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PCAT1 helps hair growth by controlling miR-329/Wnt10b.

XIST RNA helps regenerate hair follicles by targeting miR-424 and activating hedgehog signaling.

Skin stem cells were turned into heart cells using a chemical, suggesting a new way to treat heart attacks.

Alginate spheres help maintain hair growth potential in human cells for hair loss treatment.

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

Using a combination of specific cell cycle regulators is better for safely keeping hair root cells alive indefinitely compared to cancer-related methods.

Dermal papilla microtissues could be useful for initial hair growth drug testing.

Hair follicle pores help cell survival and growth, even after radiation.

Human stem cells were turned into cells similar to those that help grow hair and showed potential for hair follicle formation.

Avicennia Marina extract and avicequinone C can reduce hair loss hormone production and increase hair growth factors, suggesting they could be used to treat androgenic alopecia.

Thymosin β4 helps improve skin healing and reduce scarring.

The document concludes that understanding how adult stem and progenitor cells move is crucial for tissue repair and developing cell therapies.

Platelet-rich plasma may help hair follicle cells grow by affecting certain genes and pathways.

The flutamide-loaded hydrogel is a promising, skin-friendly treatment for acne and hair loss, potentially requiring less frequent application.

PHBV nanofiber matrices help wounds heal faster when used with hair follicle cells.

3D scaffolds mimicking the extracellular matrix are crucial for effective hair follicle regeneration.

Negative pressure therapy increases hair growth in mice.

A new method using a microfluidic device can prepare hair follicle germs efficiently for potential use in hair loss treatments.

Artificial skin development has challenges, but new materials and understanding cell behavior could improve tissue repair. Also, certain growth factors and hydrogel technology show promise for advanced skin replacement therapies.

The nanofibers with two growth factors improved wound healing by supporting structure, preventing infection, and aiding tissue growth.

Fat tissue cells are a promising option for healing various diseases, but more research is needed to ensure they are safe and effective.

Exosomes show promise for tissue repair and regeneration with advantages over traditional cell therapies.

Epithelial stem cells are crucial for tissue renewal and repair, and understanding them could improve treatments for damage and cancer.

Exosomes could potentially enhance tissue repair and regeneration with lower rejection risk and easier production than live cell therapies.

The hydrogel speeds up skin wound healing and helps regenerate tissue.

Blocking the Wnt pathway could lead to new treatments for cancer and tissue repair but requires careful development to avoid side effects.

Using a patient's own tissue for micro-grafts may effectively treat non-healing leg ulcers and relieve pain.

Stem cells help repair tissue mainly by releasing beneficial substances, not by replacing damaged cells.

The book explains the science of tissue repair and regeneration, its medical uses, challenges, and ethical concerns.

Conditioned media from mesenchymal stem cells show promise for tissue repair and disease treatment, but more research is needed on their safety and effectiveness.