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Radiation therapy damages skin structure and immune function, causing inflammation and potential hair loss.

BMAL1 controls skin cell growth and UV damage risk, peaking at night.

Botulinum Neurotoxin-A can treat acne, oily skin, rosacea, hair loss, prevent scars, relieve nerve pain, reduce excessive sweating, and manage psoriasis, but more trials are needed to confirm its effectiveness.

Wnt4 protein makes the outer skin layer thicker in burn wounds by turning on a specific healing pathway and loosening the connections between skin cells.

Recent findings suggest that genetic factors, immune system issues, and skin cell defects might contribute to the development of hidradenitis suppurativa.

Non-surgical treatments like thread lifts, PRP therapy, HIFU, and radiofrequency effectively rejuvenate and tighten facial skin.

Wound healing can help prevent hair loss from chemotherapy in young rats by increasing interleukin-1β signaling.

The conclusion is that accurately replicating the complexity of the extracellular matrix in the lab is crucial for creating realistic human tissue models.

New treatment using engineered nanovesicles in hydrogel improves hair growth by repairing hair follicle cells in a mouse model of hair loss.

Runx1 affects hair growth, cancer development, and autoimmune diseases in epithelial tissues.

Hair growth and health are influenced by factors like age, environment, and nutrition, and are controlled by various molecular pathways. Red light can promote hair growth, and understanding these processes can help treat hair-related diseases.

iPSCs show promise for hair regeneration but need more research to improve reliability and effectiveness.

Different STUB1 gene mutations cause varied symptoms in autosomal recessive ataxias.

Glycerol may improve wound healing and prevent keloids, a device can measure itch intensity, male pattern baldness is highly heritable, and fumaric acid esters may work for psoriasis by causing cell death in T cells.

Treating fat stem cells with low oxygen boosts hair growth cell growth through specific signaling pathways.

Minoxidil affects cell growth in two ways: low doses increase growth, while high doses slow it down and can be toxic.

The research found genes that may protect certain scalp cells from hair loss.

Cells from balding scalps have more androgen receptors than cells from non-balding scalps.

Balding hair follicle cells are smaller, grow less well, and need more effort to culture than non-balding cells.

Burn scars heal abnormally and more research is needed to find better treatments.

Understanding gender differences and individual patient characteristics is essential for optimal cosmetic surgery outcomes.

Mutant CDP/Cux protein causes hair defects and reduced male fertility in mice.

Finasteride helps hair growth by decreasing cell death in hair follicles.

Finasteride affects hair growth by changing caspase and XIAP levels, potentially treating hair diseases.

Double-stranded RNA helps regenerate hair follicles by increasing retinoic acid production and signaling.

Understanding phenotypic plasticity is crucial for developing effective cancer therapies.

Mice can regrow hair on wounds due to specific cell interactions and mechanical forces not seen in rats.

Dicer is crucial for hair growth in mice.

Cow blood vessel cell secretions helped heal rat burn wounds and may treat burns and hair loss.

5-alpha reductase deficiency leads to male sexual development issues and treatments like finasteride help with prostate enlargement and hair loss.