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Adult esophageal cells can start to become like skin cells, with a key pathway influencing this change.

Researchers created a fully functional, bioengineered skin system with hair from stem cells that successfully integrated when transplanted into mice.

Spheroid culture in agarose dishes improves survival and nerve cell growth in thawed human fat-derived stem cells.

HAP stem cells can repair nerves, grow hair follicle nerves, and become heart muscle cells, making them useful for regenerative medicine.

3D bioprinting in plastic surgery could lead to personalized grafts and fewer complications.

Aging causes hair loss and graying due to stem cell decline and changes in cell behavior and communication.

3D cell-derived matrices improve tissue regeneration and disease modeling.

Researchers improved mouse skin cell culture methods and created a similar immortal cell line, but need to clarify their methods and benefits.

Adding hyaluronic acid helps create larger artificial hair follicles in the lab.

Hair follicle culture helps develop new treatments for hair loss.

Stem cells could improve hair growth and new treatments for baldness are being researched.

Xeno-free three-dimensional stem cell masses are safe and effective for improving blood flow and tissue repair in limb ischemia.

Stem cells, especially from fat tissue and Wharton's jelly, can potentially regenerate hair follicles and treat hair loss, but more research is needed to perfect the treatment.

Conditioned media from mesenchymal stem cell cultures could be a more effective alternative for regenerative therapies, but more research is needed.

Researchers created a long-lasting mouse skin cell strain that may help with hair growth research and treatments.

Ginsenoside Rg4 from ginseng may help hair growth by activating certain cell signals.

Stem cells from hair follicles in a special gel show strong potential for bone regeneration.

Gellan gum hydrogels help recreate the environment needed for hair growth cell function.

A peptide called DPS-1 helps human scalp cells grow and stimulates hair growth in mice.

Human cells in plasma-derived gels can potentially mimic hair follicle environments, improving hair regeneration therapies.

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

Houttuynia cordata extract may help hair grow by improving cell survival and increasing cell growth.

Rat hair-follicle stem cells can become heart cells with specific supplements.

Polygonum multiflorum extract helps hair grow longer and fights the effects of hormones that cause hair loss.

Removing a methyl group from the ITGAV gene speeds up bone formation in a specific type of bone disease model.

The study created a new model to better understand human hair growth and health.

Human dermal stem cells can become functional skin pigment cells.

HIF-1α is important for hair growth and could be a treatment target for hair loss.

CTHRC1 helps hair grow back, and plantar dermis mixture boosts it.

Skin organoids from stem cells could better mimic real skin but face challenges.