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The document explains hair growth, hair loss types, and other hair-related terms.

Fat-related cells are important for initiating hair growth.

Human skin makes sexual hormones that affect hair growth, skin health, and healing; too much can cause acne and hair loss, while treatments can manage these conditions.

Videodermoscopy improves diagnosis of hair and scalp disorders and may reduce scalp biopsies.

The document concludes that understanding hair follicle biology can lead to better hair loss treatments.

Human hair follicle organ culture is a useful model for hair research with potential for studying hair biology and testing treatments.

Activating TRPV3 stops human hair growth.

All-trans retinoic acid causes hair loss by increasing TGF-β2 in hair follicle cells.

Prolactin affects hair growth cycles and can cause early hair follicle regression.

The document concludes that understanding the genes and pathways involved in hair growth is crucial for developing treatments for hair diseases.

Dermoscopy helps diagnose and monitor treatment for hair loss from scarring conditions like discoid lupus and lichen planopilaris.

Prostaglandin D2 blocks new hair growth after skin injury through the Gpr44 receptor.

The document describes a way to isolate and grow human hair follicle cells in 3D to help study hair growth.

Loose Anagen Hair Syndrome is a hereditary condition causing hair loss in children due to abnormal hair follicles.

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

miR-22, a type of microRNA, controls hair growth and its overproduction can cause hair loss, while its absence can speed up hair growth.

The guide explains how to identify and treat children's hair loss, including fungal infections, autoimmune disorders, hairstyle changes, self-correcting conditions, and behavioral therapy for hair-pulling.

Hormones and their receptors, especially androgens, play a key role in hair growth and disorders like baldness.

Researchers established normal hair and scalp characteristics for healthy women using trichoscopy.

Testosterone and dihydrotestosterone affect hair growth, and new techniques like the folliculogram help study it, but fully understanding hair growth is still complex.

Researchers found a new way to create hair-growing structures in the lab that can grow hair when put into mice.

Accurate clinical, histological, and genetic methods are key for understanding and treating hair disorders.

LEF1 interacts with Vitamin D Receptor, affecting hair follicle regeneration and this could be linked to hair loss conditions.

Scientists have made progress in creating replacement teeth, hair, and glands that work, which could lead to new treatments for missing teeth, baldness, and dryness conditions.

Immune cells affect hair growth and could lead to new hair loss treatments.

Hormonal changes after childbirth and menopause can lead to women's hair loss and facial hair growth, with a need for better treatments.

Gene network oscillations inside hair stem cells are key for hair growth regulation and could help treat hair loss.

Hair and nails are similar keratin structures with different shapes and growth, affected by the same diseases and environmental factors.

Inflammation plays a key role in activating skin stem cells for hair growth and wound healing, but more research is needed to understand how it directs cell behavior.

The document concludes that over 500 genes are linked to hair disorders and this knowledge is important for creating new treatments.