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Enzymes play crucial roles in metabolism, health, and disease management.

Altering SSAT affects fat metabolism and body fat in mice.

Overexpressing a specific enzyme in mice causes hair loss and female infertility.

Overexpressing SSAT in mice makes them highly sensitive to polyamine analogues, causing liver damage and high mortality.

Topical putrescine and spermine increased DNA synthesis in hairless mouse skin.

Polyamines are abundant in certain parts of rat hair follicles and may play a key role in hair growth.

Increasing SSAT makes skin more prone to cancer.

Excessive putrescine causes hair loss in transgenic mice by disrupting hair follicle development.

Overexpression of SSAT causes hair loss and skin issues, but reducing putrescine can help.

Overexpressing SSAT enzyme reduces prostate tumor growth in mice.

Polyamines, especially spermidine, are essential for hair growth.

Polyamines are important for hair growth, but more research is needed to understand their functions and treatment potential.

New minoxidil compounds with better water solubility were made, but their full effects and safety need more research.

Alzheimer's patients have higher levels of certain chemicals in their hair.

Some minoxidil combinations can help differentiate leukemia cells without harming other cells.

Adjusting polyamine levels could help treat skin disorders like psoriasis and skin cancer.

Tudor-SN is important for immune cells, and polyamines can promote hair growth.

Finasteride treatment for three years changes certain polyamine levels in the blood but not in urine.

The 0.1% finasteride nanoparticles are efficient, uniform, and stable.

The new delivery method for finasteride using nanoparticles may improve hair growth without skin issues.

Natural product nanoparticles improve drug absorption but need better stability and production methods.

Lipid nanoparticles improve treatment delivery and are key to future therapies, but challenges in manufacturing and safety remain.

Chitosan-decorated nanoparticles improve skin delivery of finasteride, with PS404-b-PAA63 being most effective.

Chitosan-decorated nanoparticles can improve skin delivery and reduce side effects of finasteride.

The research found that nanoparticles coated with chitosan improved the skin penetration of the drug finasteride.

Optimized carriers effectively deliver Finasteride for hair loss treatment.

Lipid nanoparticles show promise for delivering alopecia treatments to the skin.

Finasteride in lipid carriers improved hair growth in rats.

Nanostructured lipid carriers can improve finasteride delivery for better hair loss treatment.

The nanoparticles improved minoxidil's skin absorption, making them promising for skin treatments.