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Dihydrotestosterone treatment on 2D and 3D-cultured skin cells slows down hair growth by affecting certain genes and could be a potential target for hair loss treatment.

Removing integrin α3β1 from hair stem cells lowers skin tumor growth by affecting CCN2 protein levels.

Growing dermal papilla cells in 3D improves their ability to help form new blood vessels.

Researchers isolated a new type of stem cell from mouse skin that can renew itself and turn into multiple cell types.

Rabbits with Sarcoptes scabiei had thicker skin, cell death, and skin hardening.

Regenerative cosmetics can improve skin and hair by reducing wrinkles, healing wounds, and promoting hair growth.

Blocking the JAK/STAT pathway may help reduce skin sensitivity in Xeroderma pigmentosum.

Stem cell-derived organoids can improve skin healing.

The model helps improve medical devices by showing how skin deforms under pressure.

Human dermal stem cells can become functional skin pigment cells.

New nanofiber technology improves wound healing by supporting cell growth and delivering treatments directly to the wound.

Tissue engineering in cosmetics offers safer, more effective products and ethical alternatives to animal testing.

AI can accurately measure hair loss severity in alopecia areata.

Microneedles are effective for painless drug delivery and promoting wound healing and tissue regeneration.

2-Hydroxy-1,4-naphthoquinone is a strong 5α-reductase inhibitor.

AIRE-deficient rats developed severe autoimmune disease similar to APECED, useful for testing treatments.

Schwann cell and M2 macrophage interactions contribute to keloid growth by increasing matrix deposition.

Botanical extracts from peas and chia seeds improved scalp health and protected hair from pollution.

Treprostinil, a drug, can delay wound healing in healthy cells but doesn't affect diabetic foot ulcer cells, suggesting further research could help understand its role in treating these ulcers.

HIF-1α stimulators, like deferiprone, work as well as popular hair loss treatments, minoxidil and caffeine, in promoting hair growth.

Inositol and arginine solutions improve hair follicle health and turnover.

3D bioprinting with special hydrogels can create artificial skin that heals wounds and regrows hair in mice.

The conclusion is that using light-sheet fluorescence microscopy with a special solution can effectively create detailed 3D images of human skin for dermatological research.

3D bioprinting advancements are improving skin regeneration for wound healing and personalized reconstruction.

3D bioprinting could improve skin repair and treat conditions like vitiligo and alopecia by precisely placing cells.

Aging causes sweat glands to shrink and move upward, leading to less elastic skin and more wrinkles.

The new skin model can predict how chemicals might cause skin allergies.

Skin organoids are a promising new model for studying human skin development and testing treatments.

The Multi-Organ-Chip improves the growth and quality of skin and hair in the lab, potentially replacing animal testing.

PSU are better than THF at regenerating skin layers in lab models.