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Small molecule IM boosts hair growth by changing stem cell metabolism.

3D culture helps maintain hair growth cells better than 2D culture and identifies key genes for potential hair loss treatments.

TGF-β is crucial for tissue repair and can cause diseases if not properly regulated.

TGF-β is crucial for controlling stem cell behavior and changes in its signaling can lead to diseases like cancer.

Smart biomaterials that guide tissue repair are key for future medical treatments.

Cancer can hijack the body's cell repair system to promote tumor growth, and targeting this process may improve cancer treatments.

Regenerative pharmacology, which combines drugs with regenerative medicine, shows promise for repairing damaged body parts and needs more interdisciplinary research.

Proper control of β-catenin activity is crucial for development and preventing diseases like cancer.

Using defensins to activate stem cells may improve skin aging signs without causing inflammation.

Skin cell types develop when specific genes are turned on by removing certain chemical tags from DNA.

JAGGED1 could help regenerate tissues for bone loss and heart damage if delivered correctly.

PCOS may be influenced by factors in the blood, not just the ovaries.

Hair follicle cells help maintain and support stem cells and blood cell formation.

Tiny particles called extracellular vesicles show promise for treating skin conditions and promoting hair growth.

New method efficiently isolates hair growth cells from newborn mouse skin.

Fingerprints form uniquely before birth due to specific genetic pathways and local signals.

The review concludes that innovations in regenerative medicine, tissue engineering, and developmental biology are essential for effective tissue repair and organ transplants.

Stem cells and their exosomes show promise for repairing tissues and healing wounds when delivered effectively, but more research is needed on their tracking and optimal use.

Hox proteins help maintain keratinocyte identity by regulating miRNA expression.

Bioprinting could greatly improve health outcomes but faces challenges like material choice and ensuring long-term survival of printed tissues.

Exosomes may improve skin, scars, hair growth, and fat grafts in plastic surgery, but more research is needed.

Schizophrenia risk genes may affect early brain development, contributing to the disease.

Biomaterials with MSC-derived substances could improve tissue repair and have advantages over direct cell therapy.

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

The document concludes that certain mutations may contribute to the inflammation in hidradenitis suppurativa and suggests that targeting TNFα could be a treatment strategy.

Researchers made stem cells from human hair follicle cells with higher efficiency than from skin cells.

New regenerative treatments for hair loss show promise but need more research for confirmation.

BMP4 helps stem cells turn into pigment-producing cells, affecting hair color and growth.

Organoids help study and treat genetic diseases, offering personalized medicine and therapy testing.

Tiny particles called extracellular vesicles show promise for skin improvement and anti-aging in facial care but face challenges like low production and lack of research.