Hair loss treatment should target dermal white adipose tissue (DWAT) to restore hairfollicles. Potential remedies include tocopherol (vitamin E), botox, rosiglitazone, niacin, kojyl cinnamate esters, and ADP355.
PP405 is a potential hair loss treatment that may activate dormant hairfollicles, but there are concerns about its effectiveness, cost, and side effects. Users discuss treatments like minoxidil, finasteride, and RU58841, expressing skepticism about PP405's long-term success and accessibility.
A potential treatment for alopecia involving a protein that calms hairfollicles has shown promise in rats, but skepticism remains about its applicability to humans. Many users express doubt about the timeline for effective hair loss treatments, comparing it to past unfulfilled promises.
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.
PP405 shows promise in activating dormant hairfollicles and increasing hair counts but lacks detailed efficacy data compared to minoxidil and finasteride. Opinions are mixed, with some optimism and skepticism about its effectiveness.
PP405 may induce new hair growth but cannot revive completely dead follicles, and its effectiveness on hairlines is uncertain. It is expected to be available by mid-2028, but users are advised to manage expectations and consider using other treatments like minoxidil and finasteride.
PP405 is a potential hair loss treatment that may reactivate dormant hairfollicles, with Phase 3 trials expected. Some users are cautious, suggesting using finasteride in the meantime, while others are skeptical about PP405's effectiveness.
The user is seeking advice on preserving hairfollicles at Norwood stage 6 or 7 while waiting for new treatments. They are considering using treatments like Minoxidil, finasteride, or RU58841.
Regrowth is more likely if hairfollicles are still alive, regardless of age, but younger individuals often see better results due to early intervention. Treatments like finasteride, minoxidil, and dermarolling can help, but results vary based on individual factors such as the presence of miniaturized hairs and the speed of treatment initiation.
MCL-1 protein may help maintain hairfollicles in the growth phase and prevent miniaturization. There is interest in experimental treatments like exosomes, peptides, or stem cell serums to upregulate MCL-1 for hair loss, especially for those not using minoxidil or finasteride.
Pelage Pharmaceuticals' PP405 aims to treat hair loss by reactivating dormant hairfollicle stem cells, showing promising results in early trials. The company plans to present their findings at the American Academy of Dermatology Annual Meeting in 2026.
PP405 shows promise in regenerating hair by activating dormant follicles. Other treatments like VDPHL01 and Breezula are also advancing, providing new hope for hair loss solutions.
Ultrasound imaging can predict hair shedding and assess hair growth stages by analyzing hairfollicle characteristics. The conversation also discusses using ultrasound for personal hair analysis and mentions the potential use of infrared emission for hair treatment.
Hair growth can be induced without stopping DHT, as seen with Minoxidil. HMI115 may work by promoting follicle growth, not targeting the root cause of hair loss (DHT).
Caffeine may promote hair growth and potentially inhibit 5-α-reductase activity in hairfollicles, but its effectiveness and systemic impact remain unclear. Users discuss using topical caffeine solutions, with some experiencing no side effects compared to finasteride.
PP405 may promote short-term hair growth by pushing follicles into the growth phase, but concerns exist about long-term effects due to lack of rest phases. Users discuss various treatments like finasteride, minoxidil, spironolactone, alfatradiol, and investigational drugs like KX-826 and GT20029 for hair maintenance and regrowth.
PP405 shows promise in stimulating new terminal hair growth by activating dormant follicles, with no systemic adverse effects observed in a short-term trial. However, long-term efficacy remains unproven, and further trials are needed to confirm its potential as a hair loss treatment.
There are no tests to determine genetic follicle sensitivity for hair loss, and conclusions are based on hypothetical or post-balding observations. Finasteride is mentioned as an easy, consistent treatment option compared to natural treatments.
The conversation discusses potential hair loss treatments focusing on stimulating IGF-1 at the follicle level using growth-factor cocktails and engineered peptides, such as Acetyl Tetrapeptide-3, Copper Tripeptide-1, Oligopeptide-20, Thymosin-β4, and Palmitoyl Tetrapeptide-7. It suggests that device-assisted delivery methods like microneedling may enhance effectiveness.
Hair cloning technology is advancing, with clinical trials for improved methods expected by 2028 and 2029, potentially offering a solution for hair loss if donor follicles remain. Organtech's expansion into other biotech areas may secure funding, but the effectiveness of cloning depends on the availability of androgen-resistant donor follicles.
Hair loss treatments like Minoxidil and Finasteride will still be used even if a cure is found. Hair transplants will continue as cloning new hairfollicles will be part of the process.
RepliCel's potential hair loss treatment may cost around $1000 and aims to protect hairfollicles from DHT, possibly reversing some miniaturization. It is not considered a cure and may be most effective in early hair loss stages, with its main advantage over finasteride being the lack of sexual side effects.
PP405 is a promising hair loss treatment that may outperform minoxidil and finasteride by reviving dormant follicles and promoting significant regrowth. Results from ongoing trials are awaited, with a potential market release between 2028-2030.
CRISPR Cas9 could potentially treat baldness by targeting specific genes in hairfollicles without affecting other body functions. There is optimism about its future use, despite ethical concerns and the current reliance on treatments like minoxidil and finasteride.
Beard gains from minoxidil are usually permanent due to facial hairfollicles' lower sensitivity to DHT. Scalp hair requires ongoing DHT suppression with treatments like finasteride, dutasteride, and RU58841 to maintain gains after stopping minoxidil.
UCLA's PP405 shows promise in reactivating dormant hairfollicles for hair loss treatment but is still in clinical trials. Minoxidil and finasteride remain common treatments until PP405 becomes available.
PP405 is not a cure for hair loss but may reactivate dormant hairfollicles, similar to minoxidil. It is unlikely to help with miniaturized or vellus hairs and is still in trial phases, with availability expected around 2030.
Fluridil may decrease the number of androgen receptors in hairfollicles by up to 95%. This suggests a different action mechanism from other non-steroidal antiandrogens like RU58841, indicating they might be used together.
TWIST-1 gene's role in hair loss and potential as a treatment target. Inhibiting TWIST-1 may prolong hair growth and reduce hairfollicle sensitivity to DHT.
The conversation discusses hair loss where only short, thin hairs are being shed after 16 weeks of using dutasteride, with no visible regrowth. One response suggests that shedding short hairs is a positive sign, indicating that the hairfollicles are still active and responding to treatment.