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Lactate production is important for activating hair growth stem cells.

A new microneedle patch made from hair proteins helps regrow hair faster and better than current treatments.

Hair follicle stem cells use specific chromatin changes to control their growth and differentiation.

Epigenetic changes control how adult stem cells work and can lead to diseases like cancer if they go wrong.

Hair stem cell regeneration is controlled by signals that can explain different hair growth patterns and baldness.

Different types of skin cells have unique genetic markers that affect how likely they are to spread cancer.

Wnt signaling controls whether hair follicle stem cells stay inactive or regenerate hair.

Wnt ligands are crucial for hair growth and repair.

Epidermal stem cells are diverse and vary in activity, playing key roles in skin maintenance and repair.

Hair follicle stem cells are key for hair and skin regeneration, can be reprogrammed, and have potential therapeutic uses, but also carry a risk of cancer.

The document concludes that more research is needed to better understand and treat primary cicatricial alopecias, and suggests a possible reclassification based on molecular pathways.

The Sonic hedgehog pathway is crucial for new hair growth during mouse skin healing.

Aging causes skin stem cells to work less effectively.

Skin aging is due to impaired stem cell mobilization or fewer responsive stem cells.

Different types of stem cells with unique roles exist in blood, skin, and intestines, and this variety is important for tissue repair.

Stem cell therapy, particularly using certain types of cells, shows promise for treating hair loss by stimulating hair growth and development, but more extensive trials are needed to confirm these findings.

Human hair follicle organ culture is a useful model for hair research with potential for studying hair biology and testing treatments.

The telogen phase of hair growth is active and important for preparing hair follicles for regeneration, not just a resting stage.

Cytokeratin 19 and cytokeratin 15 are key markers for monitoring the quality and self-renewing potential of engineered skin.

The document concludes that while significant progress has been made in understanding skin biology and stem cells, more research is needed to fully understand their interactions with their environment.

The article concludes that the wool follicle is a valuable model for studying tissue interactions and has potential for genetic improvements in wool production.

New treatments targeting specific genes show promise for treating keratin disorders.

Hair follicles are hormone-sensitive and involved in growth and other functions, with potential for new treatments, but more research is needed.

Thymosin β4 promotes hair growth by activating stem cells in hair follicles.

The sebaceous gland has more roles than just producing sebum and contributing to acne, and new research could lead to better skin disease treatments.

A WNT10A gene mutation leads to ectodermal dysplasia by disrupting cell growth and differentiation.

Human beard hair medulla contains a unique and complex mix of keratins not found in other human tissues.

Activating the Wnt/β-catenin pathway could lead to new hair loss treatments.

Stem cells from hair follicles can safely treat hair loss.

The skin protects the body and is constantly renewed by stem cells; disruptions can lead to cancer.