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PTD-DBM is being explored for hair regrowth by targeting CXXC5, with clinical trials expected after pre-clinical studies. Users express anticipation and skepticism about its effectiveness.

A user shared their positive experience with Trichogenics for hair restoration, highlighting their unique zigzag hairline technique and personalized attention. They had 1700 follicles transplanted and praised the natural results.

Recruitment for a verteporfin trial and a separate hair cloning trial using verteporfin and other methods is underway, with locations in Jordan, NYC, Beverly Hills, and Memphis. Dr. Bloxham is conducting the hair cloning trial, and interested participants are encouraged to contact him directly.

Hopeful treatments for hair loss, including Verteporfin, Androgen Receptor Degradation, and SCUBE3. These treatments offer potential solutions to slow or stop the effects of androgens on the scalp.

HMI-115, a newly discovered hair loss treatment that could potentially be effective for those with diffuse thinning and telogen effluvium. It is based on prolactin receptor antagonist signaling and has already undergone Phase I trials in women, with potential commercialization by 2027.

Kintor Pharma finished enrolling and dosing participants in a Phase I trial for a hair loss treatment called AR-PROTAC (GT20029). The effectiveness of another drug, pyrilutamide (KX-826), for hair loss will be clearer after a Phase 2 trial expected to complete in January 2023.

The user is considering another hair transplant or scalp micropigmentation (SMP) for a congenital bald spot, but previous transplants were less effective due to scar tissue. Suggestions include using hair fibers, changing hairstyles, or doing nothing, as the spot is not very noticeable.

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.

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.

A recent discovery in hair cloning identified a previously unknown cell type essential for hair follicle growth, which could potentially make lab-grown hair viable if translated to humans. However, skepticism remains due to past delays and the challenges of replicating results in humans and making the process affordable.

The conversation discusses the potential of a new hair loss treatment, GT20029, which targets androgen receptors in the scalp and is in phase 1 trials in China. Users express hope that this treatment will be more effective than current options like Minoxidil and Finasteride.

High frequency ultrasonography and HR-MRI can help identify hair shedding causes like inflammation and fibrosis. The conversation discusses the potential of using these technologies to evaluate treatments like Verteporfin for hair regeneration.

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.

A user's successful hair transplant, with some people questioning the donor area regrowth, and others speculating that hair fibre may have been used to help fill in areas.

Hair loss may be linked to the TRPS1 gene and protein, not just DHT. Amplifica's AMP-303 targets mesenchymal stem cells and shows promise in treating hair loss, unlike Pelage's PP405.

The user is considering a second hair transplant or scalp micropigmentation to address thinning in the crown area and hide scars from a previous transplant. They have been using finasteride and minoxidil for three years but are concerned about the appearance of their donor area and the effectiveness of scalp micropigmentation.

Pelage is recruiting for phase 2 trials, showing promise for treating bald regions. The discussion highlights its potential effectiveness based on its mechanism of action.

The conversation is about treatments for androgenetic alopecia, focusing on hyperresponders. Treatments include Minoxidil, finasteride, RU58841, leg training, and cold therapy.

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.

A hair restoration case involved injecting four different doses of Verteporfin into the mid scalp and using Scalp MicroPigmentation (SMP) around the extraction areas. Photos were taken and an update will be shared soon.

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.

A user developed AI software to simulate hair transplants on photos, helping people visualize potential results. The tool offers photo-realistic renderings but advises caution regarding exact outcomes due to various factors.

A Phase II clinical trial for TDM-105795 has started recruiting in the US, and it might be a promising treatment for hair loss. Many hair loss drugs, including this one, originate from China.

The conversation introduces a specialized chatbot for ChatGPT Plus users that provides advice on hair loss treatments, drawing from research and community insights. It mentions treatments like RU58841, the "big 4" (likely minoxidil, finasteride, ketoconazole, and tretinoin), dutasteride mesotherapy, topical melatonin, microneedling, and rapamycin.

A user created a free AI-powered hair transplant simulator to help visualize post-transplant results, seeking feedback and offering it as a tool for clinics. Users discussed its usefulness, limitations, and the requirement for email and phone verification to prevent abuse.

The conversation is about the anticipation of results for a hair loss treatment study, specifically for GT20029, with expectations for the results to be released in the first quarter of 2024. No specific treatments were discussed.

Balding scalps have more androgen receptors, leading to increased TGF-beta, which causes blood vessel loss and hair follicle miniaturization. Blocking androgen signaling and TGF-beta may help prevent hair loss.

Lab-grown hair using iPSCs is being explored, but practical applications are limited. Finasteride is suggested as the only current effective treatment.

PTD-DBM therapy for hair loss is being developed by Dr. Kang-Yell Choi, with human testing planned in South Korea. Some clinics in the U.S. offer PTD-DBM/valproic acid therapy, but it hasn't completed trials yet.

A user started working with a leading hair cloning lab to address their hair loss. They have a computer science background and will assist with data science.