Search

everythinglearnresearchcommunity

for

Search:↓

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.

A case study that suggests verteporfin may be able to help regrow donor hairs after FUE extraction, and the potential implications of this result. Treatments discussed include Minoxidil, Finasteride, and RU58841.

A human trial involving the use of Verteporfin as a treatment for hair loss, which has been ongoing for 119 days with an update on its progress. Treatments such as Minoxidil, Finasteride and RU58841 have also been discussed.

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

Verteporfin is being explored for its potential to improve hair transplant outcomes by reducing scarring and increasing donor hair follicles. There is skepticism about the results, with some claiming misleading presentation of evidence.

Exploring the potential of using verteporfin during hair transplants to minimize scarring and regenerate follicles, as well as discussing a possible standardized protocol for this treatment.

RT1640, a combination of cyclosporin A, minoxidil, and RT175, is discussed as a potential treatment for hair regrowth and repigmentation. The unique formulation aims to enhance hair follicle growth and restore hair pigment without the negative side effects of immunosuppressants.

CRISPR treatments for blood disorders have been approved, leading to discussions about its potential for treating hair loss (AGA). A study showed that editing a gene related to DHT sensitivity could lead to hair regrowth, suggesting CRISPR may eventually be used for AGA, but it's expected to be expensive and not soon available.

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.

Stem cell hair transplants use stem cells from fat tissue to reactivate inactive hair follicles, but results are inconsistent and not widely shared. Traditional treatments like finasteride and minoxidil often show better results.

Verteporfin treatment shows promise for hair regeneration and reducing scar tissue in hair transplants. Some users plan to try verteporfin with hair transplants, and it may also be combined with PRP in future experiments.

A user is considering exosome therapy from Springs Rejuvenation for hair loss after unsuccessful attempts with PRP, adipose injections, and a laser cap. They are intrigued by the therapy's potential and the clinic's guarantee of 30% improved coverage, despite concerns about FDA approval and high-pressure sales tactics.

The use of tropoelastin injections and verteporfin for hair transplant recipients to help regrow donor area hairs, as well as research done on tropoelastin injections restoring elastin in scarred heart tissue and skin. There are discussions about why it is taking so long to get cosmetic mass produced tropoelastin injectables on the market.

User discusses using Verteporfin for hair regrowth after hair transplant. Replies mention successful follicle regrowth in studies and mice, questioning if it can be replicated in humans.

A user shared their experience with DIY PRP scalp injections for hair regrowth, using an EZ Injector and other at-home equipment. Another user reported success with at-home PRP treatments for 1.5 years, noting thicker hair and a stable hairline.

RepliCel has purchased Trichoscience, and they have a video about hair multiplication. The conversation also mentions treatments like Minoxidil, finasteride, and RU58841.

PP405 is a promising molecule that may reactivate dormant hair follicles, potentially offering a new treatment for hair loss. It is in phase 2 trials, with possible availability between 2027 and 2030.

Fatty acid metabolic signaling can activate epithelial stem cells for hair regeneration. Oleic and palmitoleic acids showed the best results, but practical application on humans remains uncertain.

PP405, developed by Pelage Pharmaceuticals, can reactivate dormant hair follicle stem cells and increase hair growth by 20% in eight weeks, unlike minoxidil or finasteride. However, skepticism remains about its effectiveness and availability, with concerns about funding and the timeline for broader access.

miR-205, a tiny RNA, can stimulate hair growth by softening aging hair follicle stem cells in mice. Future tests aim to see if this can work in humans.

Dr. Muñoz's discovery suggests that targeting potassium channels in fibroblasts could reactivate hair growth, offering new treatment possibilities for alopecia. Potential strategies include using minoxidil, diazoxide, and other potassium channel openers, as well as bioelectric devices and direct growth factor applications.

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.

PRP treatments have been effective for the user, with a new recommendation of using a high-quality plasma kit once a year. The user seeks experiences with this specific PRP approach.

Shiseido's S-DSC hair regenerative treatment in Japan focuses on improving existing hair by thickening miniaturized follicles, not creating new ones. There is limited patient feedback and long-term data available.

Exploring different treatments for hair loss, such as cosmeRNA and HMI-115 which are small interference messenger RNA that inhibits the DHT receptor and an antibody that binds to the prolactin (PRL) receptor respectively; and researching mechanism and environment of hyperresponders.

PP405 cannot restore extracted hair follicles after a transplant as they are removed, not dormant. Combining verteporphin with wounding and PP405 is suggested but not confirmed effective.

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.

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.

Scientists have successfully grown functional hair follicles 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.

The conversation discusses concerns that Anagenic's version of GT20029 might not be as effective or safe as Kintor's, with comparisons to issues faced by pyrilutamide. The chemical structure of the drug has been published.