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

The new ECM patch greatly improves wound healing and tissue regeneration.

Researchers developed a method to identify and measure different animal hair fibers in textiles, successfully distinguishing materials like cashmere from cheaper fibers.

Janus hydrogels improve medical adhesives by mimicking natural barriers for better tissue integration.

Scientists made human hair magnetic by coating it with special nanoparticles.

Researchers developed a method to grow hair follicle cells for transplantation using a special chip.

Droplet microfluidics can precisely create microgels for advanced bioengineering uses.

Hair follicles emit electromagnetic fields, useful for medical applications.

The document concludes that hair keratin-chitosan scaffolds were successfully made and are suitable for biomedical use.

Hair follicles significantly enhance electroosmotic transport during iontophoresis.

Bead-jet printing of stem cells improves muscle and hair regeneration.

A special coating was made for artificial hair fibers that can slowly release silver ions for up to 56 days, providing long-term protection against bacteria and inflammation.

Scientists developed a new way to create skin-like structures from stem cells using a special 3D gel and a device that improves cell organization and increases hair growth.

Human hair keratins can be turned into useful 3D biomedical scaffolds through a freeze-thaw process.

Hydrocolloid wound dressings emit energy that affects human tissue metabolism.

The new hydrogel with zinc and polysaccharides improves wound healing and has antibacterial properties.

Heparin-functionalized nanofabrics help heal wounds effectively and safely without scars in 14 days.

The new composite scaffold may effectively treat chronic and deep wounds.

Transgenic sheep cells with spider silk gene were successfully created for future sheep hair expression.

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

The DNA hydrogel helps heal diabetic wounds by absorbing fluids, warming, sticking to tissue, killing bacteria, and aiding tissue and hair regrowth.

Keratin-based hydrogels from human hair improve wound healing effectively.

3D-printed membranes with smart sensors can greatly improve tissue healing and have many medical applications.

Special fiber materials boost the healing properties of certain stem cells.

The microneedle arrays effectively promote wound healing and have potential for clinical use.

Scientists created a colored thread-like material containing a common hair loss treatment, which slowly releases the treatment over time, potentially offering an effective, neat, and visually appealing solution for hair loss.

New techniques can record electromagnetic fields in hair follicles for potential medical use.

MSC-laden hydrogels enable scarless wound healing with hair growth.

The new sensor can detect a toxic chemical in water with high sensitivity and accuracy.

Technique creates 3D cell spheroids for hair-follicle regeneration.