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Microfluorometry effectively measures how much polymer coats and penetrates hair, useful for evaluating hair products.

All five hair fiber products improved appearance but didn't stick to completely bald areas.

Changing disulfide bonds in human hair affects its melting behavior and thermal stability.

Damaged hair allows water to penetrate more easily, and fatty acids from shampoos can deposit on hair surfaces.

Quantifying hair shape is better than using racial categories for understanding hair characteristics.

Tissue expansion can fix scalp issues from hair implants.

Hair-bearing punch grafting effectively repaired damage from artificial hair implants.

Chemical hair straighteners can severely damage hair and scalp with repeated use.

Animal fibers are valued for being natural and eco-friendly, but face challenges like price volatility and a focus on meat over fiber.

Nerve fibers may worsen mast cell activity, leading to abnormal elastic fiber buildup from sun exposure.

Human hair varies in structure based on curl type, with high curl hair showing the most differences.

The babassu fiber exfoliating product for hair loss should be stored in a cool place to stay effective.

Atomic Force Microscopy is a more accurate way to assess hair damage and the effect of cosmetic treatments.

Different oils affect hair flexibility and strength, with their impact varying on whether hair is virgin or bleached.

Hyaluronic acid in shampoo penetrated hair well, reduced frizz, and improved hair strength and moisture.

Water and fatty acids affect hair's surface differently based on hair damage, and models can help understand hair-cosmetic interactions.

The model helps understand how wool fiber structure affects its strength and flexibility.

The research found that twisting hair fibers can show changes in stiffness and damage, and help tell apart different hair treatments.

Hair thickening procedures can help people with early hair loss when combined with proper scalp and hair care.

Trichoscopy can help tell the difference between artificial hair fibers and other scalp artifacts.

The new method can tell how hair fibers react to moisture after treatments.

Disulfide bonds affect the melting behavior of hair's crystalline structure, but hair retains some stability even after these bonds are broken.

Acidic sandy clay damages archaeological hair the most, while dry conditions preserve but make it brittle; silicone oil can help keep the hair flexible.

Hair fibers break by cuticle cell slipping, shape changing, cuticle fraying, and surface cracking when stretched under specific conditions.

Hair coloring and bleaching can permanently break down hair protein and temporarily change its properties.

A new method helps understand hair shine and various products improve hair care.

Stretching-setting treatment works for wool and human hair using specific equipment and methods.

The IRF2BP2 gene affects sheep fleece quality by influencing fiber traits.

Nutrafol® nutraceuticals improve hair thickness and strength.

New lipid/fiber microplexes improve mRNA therapy for degenerative diseases by enhancing cell function and treatment effectiveness.