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Targeting CXXC5 and GSK-3β may help treat male pattern baldness.

Advancements in tissue engineering show promise for hair follicle regeneration to treat hair loss.

Skin has specialized touch receptors that can tell different sensations apart.

Topical treatments can deliver active molecules to skin stem cells, potentially helping treat skin and hair disorders, including skin cancers and hair loss.

Photobiomodulation helps reduce pain, lessen inflammation, heal wounds, and can be used in skin treatments. It also boosts hair growth in women with hair loss and may help fight microbes and prevent respiratory issues in COVID-19.

The FAW-FS algorithm improves depression recognition, and psychological interventions help AGA patients' mental health.

Researchers found markers that can tell if hair has been bleached, which could improve hair test accuracy.

Androgens like testosterone may help treat traumatic brain injury by reducing mitochondrial stress and inflammation.

Neural cell nanovesicles help hair growth by activating key signals.

Melanoblasts migrate to the skin using various pathways, and understanding this process could help with skin disease research.

RF-based therapies might help treat hair loss.

LncRNA MTC boosts growth of goat skin cells, improving cashmere quality.

FLCN helps control iron levels in cells.

Mouse amnion can turn into skin and hair follicles with help from certain cells and factors.

Using dual-frequency ultrasound with microbubbles can potentially improve the delivery of hair growth treatment through the skin and enhance hair growth.

Syntax-based neural networks can match Transformers in handling unseen sentences.

Dental pulp stem cells might not reliably become neurons.

Hair loss in Androgenetic alopecia (AGA) is due to altered cell sensitivity to hormones, not increased hormone levels. Hair growth periods shorten over time, causing hair to become thinner and shorter. This is linked to miscommunication between cell pathways in hair follicles. There's also a change in gene expression related to blood vessels and cell growth in balding hair follicles. The exact molecular causes of AGA are still unclear.

PlncRNA-1 helps hair follicle stem cells grow and develop by controlling a specific cell signaling pathway.

Certain proteins and their receptors are more active during the growth phase of human hair and could be targeted to treat hair disorders.

Human hair follicle cells can be turned into neural stem cell-like cells, which might help treat brain diseases.

Blocking a specific protein signal can make hair grow on mouse nipples.

Gray hair is caused by reduced melanin production or transfer issues, linked to aging and possibly health conditions, with treatments focusing on color camouflage.

Ezh2 controls skin development by balancing signals for dermal and epidermal growth.

Manipulating the catagen and telogen phases of hair growth could lead to treatments for hair disorders.

Hair follicle stem cells can become neural cells using different methods, with varying efficiency.

Jumonji genes are important for development and their mutations can cause abnormalities, especially in the heart and brain.

Skin-derived stem cells can become various cell types, including germ cell-like and oocyte-like cells.

The document concludes that understanding how adult stem and progenitor cells move is crucial for tissue repair and developing cell therapies.

Androgens affect bone and fat cell development differently based on the cells' embryonic origin.