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Dendrobium officinale polysaccharides may help with hair growth, skin moisturization, and protection against oxidative damage.

Infrared and Raman imaging can non-destructively analyze hair structure and help diagnose hair conditions.

Different hair protein amounts change the strength of keratin/chitosan gels, useful for making predictable tissue engineering materials.

Engineered skin substitutes can grow hair but have limitations like missing sebaceous glands and hair not breaking through the skin naturally.

Asian hair is generally straight and thick, with unique disorders and properties, and more research is needed to understand it fully.

New drug delivery methods can make natural compounds more effective and stable.

The study developed a tool to predict how gut microbes process foods and drugs, showing that similar compounds often share metabolic pathways and effects.

Bleaching hair removes its protective top layer and exposes more hydrophilic groups, changing its chemical surface and affecting how it interacts with products.

Chitosan-coated nanoparticles improve skin delivery of hair loss treatments with fewer side effects.

Silver nanoparticles made from Grewia optiva leaf extract show strong antibacterial, antioxidant, and hair growth benefits.

Chitosan and surface-deacetylated chitin nanofibers may help treat hair loss.

Human hair keratin fibers have a detailed nano-scale structure that changes with different conditions.

The study concluded that three enzymes are important for plant development by affecting sugar composition and calcium binding in plants.

New skin substitutes for treating severe burns and chronic wounds are being developed, but a permanent solution for deep wounds is not yet available commercially.

PDI helps restore over-bleached hair's strength and structure by attaching special peptides.

Further research is needed to improve hair regeneration using stem cells and nanomaterials.

Hair treatments cause significant structural changes, especially with excessive heat, regardless of ethnicity.

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

Green-synthesized nanoparticles can effectively target cancer cells, reducing side effects and improving treatment.

A portable device can create nanofibers to improve the appearance of thinning hair better than commercial products.

Whale genes show changes that help them live in water, like less hair and better flippers.

Aging makes hair thinner and rougher, with less clear edges.

Hair's strength and flexibility come from its protein structure and molecular interactions.

Thioglycolic acid and L-cysteine change hair structure differently during perms, affecting hair strength and curling efficiency.

Melatonin-loaded nanocarriers improve melatonin delivery and effectiveness for various medical treatments.

Using longer PEG chains helps nanoparticles penetrate hair follicles better, improving drug delivery for conditions like alopecia.

The 3D structure of a key hair protein was modeled, revealing specific helical structures and stabilization features.

Two-photon microscopy effectively tracks live stem cell activity in mouse skin with minimal harm and clear images.

HGF/SF increases skin melanocytes but doesn't change melanin type or amount.

Melanoma development can be linked to the breakdown of skin's melanin-producing units.