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Human epidermal neural crest stem cells can become bone and skin pigment cells, making them useful for therapies.

The new skin organoid system effectively mimics human skin for studying its functions, injuries, and diseases.

Human hair follicle cells can be used to help heal and replace skin.

Skin spheroids with both outer and inner layers are key for regrowing skin patterns and hair.

Equine hoof progenitor cells can help develop therapies for hoof diseases like laminitis.

The tool iCOUNT helps understand how stem cells divide and affect tissue development and repair.

Skin cells can naturally limit the growth of cancerous changes by balancing cell renewal and differentiation.

Genetically repaired stem cells may treat certain genetic diseases, Th17 cells are key in fighting systemic fungal infections, hair loss in AGA is due to progenitor cell loss, and α-synuclein transfer might contribute to Parkinson's disease progression.

Certain CD8+ T cells attack hair follicles in alopecia areata, suggesting they could be targeted for treatment.

Researchers found stem cells in dog hair follicles using specific markers.

Dauricine may help treat certain brain cancers by reducing cancer cell growth and promoting cell death.

Cells from the upper hair follicle grow more actively, suggesting stem cells may be located there.

Stem cells in cashmere goats are found in hair follicles and have a slow growth rate.

Canine dermal papilla cells and fibroblasts have distinct growth patterns and protein expressions.

The research showed that CRISPR/Cas9 can fix mutations causing a skin disease in stem cells, which then improved skin grafts in mice, but more work on safety and efficiency is needed.

A fragment of human type XVII collagen shows great potential for skin health and wound healing.

Human dermal stem/progenitor cells can divide and differentiate more than hair follicle dermal papilla cells.

Transplanted bone marrow cells actively move, form clusters, and grow after transplantation.

Basal cell carcinoma mostly starts from cells in the upper skin layers, not hair follicle stem cells.

Ovine dermal papilla cells are promising for hair growth research due to their stable properties and hair-inducing abilities.

Scientists created a functional 3D skin system from stem cells that can be transplanted into wounds.

Bioengineered skin models aging well, useful for studying aging and testing treatments.

The gene therapy showed significant wound healing and was safe for treating severe RDEB.

Stem cells can move to brain injury sites and be tracked, showing promise for treating brain diseases.

Researchers fixed gene mutations causing a skin disease in stem cells, which then improved skin grafts in mice.

Researchers developed a 3D skin model with its own immune and blood vessel cells to better understand skin health and disease.

Scientists created MUSIi010-A, a stem cell line from a balding man's scalp, to study hair loss and develop potential treatments.