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Plant extracts can help prevent hair loss and promote hair growth.

CaBP1 and CaBP2 are necessary for proper hearing and neurotransmission in the ear's inner hair cells.

CaBP1 and 2 are important for maintaining the activity of calcium channels necessary for hearing in inner ear cells.

Tiny particles from stem cells can help protect ear cells from antibiotic damage by helping cells remove damaged parts.

The mTurq2-Col4a1 mouse model shows how the basement membrane develops in live mammals.

Scientists created cell lines from balding patients and found that cells from the front of the scalp are more affected by hormones that cause hair loss than those from the back.

There are effective treatments available for baldness.

The human scalp hair bulb contains different types of melanocytes with varying abilities to produce melanin.

Human skin xenografting could improve our understanding of skin development, renewal, and healing.

New treatments for hair loss should target eight main causes and use specific plant compounds and peptides for better results.

Thermal spring waters and their microbes could be good for skin health and treating some skin conditions in skincare products.

New method efficiently isolates hair growth cells from newborn mouse skin.

The ABCA4 gene protects hair follicle stem cells from toxic vitamin A byproducts.

Treg cell-based therapies might help treat hair loss from alopecia areata, but more research is needed to confirm safety and effectiveness.

Too much male hormone in mothers can negatively affect the sexual behavior of both male and female baby mice.

Scientists are still unsure what triggers the immune system to attack hair follicles in Alopecia areata.

Lhx2 is a crucial regulator of the Sonic Hedgehog signaling in early mouse retinal development.

The research found a way to grow plant tissue and analyze compounds in Bituminaria bituminosa, which is promising for hair restoration treatments.

New tools show that in fish, NPY increases feeding and somatostatin decreases it.

ILC1-like cells can independently cause alopecia areata by affecting hair follicles.

miR-29a-5p prevents the formation of early hair structures by targeting a gene important for hair growth and is regulated by a complex network involving lncRNA627.1.

PRP helps skin regeneration but needs standardized testing for consistent results.

Minoxidil increases cell layer permeability by reducing tight junction proteins and raising ROS levels.

New findings suggest certain genes and microRNAs are crucial for wound healing, and innovative technologies like smart bandages and apps show promise in improving treatment.

Activin A and follistatin control when ear hair cells form in mice.

Activin A promotes ear hair cell development, while follistatin delays it.

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

PRP treatment reduces inflammation and increases interleukin-10 in alopecia areata patients.

Using enzymes to break down scalp hair follicles gets more stem cells for skin and hair growth than the old method.

A new method allows for controlled, long-lasting delivery of retinoic acid through the skin with less inflammation.