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Hair growth phase and certain genes can speed up wound healing, while an inflammatory mediator can slow down new hair growth after a wound. Understanding these factors can improve tissue regeneration during wound healing.

Isoliensinine, a natural compound, prevents stress-related hair greying by blocking a specific receptor on hair cells.

Mesenchymal stem cells could help treat aging-related diseases better than current methods.

Understanding hair growth involves complex factors, and more research is needed to improve treatments for hair loss conditions.

New understanding of the causes of primary cicatricial alopecia has led to better diagnosis and potential new treatments.

Gamma rays did not change hair follicle density but increased white and hypopigmented hairs in mice.

Gamma-rays exposure during the resting phase of hair growth can damage hair regeneration and color in mice.

Gamma-ray exposure can cause long-lasting damage to hair follicles, affecting hair structure and color.

The WNT signaling pathway is important in many diseases and targeting it could offer new treatments.

Regulating cell death in hair follicles can help prevent hair loss and promote hair growth.

Circadian clock genes are important for hair growth and may affect aging-related hair loss and graying.

Brain hormones significantly affect hair color and could potentially be used to prevent or reverse grey hair.

P-cadherin is important for hair growth and health, and its problems can cause hair and skin disorders.

Scientists successfully grew mini hair follicles using human skin cells, which could help treat baldness.

Hair greying is seen as a sign of aging; temporary fixes like hair dye are used, but a balanced diet and hair care can help manage it.

Melanoma's complexity requires personalized treatments due to key genetic mutations and tumor-initiating cells.

The study found new details about human hair growth and suggests that preventing a specific biological pathway could potentially treat hair graying.

Diabetes causes lasting cell dysfunctions, leading to serious complications even after blood sugar is controlled.

Premature graying of hair is common and stressful, but not well understood or treated.

Low ERCC3 gene activity is linked to non-pigmented hair growth.

Using radiation to make mice's hair turn gray helps study and find ways to prevent or reverse hair graying.

Removing Dicer from pigment cells in newborn mice causes early hair graying and changes in cell migration molecules.

A specific group of early-stage melanocytes is reduced in vitiligo-affected skin, which may explain treatment resistance.

Stress can cause hair to turn gray by depleting pigment-producing cells through the release of a stress hormone.

Melanocyte stem cells in hair follicles are key for hair color and could help treat greying and pigment disorders.

Different types of inactive melanocyte stem cells exist with unique characteristics and potential to develop into other cells.

The environment around melanocyte stem cells is key for hair regeneration and color, with certain injuries affecting hair color and potential treatments for pigmentation disorders.

Wnt signaling is crucial for pigmented hair regeneration by controlling stem cell activation and differentiation.

Different types of resting melanocyte stem cells have unique characteristics and vary in their potential to become other cells.

RT1640 treatment reverses gray hair and promotes hair growth in mice.