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The conclusion is that hair growth can be improved by activating hair cycles, changing the surrounding environment, healing wounds to create new hair follicles, and using stem cell technology.

The 190-kbp domain contains all human type I hair keratin genes, showing their organization and evolution.

The conclusion is that recognizing hair growth cycles can improve the precision of dietary and health assessments from hair analysis.

Exosomes from dermal papilla cells help hair growth by making hair follicle stem cells multiply and change.

The study identified and characterized new keratin genes linked to hair follicles and epithelial tissues.

Nuclear hormone receptors play a significant role in skin wound healing and could lead to better treatment methods.

Skin problems can be caused or worsened by physical forces and pressure on the skin.

Oxidative stress damages hair and contributes to aging, and managing it can help maintain hair health.

The article explains the genetic causes and symptoms of various hair disorders and highlights the need for more research to find treatments.

Botulinum toxin shows promise for various skin conditions but requires more research for confirmation and standardized use.

Wnt10b makes hair follicles bigger, but DKK1 can reverse this effect.

The document concludes that mouse models are crucial for studying hair biology and that all mutant mice may have hair growth abnormalities that require detailed analysis to identify.

The study found that bioengineered hair follicles work when using cells from the same species but have issues when combining human and mouse cells.

Injecting a special gel with human protein particles can help hair grow.

Researchers created hair-inducing human cell clusters using a 3D culture method.

ECM molecules are crucial for hair growth and development.

Hair treatments like bleaching increase friction by exposing tiny pores on the hair surface.

A certain surfactant sticks to human hair, making it change from water-repelling to water-attracting, which could help in hair conditioning.

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

Better hair care products are needed to protect against grooming and chemical damage.

Using fat stem cells and blood cell-rich plasma together improves healing in diabetic wounds by affecting cell signaling.

Hair follicle regeneration in skin grafts may be possible using stem cells and tissue engineering.

Ephrins slow down skin and hair follicle cell growth.

Spiny mice are better at regenerating hair after injury than laboratory mice and could help us understand how to improve human skin repair.

Ruxolitinib can help regrow hair in severe alopecia areata.

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

Genetically-altered adult stem cells can help in wound healing and are becoming crucial in regenerative medicine and drug design.

Barley extract, specifically procyanidin B-3, can promote hair growth and counteract growth inhibition.

The skin's basement membrane has specialized structures and molecules for different tissue interactions, important for hair growth and attachment.

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