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The new wound dressing material speeds up healing, fights infection, and outperforms traditional dressings.

A new treatment effectively kills antibiotic-resistant bacteria and helps wounds heal faster by boosting the immune response.

Smart nano-PROTACs improve cancer treatment by targeting proteins more precisely and reducing side effects.

Using existing drugs for new purposes can effectively treat infections resistant to multiple antibiotics.

The antibacterial toner can effectively kill acne-causing bacteria by penetrating skin plugs.

Nanogels with hydrophobic modifications improve oral drug delivery for intestinal disease treatment.

TRPV3 is important for skin health and could be a target for treating skin diseases.

Bacterial cellulose is a promising material for biomedical uses but needs improvements in antimicrobial properties and degradation rate.

The hydrogel effectively heals wounds and kills bacteria.

The new fluoroquinolone effectively fights certain bacteria.

Treated hair can fight dandruff and odor even after several washes.

Thermoresponsive nanogels show promise for delivering medicine through the skin but need more safety testing and regulatory approval before clinical use.

Daprodustat, combined with PAβN, could be a new antibacterial treatment.

The new nanosilver treatment effectively kills bacteria and speeds up wound healing with less toxicity.

Cathelicidins could treat skin issues but face challenges like safety and resistance.

The hydrogel speeds up diabetic wound healing by adapting to glucose levels and releasing insulin.

The microreactor effectively fights antibiotic-resistant infections and promotes tissue healing.

Engineered bacteria can deliver antioxidants to protect skin.

Selective photothermolysis can target sebaceous glands and may treat acne effectively.

ATR04-484 ointment shows promise for treating skin issues from cancer therapies.

The new hydrogel made from thymol and glycyrrhizin helps heal MRSA-infected wounds in rats effectively.

The modified nanofibrous dressings effectively heal infected wounds by reducing bacteria and inflammation.

Functionalized bacterial cellulose can improve medical tissue engineering.

Nanoemulsions can effectively deliver antiseptic agents deep into the skin.

Pyrene excimer nucleic acid probes are promising for detecting biomolecules accurately with potential for biological research and drug screening.

Platelet-rich plasma can temporarily inhibit some drug-resistant bacteria in diabetic foot infections.

DA liposomes with chloramphenicol effectively target hair follicles and combat MRSA with minimal skin toxicity.

DPK-060 in poloxamer gel effectively treats skin infections, but nanocarriers don't enhance its efficacy.

DACC-based dressings are more effective than silver-based ones for treating chronic wounds with antimicrobial resistance.

Nanotechnology can effectively deliver antimicrobial peptides for treating infections.