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Blocking the Wnt/β‐catenin pathway can speed up wound healing, reduce scarring, and improve cartilage repair.

PPAR-γ helps control skin oil glands and inflammation, and its disruption can cause hair loss diseases.

Canine hair follicles have stem cells similar to human hair follicles, useful for studying hair disorders.

The review concluded that keeping the hair-growing ability of human dermal papilla cells is key for hair development and growth.

Ruxolitinib helps protect skin stem cells and keeps skin healthy in mice with skin GVHD.

The review suggests that a special cell-derived treatment shows promise for various skin conditions and hair growth but needs more research for confirmation.

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

Metformin, a diabetes drug, may help prevent and treat various cancers, but more research is needed.

The lentiviral array can monitor and predict gene activity during stem cell differentiation.

The study identified 12 potential biomarkers for hair loss and how they affect hair growth.

Foxp3+ Regulatory T Cells are important for immunity and tolerance, affect hair growth and wound healing, and their dysfunction can contribute to obesity-related diseases and other health issues.

Intermediate filaments are crucial for cell differentiation and stem cell function.

A mix of specific inhibitors and a growth factor helps keep hair growth cells from losing their properties in the lab.

The gel with icariin speeds up wound healing, reduces scarring, and helps hair growth by controlling BMP4 signaling. It also reduces inflammation and improves wound quality in mice, adapts to different wound shapes, and gradually releases icariin to aid healing. It also prevents too much collagen and myofibroblast formation during skin healing.

Epidermal growth factor helps stem cells heal wounds and regenerate hair follicles faster.

Autologous Platelet and Extracellular Vesicle-Rich Plasma (PVRP) has potential in enhancing tissue regeneration and improving hair conditions, but its effectiveness varies due to individual differences.

HSPGs help control stem cell behavior, affecting hair growth and offering a target for hair loss treatments.

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

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

The secretome from mesenchymal stromal cells shows promise for improving facial nerve injury treatment.

Lower levels of certain genes in hair cells improve hair loss treatment outcomes.

Regenerative medicine shows promise for improving hair and skin but needs more research for standard use.

Extracellular vesicles, including exosomes from certain cells, can stimulate hair growth.

Magnetic nanovesicles from stem cells can improve hair growth by staying in the skin longer.

A new hydrogel with micronized amnion helps achieve better, scar-free skin healing.

Faulty LEF1 activation causes faster skin cell differentiation in premature aging syndrome.

Activating the GDNF-GFRα1-RET signaling pathway could potentially promote skin and limb regeneration in humans and could be used to treat hair loss and promote wound healing.

Micrografts are a safe and effective treatment for hair loss in both men and women.

Exosomal miRNAs from stem cells can help improve skin health and delay aging.

Pilose antler extract helps hair grow in mice with a type of hair loss by speeding up the growth phase.