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Macrophages help regrow hair by activating stem cells using AKT/β-catenin and TNF.

Fat cells are important for tissue repair and stem cell support in various body parts.

Vav2 and Vav3 proteins help control skin stem cell numbers and activity in both healthy and cancerous cells.

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

Shi-Bi-Man activates hair follicle stem cells and promotes hair growth by changing lactic acid metabolism and other cellular processes.

A protein called EGFR protects hair follicle stem cells, and when it's disrupted, hair follicles can be damaged, but blocking certain pathways can restore hair growth.

Lymphatic vessels and hair follicles interact and may influence hair growth.

Melatonin helps goat hair stem cells grow and maintain their ability to become different cell types.

Temporary ROS production in cultured human hair follicles promotes growth and stem cell activation.

A new method using stem cell membranes to deliver Minoxidil improved hair growth in mice better than Minoxidil alone.

Enzymes involved in Vitamin A metabolism affect hair growth and type in mice.

Stem cell niches are crucial for regulating stem cell behavior and tissue health, and their decline can impact aging and cancer.

Runx1 affects hair growth, cancer development, and autoimmune diseases in epithelial tissues.

Researchers isolated a new type of stem cell from mouse skin that can renew itself and turn into multiple cell types.

Metabolism plays a key role in determining stem cell fate.

Tiny vesicles from stem cells could be a new treatment for healing wounds.

Stem cell therapy shows promise in improving burn wound healing.

Stem cell therapies show promise for treating various diseases but face challenges in clinical use and require better monitoring techniques.

Combining narrow-band ultraviolet B light and stem cell transplantation helps repigmentation in vitiligo by maintaining calcium balance in mice.

Hair follicle stem cells change states with age, affecting hair growth and aging.

Turning off a specific gene in stem cells speeds up skin healing by helping cells move better.

Stem cells and their secretions could potentially treat stress-induced hair loss, but more human trials are needed.

Stem cells could potentially rebuild missing structures in wounds, improving facial skin replacement techniques.

3D microenvironments in microwells improve hair follicle stem cell behavior and hair regeneration.

Significant progress and collaborations in stem cell research and regenerative medicine were made, including advancements in hair growth, cancer therapies, and treatments for neurological disorders.

Fat-derived stem cell therapies can potentially increase hair growth and thickness in people with hair loss.

Fat-derived stem cell therapies can potentially increase hair growth and thickness in people with hair loss.

The nervous system helps control stem cell behavior and immune responses, affecting tissue repair and maintenance.

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

Substances from fat-derived stem cells can promote hair growth and counteract hormone-related hair loss by activating a key hair growth pathway.