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Cationic polymers improved liposome stability and increased skin absorption of aciclovir and minoxidil.

Ethosomes improve drug delivery through the skin but may have side effects like irritation.

Vesicular carriers like liposomes may improve cosmetic skin treatment delivery and effectiveness but need more human research.

Liposomal systems show promise for delivering drugs through the skin but face challenges like high costs and stability issues.

Hair follicles could be used for targeted drug delivery, with liposomal systems showing promise for this method.

Liposomes could improve how skin care products work but are costly and not very stable.

Elastic liposomes deliver genistein through haired skin better than conventional liposomes.

Niosomes are a promising, stable, and cost-effective drug delivery system with potential for improved targeting and safety.

Nanoparticles improve drug delivery through the skin but more research is needed on their long-term effects and skin penetration challenges.

The skin has multiple layers and cells, serves as a protective barrier, helps regulate temperature, enables sensation, affects appearance, and is involved in vitamin D synthesis.

Nanotechnology shows promise for better chronic wound healing but needs more research.

A natural extract-based hair growth product was developed and showed promise in preliminary tests.

Hair follicles could be used to deliver drugs effectively, with the right understanding and methods.

Liposomes can safely and effectively deliver substances to mouse hair follicles, potentially useful for human hair treatments.

Nanocarrier-loaded gels improve drug delivery for cancer, skin conditions, and hair loss.

Sebaceous glands in the skin play a key role in absorbing the antiandrogen drug RU 58841, especially when it's encapsulated in liposomes.

Liposomes and niosomes can help drugs penetrate the skin better.

Liposomes can improve the effectiveness of skin treatments.

Liposomes can make the antiandrogen RU 58841 more effective for skin application by reducing absorption, increasing skin retention, and targeting sebaceous structures.

Liposomes with minoxidil and PEP penetrate skin slowly but reach deeper layers than foam.

PEVs improve minoxidil skin penetration, increasing hair growth.

Nanomaterials in biomedicine can improve treatments but may have risks like toxicity, needing more safety research.

Nanoparticles show promise for drug delivery through hair follicles but not through healthy skin.

The Ysc84/SH3yl1 protein family is important for cell movement and the process of taking in materials by interacting with actin and cell membranes.

New minoxidil formulations improve hair loss treatment.

Optimized formulations with specific ingredients can significantly improve skin delivery of topical drugs.

Nanotechnology improves cosmetics' effectiveness and safety.

Liposomes can improve hair care and treat hair issues effectively.

Flamena, a liposomal mix, helps skin heal better after a chemical burn.

Ethosomal carriers improve drug delivery through the skin better than traditional methods.