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African hair has the most lipids, while Caucasian hair is more hydrated and stronger.

Removing external lipids from hair reduces moisture and increases strength, while removing internal lipids decreases water permeability.

Anatolian native goat down-hair is similar to cashmere and can be used for high-quality textiles.

Animal hair fibers like wool and mohair are strong when dry, but vicuna fibers are very brittle.

Enzymes xylanase and pectinase clean wool and specialty hair fibers effectively without damage, offering an eco-friendly alternative to soap and hot water.

Researchers developed a less damaging way to extract red dyes from wool using EDTA and DMF, preserving the fiber's strength for further analysis.

Adding amber particles to polyamide fibers makes them suitable for medical textiles like compression socks.

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

A new method extracts red dyes from wool without damaging it, although it slightly weakens the wool.

Rice derivatives in conditioners protect and improve hair health.

Proper hair care can prevent and stop hair breakage in people with acquired trichorrhexis nodosa.

Hair loss has many causes and treatments, but future research aims for better solutions.

Tissue stiffness affects hair follicle regeneration, and Twist1 is a key regulator.

Activating TRPA1 reduces scarring and promotes tissue regeneration.

Recent dental research shows diet changes increased tooth decay, red wine reduces bacteria, and dental stem cells can regenerate dentin.

The conference reported improvements in muscle volume, skin cancer diagnosis, facial and vaginal rejuvenation, and hair growth using various laser treatments.

New treatments and technologies in laser medicine show promise for improving skin conditions, fat reduction, cancer treatment, wound healing, and hair restoration.

Children's hair is more elastic, but tensile strength is similar across different factors.

L-cysteine slows down the breaking of bonds in hair due to electrostatic interactions.

Bleaching hair causes significant damage by breaking down proteins and fatty acids.

Sulforaphane may help with hair growth by breaking down a hormone that causes hair loss.

Oxidation changes human hair by breaking down fats and forming new acidic groups, affecting how it interacts with conditioners and cosmetics.

Bimatoprost increases hair growth in mice without breaking down into other substances.

Too much Smad7 changes skin and hair development by breaking down a protein called β-catenin, leading to more oil glands and fewer hair follicles.

Chemical treatments on bleached black hair change its internal structure by breaking and reforming bonds, and treatments with hydrolyzed eggwhite protein help repair it.

Certain mutations in the KLHL24 gene cause a skin disorder by breaking down an important skin protein.

Human hair's structure makes it tough and resistant to breaking.

Some people have a genetic variation that makes them less effective at breaking down drugs.

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