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The secretome from mesenchymal stem cells is a promising treatment that may repair tissue and avoid side effects of stem cell transplantation.

Stem cell therapy shows promise in improving burn wound healing.

Procyanidin compounds from grape seeds were found to significantly increase mouse hair growth.

Wnt signaling helps control how brain stem cells divide and is important for brain repair after injury.

Macrophage iron release is crucial for hair growth and wound healing.

Certain cells around hair follicles help improve skin regeneration for potential use in skin grafts.

Researchers created rat liver stem cells that could help repair liver failure in rats and may be useful for studying human liver diseases.

Stem cell niches are adaptable and key for tissue maintenance and repair.

CRAC channels are crucial for the development and function of specialized immune cells, preventing severe inflammation and autoimmune diseases.

Treg dysfunction is linked to various autoimmune skin diseases, and understanding Treg properties is key for new treatments.

Sebaceous glands can heal and regenerate after injury using their own stem cells and help from hair follicle cells.

The Notch signaling pathway helps in mouse hair development through a noncanonical mechanism that does not rely on RBPj or transcription.

The shape of fibrous scaffolds can improve how stem cells help heal skin.

Mouse skin glands need healthy nerves to grow properly during hair growth phases.

Bead-jet printing of stem cells improves muscle and hair regeneration.

Hair follicles repair 3D injuries using a 2D healing process.

Some therapies using stem cells and platelet-rich plasma may help treat osteoarthritis, but more research is needed to ensure they are safe and effective.

The document concludes that while some organisms can regenerate body parts, mammals generally cannot, and cancer progression is complex, involving mutations rather than a strict stem cell hierarchy.

Intravital imaging helps us better understand stem cells in their natural environment and could improve knowledge of organ regeneration and cancer development.

Platelet-based therapies using a patient's own blood show promise for skin and hair regeneration but require more research for confirmation.

A substance from a specific gel helped to grow hair effectively in mice, suggesting it could potentially be used to treat hair loss in humans.

Hair follicle-derived extracellular vesicles may help heal chronic wounds as effectively as those from adipose tissue.

Turning scar-forming cells into fat cells can reduce scarring.

Skin structure complexity and variability are crucial for assessing skin toxicity in safety tests.

The pituitary gland functions normally even after losing most SOX2+ stem cells.

Current therapies cannot fully regenerate adult skin without scars; more research is needed for scar-free healing.

The study found that stem cells and neutrophils are important for regenerating hair follicle structures in mice.

MicroRNAs are important for skin health and could be targets for new skin disorder treatments.

The secretions of mesenchymal stem cells could be used for healing without using the cells themselves.

Human umbilical cord stem cell vesicles may help treat aging and related diseases.