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Han Bio claims success in hair multiplication using dermal papilla cells. Treatments discussed include Minoxidil, finasteride, and RU58841.

A user is considering a hair transplant in a "mohawk" pattern with scalp micropigmentation (SMP) on the sides and back, questioning its feasibility and appearance. Others discuss donor region quality, potential scarring, and alternative treatments like dutasteride and RU58841.

SCUBE3 and GT20029 are potential treatments for hair loss, with SCUBE3 stimulating hair growth and GT20029 protecting against DHT. A combined approach using SCUBE3, finasteride or dutasteride, and later GT20029 could provide a comprehensive treatment for androgenetic alopecia.

A user humorously discusses wanting to transplant all their hair into one dense circle on their scalp, leaving the rest of their head bald. Replies include a joke about performing the procedure and a story about someone using their hair to fight crime.

Hair follicle 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.

HairClone is developing cell replacement treatments to rejuvenate and generate hair follicles, and has launched a crowdfunding campaign. A user expressed skepticism about the need for crowdfunding.

A user's father experienced hair regrowth and other health improvements after two IV exosome treatments. The user also had four rounds of exosome therapy, noting significant hair regrowth and relief from headaches, but no change in gray hair.

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.

Dr. Kang-Yell Choi's company, CK Regeon, is developing a drug called KY19382 for hair regeneration, which involves creating fine wounds to activate stem cells. The drug is in the formulation development stage, targeting markets like the US and Korea.

A user plans to experiment with creating new hair follicles 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.

The conversation discusses an interview with Dr. Tsuji about hair follicle stem cell multiplication and the financial challenges of starting human clinical trials. It also mentions the need for funding to secure a patent for a protein that promotes hair growth.

Longitudinal partial follicular unit transplantation involves extracting part of the donor follicular unit, allowing the donor area to be overharvested without noticeable hair loss. The conversation questions if this method is practiced in clinics or if it's theoretical, and whether it relates to hair cloning or multiplication.

Mallia Aesthetics has developed MAL-838, a hormone-free product derived from sCD83, which stimulates hair growth without disrupting the skin microbiome. sCD83 promotes hair growth by activating hair follicles and preventing cell death, offering a localized treatment without systemic side effects.

Hair cloning is being developed by companies like Kangstem Biotech and Stemson, with potential availability in a few years. Initial costs are expected to be high, but prices may decrease over time.

J. Hewitt plans to trial hair multiplication in Japan by the end of 2019. The technique was developed by German researchers at the University of Berlin and formed the company "TissUse."

Stemson Therapeutics will start human trials for hair cloning in late 2025-2026. Product development is complete, and they are preparing for production and clinical trials.

This post and conversation are about the molecular mechanisms triggered by microneedling, specifically its effects on inflammation, tissue remodeling, epithelial proliferation, differentiation, and collagen synthesis. The discussion highlights the potential benefits of microneedling for hair loss treatment.

TGF-B affects hair growth, both causing stem cell division and death depending on amounts. Amplifica's treatment injects Scube3 to increase TGF-B for hair growth.

HairClone aims to rejuvenate miniaturizing hair follicles through follicle banking and cell expansion, with treatments potentially available in the UK by 2022. The process involves extracting, storing, and cloning hair follicles, but full regenerative treatments will take many years to develop.

Japanese scientists discovered ABM cells, enabling successful human hair follicle cloning, potentially curing hair loss. The treatment may be available in Japan by 2028, but it will be expensive and require travel.

Keratin microspheres may offer additional mechanisms to combat hair loss compared to minoxidil. The process to create these microspheres is relatively simple and can be done at home with basic equipment.

Dr. Tsuji's stem cell hair multiplication procedure may offer a future solution for hair loss, but it is initially expected to be very expensive, with prices potentially decreasing over time. In the meantime, users discuss using treatments like finasteride, despite side effects, to manage hair loss.

The user experienced new hair growth after switching from oral finasteride to topical RU58841 with minoxidil and undergoing stem cell therapy. They noticed new hairs at the hairline and temples, but are unsure which treatment is responsible.

The discussion is about using ASCEplus HRLB exosomes for hair loss treatment, which combines 10 billion exosomes with growth factors, nutrients, biotin, and copper tripeptide. The treatment is expensive and typically administered via scalp injections, but in Europe, it's done with microneedling.

The conversation discusses promising hair cloning research seeking commercialization partners. Cultured hairs formed with pigment, indicating positive progress.

Transplanting mice skin to humans is not feasible due to immune rejection, but some suggest genetic modification or immune suppression could make it possible. Xenograft hair transplants are discouraged.

PP405, a topical LDH inhibitor, has shown to stimulate hair follicle stem cell proliferation in humans with moderate hair loss. They are advancing to more detailed trials this year.

SCUBE3 is a potential hair loss treatment that people are hopeful about. It may provide a solution without the side effects of finasteride.

A mixture of MSM, kombucha, and black tea was applied topically for hair growth in mice. The conversation suggests skepticism about translating these results to humans.

The conversation is about a user seeking information on a clinical trial by Amplifica - Scube3 for Androgenetic Alopecia (AGA). The user is unsure if it's a formal phase 1 study.