The conversation discusses hair cloning trials expected to start in 2020-2021 and mentions concerns about potential delays due to the Coronavirus. Treatments like Minoxidil, finasteride, and RU58841 are referenced.
Dr. Tsuji and Riken announced a hair cloning cure with a 98.9% success rate, expected to be released in 10 years. Users expressed hope and skepticism about the affordability and timeline of the treatment.
Scientists have grown natural-looking hair from stem cells, potentially revolutionizing hair growth treatments. Concerns include cost, DHT resistance, and the need for future procedures.
Scientists have successfully grown functional hairfollicles in the lab, marking a significant advancement in hair regeneration research. A user shared their personal experience with hair loss treatments, including Minoxidil and Finasteride, and plans to share a detailed protocol for hair restoration.
Chinese researchers have successfully created hairfollicles in vitro, potentially offering unlimited hair for transplantation and a cure for hair loss. They plan to test these follicles in vivo on human scalps.
A breakthrough in hairfollicle cultivation using induced pluripotent stem cells (iPSCs) has been achieved, producing large hairfollicles suitable for transplantation. Clinical trials for this hair multiplication technology are planned in partnership with Yinguan Biotechnology.
Exploring the idea of transplanting miniaturized hairfollicles to healthier areas to potentially reverse hair loss, with concerns about DHT sensitivity and scar tissue formation. The conversation also humorously considers using mice for hair growth experiments.
A user plans to experiment with creating new hairfollicles using methods like derma rolling, applying lithium chloride, tannic acid, and various other substances including caffeine, ketoconazole, and raspberry ketones. They also consider using anti-inflammatories, immunosuppressants, and DHT inhibitors to potentially improve results.
A user proposed genetically engineering scalp stem cells to stop androgen receptors from causing hair loss. Others discussed the feasibility, existing research, and potential issues with this approach, including targeting the correct cells and unintended effects.
A new stem cell method for culturing hairfollicles is being developed as an alternative to Minoxidil, finasteride, and RU58841. There are concerns about its cost and accessibility despite plans for commercialization.
Human pluripotent stem cells have been used to create hair and skin, potentially offering a new solution for baldness. A user also mentioned starting finasteride but experiencing unexpected hair thinning.
Stem-cell hair transplants could potentially create thousands of grafts from a single donor graft, offering a solution for hair loss with DHT-resistant hair. Companies like Stemson Therapeutics and OrganTech are working on this technology, which may become available in the future, possibly reducing the cost and making it widely accessible.
Epibiotech will offer off-the-shelf allogeneic hair multiplication treatment in South Korea, using dermal papilla cells from donors to grow hair in balding areas. This method is cheaper and less invasive than traditional hair transplants.
Hair loss treatments like finasteride, minoxidil, and hair transplants have side effects and limitations. There is hope for future advancements in stem cell therapy and hairfollicle regeneration, though skepticism about their effectiveness and timeline persists.
A new technique developed by scientists in Japan to reverse balding using hairfollicle cell transplants, and the discussion around the effectiveness of this approach compared to other treatments such as Minoxidil, finasteride, RU58841, Replicel, and Hairclone.
Hairfollicle cloning is claimed to be possible but not widely available due to potential safety issues, such as cancer risks. Current treatments like finasteride and dutasteride are not effective for everyone, and there is frustration over limited access to these medications.
Japanese scientists discovered ABM cells, enabling successful human hairfollicle cloning, potentially curing hair loss. The treatment may be available in Japan by 2028, but it will be expensive and require travel.
The conversation discusses potential future hair loss treatments, including SCUBE3, hairfollicle cloning, and GT20029, with mentions of past disappointments like CosmeRNA and hopes for treatments like Verteporfin for infinite donor hair.
Hairfollicle stem cells remain in bald individuals, but progenitor cells do not, raising questions about hair regrowth claims by Pelage. PP405 is discussed as a potential treatment, with skepticism about its effectiveness compared to existing treatments like Minoxidil and Finasteride.
A potential non-invasive topical treatment targeting the WNT Signaling Pathway for hair regeneration is being researched, with positive results on human hairfollicle cells. Current effective treatments for hair loss include Minoxidil, finasteride, and hair transplantation.
Hairfollicle regenerative therapy is being developed, with clinical trials planned in Japan, potentially allowing for hair cloning and eliminating the need for treatments like finasteride. If successful, the treatment could be available in Japan by 2025, but widespread access and affordability may take longer.
Researchers are working on regenerating hairfollicles using stem cells, but a cure for baldness is still years away. Current treatments mentioned include Minoxidil, finasteride, and RU58841.
HairClone aims to rejuvenate miniaturizing hairfollicles through follicle banking and cell expansion, with treatments potentially available in the UK by 2022. The process involves extracting, storing, and cloning hairfollicles, but full regenerative treatments will take many years to develop.
A new hair loss treatment involving Keratin Microsphere Gel is discussed, with skepticism and jokes about its effectiveness and comparisons to other treatments. Users are doubtful and make light of the situation, referencing past disappointments and the study's focus on mice.
Hair regeneration and follicle cloning are considered far from being feasible, with current treatments like finasteride, minoxidil, and hair transplants expected to remain dominant for the next 15-20 years. Some are hopeful that AI advancements might accelerate progress, but many remain skeptical about significant breakthroughs in the near future.
A Silicon Valley-backed company aims to cure hair loss. Exciting advancements include mRNA therapies, gene editing, hair cloning, AR degraders, anti-androgens, cell-based rejuvenation, and AI-based drug discovery, with hopes for FDA approval of GT20029 within 10 years.
The conversation discusses promising hair cloning research seeking commercialization partners. Cultured hairs formed with pigment, indicating positive progress.
A gel of keratin microspheres promotes hairfollicle growth, showing similar effectiveness to minoxidil in mice. The treatment activates hair growth pathways and reduces inflammation, with potential applications in drug delivery for hair-related disorders.
Hair/scalp cloning for unlimited transplants is likely a decade away, with prior transplants not significantly affecting future options. Advances in AI and research in wound-induced hair neogenesis are promising, but infrastructure and technology constraints remain challenges.
Hair cell therapy and follicle cloning are still in experimental stages, with treatments like hair multiplication and regenerative hair therapy being marketed but not yet proven to create unlimited new follicles. There is skepticism about the effectiveness and legitimacy of these treatments, with some considering them scams.