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Hair follicles are complex, dynamic mini-organs that help us understand cell growth, death, migration, and differentiation, as well as tissue regeneration and tumor biology.

The skin's layers protect, sense, and regulate the body's internal balance, but can be prone to cancer.

The hedgehog signaling pathway is crucial for hair growth but not for the initial creation of hair follicles.

Stress-related substance P may lead to hair loss and negatively affect hair growth.

Estrogens significantly influence hair growth by interacting with receptors in hair follicles and may help regulate the hair growth cycle.

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

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.

Hair grows faster in the morning and is more vulnerable to damage from radiation due to the internal clock in hair follicle cells.

Too much Smad7 can cause serious changes in skin tissues, including problems with hair growth, thymus shrinkage, and eye development issues.

The document concludes that assessing hair follicle damage due to cyclophosphamide in mice involves analyzing structural changes and suggests a scoring system for standardized evaluation.

Scientists turned mouse stem cells into skin cells that can grow into skin layers and structures.

Mutant CDP/Cux protein causes hair defects and reduced male fertility in mice.

Mutations in the PADI3 gene are linked to a higher risk of scarring hair loss in women of African descent.

The TGF-β family helps control how cells change and move, affecting skin, hair, and organ development.

The conclusion is that recognizing hair growth cycles can improve the precision of dietary and health assessments from hair analysis.

Exosomes from dermal papilla cells help hair growth by making hair follicle stem cells multiply and change.

Overexpressing the mineralocorticoid receptor in mouse skin causes skin thinning, early skin barrier development, eye issues, and hair loss.

Hair follicle stem cells are a promising source for tissue repair and treating skin or hair diseases.

Brain-Derived Neurotrophic Factor (BDNF) slows down hair growth and promotes hair follicle regression.

Improving the environment and cell interactions is key for creating human hair in the lab.

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

Certain DNA variants can predict straight hair in Europeans but are not highly specific.

The document explains hair biology, the causes of hair loss, and reviews various hair loss treatments.

Different hair growth problems are caused by genetic issues or changes in hair growth cycles, and new treatments are being developed.

CIP/KIP proteins help stop cell division and support hair growth.

The conclusion is that better understanding and more research are needed to effectively manage follicular and scarring disorders in skin of color, with an emphasis on patient education and cultural awareness.

Dogs could be good models for studying human hair growth and hair loss.

Blocking Wnt/β-catenin signaling with EGF receptor is necessary for proper hair growth.

Gene network oscillations inside hair stem cells are key for hair growth regulation and could help treat hair loss.

Understanding hair follicle biology and stem cell control could lead to new hair loss treatments.