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Desmopressin-loaded liposomes can effectively deliver drugs through the skin, improving bioavailability and patient compliance.

A new, efficient method has been developed to detect darolutamide and thalidomide, drugs used for certain hair loss and prostate cancer treatments, in pharmaceuticals and body fluids.

Chamomile extract can protect hair from damage caused by light.

Polyamidoamine dendrimers can change the strength and direction of electroosmotic flow through the skin, affecting drug delivery.

PMS nanoparticles improve damaged hair by protecting and restoring its surface and color.

A certain type of skin cell, marked by EGFR, produces a lot of IGF1 and helps hair follicles grow back faster.

A new keratin treatment can strengthen and protect aging hair.

Red light increases hair follicles and ATP in mouse skin.

Removing the outer skin layer increases drug absorption and offers non-invasive treatment options, with some methods allowing for quick skin recovery.

Scientists made glow-in-the-dark dots from human hair that can detect iron, prevent counterfeiting, and reveal fingerprints.

The mTurq2-Col4a1 mouse model shows that cells can divide while attached to stable basement membranes during development.

New method measures skin cell turnover quickly and effectively, showing turnover slows with age and responds more to treatments in older skin.

Melatonin receptor genes likely play an important role in the development of goose feather follicles.

The study identified key genes that align with the cashmere growth cycle in goats, which could help improve cashmere production timing.

Mouse skin fibroblasts vary in function and adaptability based on their environment.

Certain long non-coding RNAs in cashmere goats affect hair growth when treated with a specific growth factor.

Cashmere goat hair growth follows a cycle with distinct growth, regression, and resting periods, influenced by specific genes.

Desmoglein 3 organization in cell connections changes without calcium, affecting cell adhesion.

Key signals for hair follicle formation were identified.

Researchers improved a method to study individual cells in newborn mouse skin and found a way to assess the severity of a skin condition in humans.

Scientists created a tiny, 3D model of a hair follicle that grows and acts like a real one.

Unique genes in hair follicle cells help tissue regeneration.

Chemical stressors damage hair structure but the skin's outer layer protects living cells.

PLA nanoparticles can effectively deliver treatments to hair follicles, showing potential for hair therapy.

Androgens reduce macrophage receptor expression, affecting immune response, while antiandrogens counteract this effect.

Monegy, a mix of certain plant extracts, may promote hair growth and repair.

Curved human hair has different structures on each side, which might cause its shape and is similar to wool.

Cysteine formation on hair indicates damage, best detected at pH 4.5.

Long-term finasteride use may affect sperm structure and chromosomes.

Microencapsulated human hair cells can regenerate hair follicles in mice ears.