The researchers first developed a rat kidney stone model and examined the transport kinetics and efficacy of AOFOS in living rats. By combining crystallization experiments with density functional theory calculations, they then investigated the relationship between polysaccharides and calcium oxalate crystals.
They found that the inulin-type AOFOS extracted from Aspidopterys obcordata had inhibitory effects on kidney stones in rat models, and the polysaccharide was transported to the urinary system. Low dose of AOFOS had a good therapeutic effect on kidney stones in rats, but the therapeutic effect of medium and high dose of polysaccharide was weak.
They then examined the anti-stone ability of rat urine and polysaccharide content under different treatment conditions. Under acidic conditions, calcium oxalate crystal formation was slower and tended to form monohydrate crystals. However, with increasing pH, the rate of crystal formation increased, resulting in crystals with various shapes and larger volumes, including calcium oxalate dihydrate (COD) crystal formation.
The researchers further found that the accumulation of polysaccharides was inhibited by controlling their crystallization and modulating the properties of calcium ions and oxalate in urine. This effectively prevented kidney stone formation in the rats.
"Our study provides valuable insights into the potential therapeutic use of the polysaccharide AOFOS extracted from Aspidopterys obcordata in the treatment of kidney stone formation," said XU Youkai of XTBG.
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