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The hydrogels improved healing in deep second-degree burns.

Combining probiotics, clotrimazole gel, and laser therapy improves treatment for recurrent yeast infections.

New treatment using engineered nanovesicles in hydrogel improves hair growth by repairing hair follicle cells in a mouse model of hair loss.

The silk fibroin hydrogel with FGF-2-liposome can potentially treat hair loss in mice.

Hydrogels have great potential for improving wound care, drug delivery, and tissue engineering in veterinary medicine.

Chitosan is useful in skin treatments because it helps with wound healing and cell growth.

Nanoemulgels improve skin disorder treatment by delivering drugs more effectively and reducing application frequency.

A hydrogel releasing pectolinarin speeds up wound healing and reduces scarring.

The new minoxidil gel reduces runoff and improves eyebrow hair growth.

Biomembrane-based hydrogels can effectively promote chronic wound healing.

Hydrogels are crucial for 3D bioprinting in tissue engineering.

Thermo-responsive polymers in nanoparticles enable targeted drug delivery and advanced therapies by releasing drugs at specific temperatures.

Functionalized hydrogels can help heal tissues and fight infections by delivering beneficial bacteria and antimicrobials.

Sodium alginate-based hydrogels are promising for medical use due to their versatility and biocompatibility.

Hydrogel composites have great potential in regenerative medicine, tissue engineering, and drug delivery.

The hydrogel speeds up healing of normal and MRSA-infected wounds.

The scaffold is a promising material for wound healing and tissue engineering.

Hydrogel composites are promising for treating chronic diabetic ulcers due to their versatility and effectiveness.

Nanoemulgels could effectively treat skin diseases and may replace or complement current therapies.

Paeonol-loaded gels may help reduce inflammation and skin damage in atopic dermatitis.

The developed nasal gel improves cilostazol delivery to the brain, enhancing its effectiveness and reducing side effects.

Mesenchymal stem cells show promise for effective skin repair and regeneration.

The new nasal gel for schizophrenia improved drug absorption and brain effects in rats.

Bioengineered materials improve wound healing by releasing growth factors and cytokines more effectively than traditional methods.

Biomaterials can improve non-viral gene delivery by enhancing DNA uptake and reducing toxicity.

Sericin from silk cocoons could be a promising drug delivery tool, but stability and consistency need improvement.

Berberine delivery systems improve wound healing by enhancing bioavailability, reducing inflammation, and promoting tissue regeneration.

The new drug delivery system releases the drug better in sebum and targets follicles more effectively than the conventional cream.

New physical methods like electrical currents, ultrasound, and microneedles show promise for improving drug delivery through the skin.

Liposomal carriers can improve tissue regeneration by stabilizing and retaining growth factors.