Search

everythinglearnresearchcommunity

for

Search:↓

Considering alternative treatments to hair loss, such as platelet-rich plasma (PRP) and exosome therapy, instead of using medications like minoxidil, finasteride/dutasteride.

The conversation discusses anticipation for CB-03-01, a potential new hair loss treatment that may be more effective and have a cleaner safety profile than finasteride. Users are hopeful but cautious, discussing current treatments like minoxidil, nizoral, and dermarolling, and the possibility of combining them with CB-03-01 for better results.

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.

The user is on Finasteride for hair loss, taking 0.5mg daily, and plans to reduce the dose to 0.25mg while making lifestyle changes to lower prolactin, SHGB, and cortisol. They will retest in 90 days to assess progress and are open to advice.

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.

GT20029 showed significant hair growth and safety in phase II trials, with no adverse sexual events. Users are hopeful but concerned about future costs and systemic effects.

Finasteride increased the user's estrogen levels by 51%, causing concerns about gynecomastia and sleep issues. Despite potential side effects, the user prefers continuing finasteride to prevent hair loss, considering it essential for self-esteem.

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.

The conversation discusses GT20029, a drug in Phase II trials that targets androgen receptors with minimal systemic effects, and TDM-105795, a growth stimulant with a different mechanism than minoxidil that may revive papilla stem cells. Both are potential new treatments for hair loss.

Genetic factors, enzyme activity, and DHT sensitivity affect individual responses to hair loss treatments like finasteride, minoxidil, and dutasteride. Starting treatments early can slow hair loss, but results vary among individuals.

The conversation discusses the importance of Finasteride for hair loss treatment in the EU and encourages individuals to voice their support to the EMA. It highlights the potential influence of public input on regulatory decisions.

A medical student experienced hair loss slowing with Finasteride but developed severe, treatment-resistant insomnia. They tried various medications with little effect, suspecting Post-Finasteride Syndrome, and others suggested the insomnia might be linked to Finasteride's impact on neurosteroids.

Topical finasteride concentrations are likely much higher than necessary for effective follicular DHT suppression, with current standards being 100-1000 times above the theoretical minimum. Lower concentrations (0.001-0.0025%) might still work locally while minimizing systemic exposure.

The user started using 1mg finasteride and Regaine foam post-hair transplant, noticing significant hair growth at three months. They experienced testicular cramps as a side effect but no other issues, and are considering microneedling for further improvement.

Taurine shows potential in combating hair loss caused by chemical stress, especially when combined with other treatments like finasteride. Finasteride demonstrated better stress-reducing effects in the study.

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.

A user with high pre-finasteride estrogen levels is asking if they need to normalize their hormone levels before starting finasteride and whether they should postpone dermarolling until they begin finasteride. The user is 21.5 years old.

A user experienced increased testosterone and estradiol levels after starting finasteride/dutasteride and is asking if these levels will return to normal over time. The conversation focuses on whether these changes are temporary.

The conversation discusses hair loss linked to BDNF-increasing nootropics like Semax and Lions Mane. Suggested topical treatments include capsaicin, beta-glucan, and ginseng to counteract TGF-B activation.

Concerns about CosmeRNA safety mechanisms and potential side effects. Discussion includes comparisons to Fluridil and questions about nanoparticle specificity and siRNA stability.

A user preparing to start finasteride for hair loss wanted to check for any abnormal bloodwork related to hair loss. They shared their blood test results and learned from another user that their doctor prescribed finasteride without any preliminary tests.

The conversation is about a hair loss treatment regimen that does not include finasteride. Specific treatments used are not mentioned.

The user plans to use a "nuclear protocol" for hair improvement, including topical minoxidil 12.5%, topical finasteride 0.1%, and tretinoin 0.05%, with microneedling once a week. They have seen improvements with minoxidil and are seeking opinions on their approach to achieve thicker hair.

A Dutasteride Simulator predicts serum dutasteride, serum DHT, and scalp DHT levels using models from research papers. It simulates various dosing schedules to determine steady-state effects and visualizes outcomes, including hair growth-related scalp DHT suppression.

Prolactin and cortisol are identified as key factors in hair loss, with stress hormones impacting hair shedding. Finasteride and minoxidil are effective treatments, while DHT's role and individual sensitivity are significant factors.

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.

Analyzing data on pyrilutamide, a potential hair loss treatment, as well as the effectiveness of other treatments such as Minoxidil, Finasteride, and RU58841.

A quercetin-encapsulated and polydopamine-integrated nanosystem (PDA@QLipo) shows promise for treating androgenetic alopecia by reshaping the perifollicular microenvironment, outperforming minoxidil in hair regeneration. The nanosystem promotes cell proliferation, hair follicle renewal, and recovery by scavenging reactive oxygen species and enhancing neovascularity.

Hmi115, a prolactin receptor blocker, showed promise for hair growth, but results from Phase 2 trials have not been published. ABS-201, an AI-based analog, is expected to begin trials in December 2025, while commercialization of treatments like PP-405 is anticipated around 2027.

A 43-year-old male with advanced hair loss is experimenting with alternative treatments, including red light therapy, microneedling, scalp massages, an oil mix, and ketoconazole shampoo, after previously experiencing side effects from finasteride and minoxidil. He noticed some minor changes with red light therapy but remains skeptical about significant improvement.