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Tilapia skin matrix effectively aids skin wound healing and is a promising option for clinical use.

The shape of fibrous scaffolds can improve how stem cells help heal skin.

The sponges effectively prevent dry socket by stopping bleeding and killing bacteria after tooth extraction.

The hydrogel speeds up wound healing, fights bacteria, reduces inflammation, and monitors pH.

Particles around 100 nm can penetrate and stay in hair follicles without passing through healthy skin, making them safe for use in topical products and useful for targeted drug delivery.

Hydrogel-forming microneedles are a safe and effective method for delivering drugs through the skin.

Biodegradable scaffolds help regenerate wounds and hair by activating the immune system.

Microneedles offer a painless, precise, and versatile method for drug delivery and disease treatment.

The scaffold improves wound healing and tissue regeneration.

A new hydrogel with stem cells can repair damaged uterine lining and improve fertility.

Probiotic nanoscaffolds significantly improved burn healing and infection control in mice.

Single-cell encapsulation shows promise for medical use but faces production challenges.

The hydrogels heal infected diabetic wounds quickly and effectively.

The hydrogel speeds up wound healing and improves skin repair better than commercial options.

Aligned membranes improve wound healing by reducing scars and promoting skin regeneration.

PEG and keratin scaffolds can effectively deliver protein drugs by controlling release based on pH levels.

New wound healing method using nanoparticles in a gel speeds up healing and reduces infection and inflammation.

FucoPol hydrogel membranes are promising for delivering drugs on the skin.

The demineralized bone matrix scaffold is better for cell attachment than the mineralized bone allograft.

The study created a new hair loss treatment paste that regrows hair faster and with fewer side effects than minoxidil alone.

New hydrogel sensors can be quickly made and customized for wearable devices.

Innovative biomaterials show promise in healing chronic diabetic foot ulcers.

The new silk suture with silver and curcumin helps heal wounds faster and fights bacteria.

Functionalized bacterial cellulose can improve medical tissue engineering.

Microneedle technology has advanced for painless drug delivery and sensitive detection but faces a gap between experimental use and clinical needs.

Liposome-composite hydrogel microspheres are promising for safe, controlled drug delivery.

PPCM microspheres allow controlled finasteride release over 24 hours.

The new method improves bone repair by enhancing cell loading and stability in bioprinted scaffolds.

The new hydrogel dressing with natural molecules helps heal wounds faster and improves skin repair.