This method may further include a step of topical application to human scalp of a stem cell-free extract of a conditioned medium and/or components of cell-free extract. The step of topical application to human hair may involve massaging onto hair either at scalp or onto hair directly.
In one embodiment, the present invention provides a method of treating dermatological or skin ailments, comprising topically applying the composition comprising stem cell conditioned medium onto a portion of affected human skin to encourage healthy growth or healing. The extract maybe directly applied onto the skin, or combined with a dermaroller, electroporation device, energy based or other suitable devices to allow beneficial factors to penetrate and enter the dermis.
In one more embodiment, the present invention provides a method of aiding in the regeneration of hair, comprising topically applying the composition comprising stem cell conditioned medium onto a portion of affected scalp to encourage healthy growth. The extract maybe directly applied on the scalp, or combined with a procedure of using dermaroller, electroporation, energy based or other suitable devices in order to allow the beneficial factors to penetrate and enter the dermis.
Further, the therapeutic composition can be employed as an adjuvant for Graft versus host disease (GVHD), donor transplant cases or for patients recovering from radiation treatment or for anti-inflammatory applications. Other indications treated include cardiac, renal, hepatic, pancreatic, graft versus host disease, neurodegenerative disorders, spinal cord ailments and any other new indication.
Examples: Following examples are given by way of illustration therefore should not be construed to limit the scope of the invention.
The Human plasma or cryo-depleted plasma (AB positive) was collected in a closed system by certified blood banks. Blood bags which tested negative for infectious diseases including but not limited to HIV 1 and 2, HbsAg, HCV (Hepatitis), syphilis (VDRL) and malarial parasites were further transported cold to the laboratory and processed under sterile conditions using aseptic techniques, to recover serum such that it is suitable to support culture of clinical grade quality human Mesenchymal cells (MSCs) which can be used for clinical applications. The serum from pooled AB positive plasma or cryo-depleted plasma (CDP) was recovered and further processed to neutralize viruses, bacteria and mycoplasma as per the method specified by Sprössig, 1976; and Wutzler, 1975. The pooling was from between 5 to multiple donor lots as per the processing capacity and was done to reduce lot to lot variability of a biological component.
(a) Human serum recovered in accordance with Example 1 is used to supplement cell culture media such as DMEM, at 10%. The supplemented culture medium is used to culture Mesenchymal stem cells at a cell density ranging from 3000 to 60000 cells /cm2 in suitable culture vessels which could be 2-D or 3-D. Cells are incubated at 36° C. and 4 to 20% CO2 till 70-90% confluent. The stem cell CM is harvested from 24 hours to 3 days, is pooled over cumulative passages and across different lots, filtered, aliquoted and stored at -20° C.
(b) Serum recovered in accordance with Example 1 is used to supplement cell culture medium DMEM/F12 at a 5%. The supplemented culture medium is used to culture Embryonic stem cells at a cell density ranging from 1000 to 30000 cells /cm2 in suitable culture vessels The cells are incubated at 37° C. and 5% CO2 till 70-90% confluency is obtained. The stem cell conditioned media is further subject to treatment as per the process of Example 2(a).
(c) Human serum recovered in accordance with Example 1 is used to supplement cell culture medium DMEM/F12 at a 7%. The supplemented culture medium is used to culture Pluripotent stem cells at a cell density ranging from 1000 to 30000 cells /cm2 in suitable culture vessels. The cells are incubated at 37° C. and 5% CO2 till 70-90% confluency is obtained. The stem cell conditioned media is further subjected to treatment as per the process of Example 2(a).
Total protein content: Total protein content was between 0.5 to 100 mg/ml Cytokine analysis by ELISA or Multiplexing: The following cytokines were present at the respective concentrations: human Fibroblast growth factor (hFGF) 658 pg/ml, human Granulocyte Colony Stimulating factor (hGCSF) 960 pg/ml, human Hepatocyte growth factor (hHGF) 1175 pg/ml, Interleukin 1 receptor agonist (IL-1ra) 364 pg/ml, human vascular endothelial growth factor (hVEGF) 208 pg/ml and Interleukin-6 (IL-6) 962 pg/ml. At least 2 of these growth factors should be present for the desired efficacy along with an in vitro anti-oxidant activity of between 25-90% using 2,2-diphenyl-1-picryl hydrazyl (DPPH) assay.
Sterility: Negative for aerobic and anerobic bacteria, fungus, mycoplasma and endotoxin pH Between 5.5 to 9.0 pH.
Stable at -20° C. for 2 years, Anti-oxidant activity as estimated by 2,2-diphenyl-1-picrylhydrazyl (DPPH) assay is between 25-90%.
In vivo studies were carried out in an animal model of excisional wound healing where MSC derived conditioned media (CM) was used as treatment group in comparison with normal and sham controls. This study was conducted in compliance with all regulatory and ethical approvals to assess wound healing activity of Human MSC derived conditioned media in laboratory Wistar rat. Healthy young adult Wistar rats were allowed to acclimatize and housed to standard experimental laboratory conditions for a period of 9 days before exposure to the present composition. Animals were randomized and allocated in different groups viz. Normal Control, Sham Control and CM. Each group was comprised of 6 rats per group per dose. The wound site was prepared 1 day prior to infliction of excision wound by clipping fur on dorsal thoracic region of the rat. An area of approximately 500 mm2 dorsal skin was cut open to create a full skin thickness excision wound. The wound was surgically created under injectable anesthesia by ketamine [100 mg/kg, IM] and xylazine [16 mg/kg, IM]. Treatment was administered by sub-cutaneous injection wherein stem cell CM is present in concentration of 100% and in an amount of 1 ml as a single dose.
Rats were observed for mortality and morbidity twice daily. All visible signs and symptoms such as changes in activity, behavioral pattern, change in skin and fur, eyes and mucous membranes, abnormal growth and other general changes were observed and recorded once daily till the end of the experimental period. Body weights of rat were recorded before initiation of dosing and 7th, 14th, and 24th day of the experimental period. Animals were provided with adequate quantity of feed every day. Measurement of wound closure was recorded on 1st, 4th, 8th, 11th and 24th days of experimental period. Blood was collected on days 4, 11 and 24 for serum cytokine analyses. Animals were humanely sacrificed at the end of the experimental period. Gross pathological examination included an examination of the external surface of the body, all orifices, the cranial, thoracic and abdominal cavities and their contents were observed. Biopsies were collected for histopathology analyses. Raw data was processed and analyzed between controls and the treated groups using statistical software such as Graphpad Prism. The results indicated that no gross pathological changes were observed in the experimental treatment group. Cytokine expression revealed that in the treatment group, IL10 (
A pilot study was carried out to evaluate the safety and efficacy of the Conditioned Media (CM) for hair regeneration on human subjects as a proof of concept experimental study. After obtaining the written informed consent, patients were selected, treated and evaluated for improvement in hair loss. The primary objective of this study was to evaluate efficacy of a hair fall control stem cell based topical product along with nutritional supplements in hairloss patients using Clinical grading and macro photographic evaluation.
The secondary objectives of the research study were as follows:
Number of Subjects: A total of 15 subjects screened for the study and 15 subjects enrolled in the study and completed 91 days of study. 1 eligible subject did not follow the protocol schedule.
Procedure: The male and female subjects in the age group of 20-58 years where Men showing Male Pattern Baldness (MPB) grade of II to IV in Hamilton Norwood scale and women showing Female Pattern Hair Loss (FPHL) grade of II to IV on Sinclair scale were enrolled in the study. The primary objective of the experimental therapy was to evaluate the efficacy of a hair fall control stem cell based topical product along with nutritional supplements in hairloss patients using Clinical grading and macro photographic evaluation which were performed on day 0 (baseline), day 35 and day 91. 2 ml of the present therapeutic composition was applied by investigator on the scalp using derma roller at weekly intervals for 3 months and included a total of twelve treatment sessions.
Test Product: Topical Stem Cell based product was applied using derma roller.
Diagnosis and main criteria for inclusion:
Men showing MPB grade of II to IV in Hamilton Norwood scale and women showing FPHL grade of II to IV on Sinclair scale.
Criteria for evaluation: The following parameters were estimated for each of the enrolled study subject.
Efficacy: The primary outcome measures improvements in hair fall control and hair regeneration, using clinical grading and macro photographic evaluation; and scalp condition at 3 months compared to the respective basal reading.
Safety: To monitor and record any adverse events reported during the study.
This report was analyzed based on 15 subjects’ complete data to evaluate the benefits of stem cell based product along with nutritional supplements in the treatment of Hair loss. Age of the evaluated subjects ranged from 20 - 58 years. Subjects underwent Scalp Examination, MPB grade using Hamilton Norwood or Sinclair scale for females, Macro photographic evaluation, Adverse events and Efficacy parameters.
Safety Results: No adverse events related to Investigational Product were reported during the treatment period.
Results: Change in HN/Sinclair scores: 86.6% (
Patient Feedback: After 1 month
NOTE: None of the patients complained about any pain, tenderness, redness and no irritation was experienced.
5-10% of young patients showed improvement in control of greying of hair. Self assessment scores improved after application of stem cell based product in terms of efficacy of treatment and satisfaction.
Conclusion: Stem cell based product caused improvement in hair fall and hair regeneration using clinical grading, macro photographic evaluation and scalp condition.
For the pilot hair study, 2ml of the filtered stem cell conditioned medium was used directly without any modification of the formulation. The topical formulation is an aqueous, pale yellow solution and was stored at -20° C. It was thawed and used immediately for application in hair regeneration over a three month period.
Hair Serum was tested for Freeze thaw and Accelerated stability studies for 7 days and 94 days, respectively. The following observations were noted:
T-TRANSLUCENT, ST-STABLE, S-SMOOTH, F- FLOWING Viscosity at 25° C., Brookefield Viscometer LV, Spindle 64.6 rpm, in centipoises
T-TRANSLUCENT, ST-STABLE, S-SMOOTH, F- FLOWING Viscosity at 25° C., Brookefield Viscometer LV, Spindle 64.6 rpm, in centipoises
From Table 3, it is evident that the formulated hair serum composition is stable for a period of over 3 months. Similar stability observations were also observed for a period of upto 3 years.
Advantages of the invention:
Number | Date | Country | Kind |
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201721005531 | Feb 2017 | IN | national |
Number | Date | Country | |
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Parent | 16486506 | Aug 2019 | US |
Child | 18211311 | US |