Search

everythinglearnresearchcommunity

for

Search:↓

Natural remedies like onion juice and pumpkin seeds are discussed for hair loss. Minoxidil, finasteride, and RU58841 are also mentioned as treatments.

Scalp biopsies are crucial for diagnosing hair loss conditions like Diffuse Unpatterned Alopecia (DUPA) and retrograde hair loss, as treatments like finasteride and dutasteride may not be effective if other conditions are present. Combining PPAR-GAMMA agonists with retinoids could improve treatments for conditions like Lichen Planopilaris.

Evidence-based treatments for androgenic alopecia, such as minoxidil, finasteride, low-level laser light therapy, dutasteride, platelet-rich plasma, and topical ketoconazole. It discusses the efficacy, safety, and mechanism of action of these treatments, as well as future developments in understanding this polygenic condition.

Finasteride is used for hair loss, with mixed reports of no side effects and claims of long-term negative effects known as Post Finasteride Syndrome (PFS). The conversation debates the existence and causes of PFS, with differing opinions on whether it is psychological or real.

Hair loss treatments like Minoxidil, finasteride, and RU58841, focusing on their effectiveness and side effects. It also highlights the disparity in medical research funding between hair loss and conditions like endometriosis.

Creatine may increase DHT levels, potentially causing symptoms like acne, oily hair, and hair shedding. Users report mixed experiences, with some avoiding creatine due to hair loss concerns and others seeing no impact.

The post and conversation are about a user claiming to be 137 years old with a full head of hair. Specific treatments mentioned include dutasteride, RU58841, and minoxidil.

The conversation is about hair loss and the use of minoxidil (Minoxidil) and finasteride (Fin) as treatments. The conclusion is that some users have seen success in maintaining their hair with minoxidil, but there are varying opinions on the effectiveness of the treatments.

Gene editing for hair loss is not yet viable due to technological and economic challenges. Current treatments like Minoxidil, finasteride, and hair transplants remain the most practical options.

A user is exploring VEGF gene therapy to enhance hair transplant results, considering measuring hair shaft diameter and growth rate. Suggestions include using phototrichograms and possibly adding PRP, though its effectiveness is uncertain.

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.

A new hair loss treatment involving Keratin Microsphere Gel is discussed, with skepticism and jokes about its effectiveness and comparisons to other treatments. Users are doubtful and make light of the situation, referencing past disappointments and the study's focus on mice.

TWIST-1 gene's role in hair loss and potential as a treatment target. Inhibiting TWIST-1 may prolong hair growth and reduce hair follicle sensitivity to DHT.

Body hair is more resilient than scalp hair due to different gene expressions and DHT sensitivity. Treatments like minoxidil and finasteride are used for hair loss, but they have varying effects on body and scalp hair.

A 27-year-old male experienced rapid hair loss after dengue fever, which activated a balding gene. The doctor suggested platelet-rich plasma treatment for hair regrowth.

Blocking DHT is not a cure for hair loss; instead, altering how scalp follicles respond to DHT might be more effective. Current treatments like topical finasteride and minoxidil are temporary solutions, and future approaches may involve gene therapy and bioengineering to change follicle behavior.

Developing new hair loss treatments is challenging due to the complexity and cost of trials, and a permanent cure is unlikely soon. Current treatments like Minoxidil and finasteride are used continuously because hair loss is progressive, and future possibilities include gene editing and hair cloning.

Hair cloning is humorously discussed as always being 5-7 years away, with skepticism about its near-term availability. Gene editing to reactivate dormant follicles is suggested as a more likely solution within the next ten years.

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.

The conversation discusses various theories of hair loss, including DHT sensitivity and genetic factors, with the user willing to use themselves for research due to having a hair loss gene but different hair loss patterns compared to their brothers. Specific treatments were not mentioned in the provided text.

Potential treatments for hair loss, including Minoxidil, finasteride, RU58841 and various upcoming pharmaceuticals, gene editing and cloning. It is suggested that a cure, if found, would be highly profitable due to the large number of people affected by hair loss globally.

A Silicon Valley-backed company aims to cure hair loss. Exciting advancements include mRNA therapies, gene editing, hair cloning, AR degraders, anti-androgens, cell-based rejuvenation, and AI-based drug discovery, with hopes for FDA approval of GT20029 within 10 years.

Hair loss is linked to the loss of stem cells in hair follicles, and potential treatments include gene editing and microneedling. Discussions also mention using Minoxidil, finasteride, and dermarolling to improve hair growth.

The conversation discusses CRISPR-on & CRISPR-off as a potential cure for baldness, contrasting it with hair cloning and other treatments like Minoxidil, finasteride, and RU58841. It also mentions the potential of mRNA for gene expression control and the prioritization of gene editing for severe genetic conditions.

A compound called MTP3 from the Monoterpene family was found to be safe and highly effective at treating hair loss by inhibiting the FGF5 gene, but its identity is undisclosed for commercial reasons. No specific treatments like Minoxidil, finasteride, or RU58841 were discussed.

L-arginine may worsen hair loss by potentially increasing testosterone levels, especially in those with a DHT-sensitive gene. Users discuss the effects of increased nitric oxide on hair loss and consider stopping supplements like zinc and l-arginine to see if hair conditions improve.

Blocking DHT is not a complete solution for hair loss; instead, altering the scalp's response to DHT may be more effective. Topical finasteride and minoxidil are current treatments, but future approaches may involve bioengineering, gene therapy, and inflammation control.

The user is treating androgenetic alopecia with finasteride and discovered a folic acid deficiency. They are asking if curing the deficiency can worsen or improve their hair condition.

A 33-year-old man is concerned about potential hair loss, comparing his hairline to his father's and noticing increased shedding and thinning. He is considering treatments like Minoxidil and Finasteride but is unsure if he has male pattern baldness.

Androgenetic alopecia is affected by scalp DHT levels, not sensitivity, with treatments like finasteride and dutasteride aiming to optimize these levels. Personalized DHT management is crucial for effective hair growth.