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Caffeine penetrates human skin in lab tests similarly to real-life conditions, but actual skin use is still essential for accurate results.

AFM helped show how hair changes under tension and the effects of damage and conditioner.

Hairless protein can block vitamin D activation in skin cells.

TRPV3 in skin cells causes inflammation and cell death.

Human skin cells produce proenkephalin, which changes with environmental factors and skin diseases.

Alkylation of human hair keratin allows for adjustable drug release rates in hydrogels for medical use.

Markers help differentiate between apocrine and eccrine sweat glands to identify sweat gland tumors.

Adult human skin can grow new fine hair follicles after a deep exfoliation treatment.

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

Human hair follicles can regenerate after removal, but with low success rate.

HFMs can help study hair growth and test potential hair growth drugs.

Human hair follicles produce and respond to erythropoietin, helping protect against stress.

Hair keratin-associated proteins are essential for strong hair, with over 80 genes showing specific patterns and variations among people.

PRP and HF-MSCs treatment improves hair growth, thickness, and density in androgenetic alopecia.

Advanced human skin models improve drug development and could replace animal testing.

Air pollution (PM10) increases skin inflammation and aging by reducing collagen and may trigger a repair response in skin cells.

Human hair proteins vary by individual, body site, and ethnicity, useful for forensics.

Keratin films from human hair can potentially replace human nail plates for drug testing.

Human hair follicle cells can grow hair when put into mouse skin if they stay in contact with mouse cells.

Coal tar shampoo increases enzyme activity in hair follicles, enhancing carcinogen binding to DNA.

Human hair follicles can make and process prostaglandins, which may affect hair growth.

Human stem cells can help form hair follicles in mice.

Technique creates 3D cell spheroids for hair-follicle regeneration.

New findings explain how genetic changes, body clocks, and certain molecules affect tissue response to stress hormones.

Squarticles effectively deliver hair growth drugs to follicles and dermal papilla cells.

Spermidine may help reduce hair loss and deserves further testing as a treatment.

Exosomes from human skin cells can stimulate hair growth and could potentially be used for treating hair loss.

High levels of testosterone and 5α-DHT can lead to cell death in cells important for hair growth.

Hair follicle cells age faster and lose pigment due to less catalase, causing hair to turn gray.

Injected human hair follicle cells can create new, small hair follicles in skin cultures.