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Sparse hairless patches can develop and stabilize in alopecia areata under certain conditions.

The LTF gene may help predict and manage nonspecific orbital inflammation.

Titanium dioxide nanoparticles can help heal wounds faster and better.

UVB exposure in human skin causes macrophages to produce more IL-10 and less IL-12, leading to immunosuppression.

Stress may trigger hair loss by affecting immune protection in hair follicles.

Melanocyte stem cells are crucial for skin pigmentation and have potential in disease modeling and regenerative medicine.

Reflectance confocal microscopy reliably identifies skin cancer features like horizontal skin tissue sections.

15-Gy x-ray irradiation temporarily alters rat calvaria skin without causing significant inflammation or fibrosis.

Lactate is vital for skin health, influencing metabolism, the skin barrier, immune responses, and has therapeutic potential for skin disorders.

Thyroid disorders can cause skin issues in children, so early detection and screening are important.

Mitochondrial features can predict colorectal cancer outcomes and improve immunotherapy.

The conventional extraction method with 50% ethanol was the most effective for antioxidant activity.

Exosomes could be a promising way to help repair skin and treat skin disorders.

Advanced technologies can improve understanding and monitoring of skin-brain interactions.

A new wound dressing helps heal diabetic wounds faster by reducing inflammation and promoting tissue growth.

Hypochlorous acid is a safe, effective antimicrobial with potential in various medical fields, but more research is needed to improve its stability and use.

Targeting gut microbiome and metabolome may help treat autoimmune skin diseases like alopecia areata.

ILC1-like cells may contribute to hair loss in alopecia areata.

ILC1-like cells can independently cause alopecia areata by affecting hair follicles.

ILC1-like cells may contribute to hair loss in alopecia areata and could be new treatment targets.

Better understanding of wound healing is needed to develop effective treatments for chronic wounds.

Controlling inflammation can help heal diabetic foot ulcers.

Human hair follicles contain a complex network of prostanoid receptors that may influence hair growth.

Silk fibroin nanofibers may help heal diabetic wounds, but more research is needed.

A protein called lfTSLP is important in causing allergic and other skin diseases and could be a target for treatment.

CD44 signaling can help heal wounds without scars.

Natural products like plant extracts can help promote hair growth and could be used to treat hair loss.

Advancements in wound healing aim to improve personalized treatments and enhance healing outcomes.

Bionanomaterials from natural sources show promise in improving wound healing and tissue regeneration.

Combining stem cells with platelet-rich plasma improves bowel healing in rats.