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Polycaprolactone and barium titanate composites show promise for use in biomedical applications.

Hibiscus mucilage is an effective gelling agent for diclofenac diethylamine gel.

Pectin nanofibers show promise for medical use due to their unique properties.

Chirality affects the structure, strength, and function of peptide-based hydrogels.

Hyaluronic acid increases collagen synthesis safely, while poly-L-lactic acid may cause complications by affecting fibroblasts.

Polymer complexation makes hyaluronic acid stick to hair better, enhancing its moisturizing effects.

Hyaluronic acid and polycaprolactone improve skin regeneration, with polycaprolactone having a stronger effect on healing and tissue repair.

The research found how certain drugs and polymers form stable complexes, which could help develop new pharmaceutical forms.

The research shows how certain drug molecules form stable structures with polymers, which could help create new drug forms.

The new facial treatment improved wrinkles and skin thickness, with most patients seeing results within a month, despite some temporary swelling and bruising.

Cell growth improved the strength of 3D bioprinted structures.

The new vaccine platform led to a stronger immune response and better protection against the flu than the traditional vaccine.

The hydrogels help harvest cells while preserving their mechanical memory, which could improve wound healing.

Hyaluronan is a good drug delivery material because it sticks to mucosal areas and its drug release can be improved by changing its properties.

Magnetic fields help create complex 3D soft structures for biomedical use.

PHAs are promising biodegradable materials for medical and dental uses.

Stiffer hydrogels better promote stem cells turning into hair follicle cells.

Scientists created a 3D printed skin that includes hair and layers similar to real skin using a special gel.

Different soft tissue fillers can cause various skin reactions; biodegradable fillers are safer and non-biodegradable ones like silicone can lead to long-term problems.

4D scaffolds made with melt electrowriting can change shape for use in medicine.

Different materials affect the growth of brain cells and fibroblasts, with matrigel being best for brain cell growth.

PMS nanoparticles improve damaged hair by protecting and restoring its surface and color.

New resin B makes artificial hair fibers hold curls longer than traditional resin A.

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.

Thiadiazole chitosan conjugates improve hair manageability, moisture, and protection in conditioners.

3D-printed mesoporous scaffolds show promise for personalized drug delivery with controlled release.

Polymers can be designed to mimic natural cell environments for medical uses.

Hard α-keratins stay stiff in water because the surrounding matrix keeps them dehydrated and strong.

A small molecule can strengthen fine hair, making it more resistant and natural-feeling.