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Iris germanica rhizome-derived exosomes help protect skin cells from oxidative stress and aging.

Microneedles can improve skin disease treatment by delivering drugs directly through the skin.

Vimentin and keratin help viruses spread and could be targets for antiviral treatments.

Activating Nrf2 can help protect against hearing loss.

Engineering strategies improve stem cells' ability to heal wounds effectively.

Caspases are enzymes important for both cell death and various non-lethal cell functions, affecting head development and hair growth, with different caspases playing specific roles.

Engineered extracellular vesicles could improve CRISPR/Cas delivery, making gene editing safer and more effective.

Bioengineered microneedles and nanomedicine offer promising, precise treatments for tissue regeneration.

Biomimetic cell membrane-coated scaffolds significantly enhance tissue regeneration by mimicking natural cellular environments.

Understanding molecular processes in skin development is key to creating targeted treatments for skin disorders.

New-onset fibromyalgia after COVID-19 is poorly understood and needs more research.

The study identified unique genes in hair follicle cells and their environment, suggesting these genes help organize cells for hair growth.

MDSC-Exo can treat autoimmune alopecia areata and promote hair regrowth in mice.

Single-cell transcriptomics helps improve animal health and productivity by studying gene expression in individual cells.

Organoid technology is improving personalized medicine by better predicting drug responses and treatments.

Epigenetic factors play a crucial role in skin health and disease.

Dermal sheath cells play a key role in wound healing and could impact fibrosis.

Fibroblast growth factors could be a better, safer treatment for hair loss than current options.

Stress in hair follicle stem cells causes inflammation in a chronic skin condition through a specific immune response pathway.

Botryococcus terribilis and its compounds may promote hair growth and improve hair health.

Organoids can revolutionize medicine by modeling diseases and aiding in personalized treatments.

Mechanical stress contributes to hair loss in androgenetic alopecia.

Balancing good and harmful microbes is key to healing chronic wounds.

Skin bacteria help heal wounds and restore healthy skin.

Peptide hydrogels are promising for drug delivery and tissue repair in medicine.

Foxn1 is crucial for skin development and healing, and altering its expression may aid regenerative medicine.

Leptin-deficient mice, used as a model for Type 2 Diabetes, have delayed wound healing due to impaired contraction and other dysfunctional cellular responses.

Engineered protein hydrogels improve medical treatments by mimicking natural body structures.

Hydrogels show promise for scarless wound healing by reducing skin fibrosis.