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The engineered skin substitute helped grow skin with hair on mice.

Scaffold improves hair growth potential.

The 3D electrospun fibrous sponge is promising for tissue repair and healing diabetic wounds.

Keratin injections can promote hair growth by affecting hair-forming cells and tissue development.

Activating Nrf2 in skin cells speeds up wound healing by increasing the growth of certain stem cells.

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

Tissue stiffness affects hair follicle regeneration, and Twist1 is a key regulator.

Nanofiber structure helps regenerate hair follicles.

New treatments for skin conditions related to the sebaceous gland are being developed based on current research.

Involucrin gene expression is controlled by specific proteins and signaling pathways.

Hydra can help understand human hair follicle microbiomes and develop new skin disease therapies.

3D bioprinting improves wound healing by precisely creating scaffolds with living cells and biomaterials, but faces challenges like resolution and speed.

Electrospun 3D nanofibrous materials show promise for bone regeneration in orthopaedics.

Hair follicle stem cells are controlled by their surrounding environment.

Linalool in personal care products may contribute to hair loss by damaging hair follicle stem cells and triggering harmful immune responses.

Linalool in personal care products may worsen frontal fibrosing alopecia by damaging hair follicle stem cells and triggering harmful immune responses.

The niche environment controls stem cell behavior and plasticity, which is important for tissue health and repair.

Stem cells and their surrounding environment in hair follicles work closely together, affecting hair growth and having implications for cancer and tissue regeneration.

Different types of stem cells exist within individual skin layers, and they can adapt to damage, transplantation, or tumor growth. These cells are regulated by their environment and genetic factors. Tumor growth is driven by expanding, genetically altered cells, not long-lived mutant stem cells. There's evidence of cancer stem cells in skin tumors. Other cells, bacteria, and genetic factors help maintain balance and contribute to disease progression. A method for growing mini organs from single cells has been developed.

Super-enhancers controlled by pioneer factors like SOX9 are crucial for stem cell adaptability and identity.

Different small areas within hair follicles send specific signals that control what type of cells stem cells become.

Two-photon microscopy effectively tracks live stem cell activity in mouse skin with minimal harm and clear images.

New materials help control stem cell growth and specialization for medical applications.

TCDD disrupts skin stem cells, causing skin issues like chloracne.

Lichen Planopilaris and Frontal Fibrosing Alopecia may help us understand hair follicle stem cell disorders and suggest new treatments.

Muscles and nerves that cause goosebumps also help control hair growth.

Gelatin microspheres with stem cells speed up healing in diabetic wounds.

Silk nanofiber hydrogels help stem cells heal wounds faster and improve skin regeneration.

A new ethical skin model using stem cells offers a reliable alternative for dermatological research.

The local environment is crucial for cell development in the tongue.