BACKGROUND: Both urinary and biliary stones can contain calcium. Bile salts (BA), which are known to bind Ca2+, are commonly used to dissolve the latter but not the former. METHODS: The effect of physiologic BA on calcium oxalate (CaOx) precipitation was evaluated by a recently developed method. RESULTS: The Ca2+ binding properties of BA were confirmed by small but significant decreases in pH observed following addition of CaCl2 to bile acids solutions. More importantly, BA inhibited CaOx precipitation with effective concentrations of approximately 10-3 mol/L. The clinical relevance of the latter observation is presently unknown but it is of note that in the same in vitro assay, the activity of BA appeared comparable to that of citric acid, the most common drug for urolithiasis. Although BA do not reach mmol/L levels in urine, they are known to change the physicochemical properties of this fluid, possibly slowing down the crystal growth process. However, the hypothetical therapeutic use of BA in former stone patients would present at least two major problems: (i) hepatotoxicity and (ii) lithogenic activity, due to hyperoxaluria subsequent to increased intestinal absorption of oxalate. CONCLUSION: The ability of BA in effectively binding calcium ions and in inhibiting the precipitation of CaOx appears of interest from both a physiopathologic and a pharmacologic point of view, even if it does not currently seem exploitable for prophylactic or therapeutic purposes.
Inhibition of calcium oxalate precipitation by bile salts / Saso, Luciano; Eleonora, Grippa; Maria Teresa, Gatto; Silvestrini, Bruno. - In: INTERNATIONAL JOURNAL OF UROLOGY. - ISSN 0919-8172. - 8:3(2001), pp. 124-127. [10.1046/j.1442-2042.2001.00264.x]
Inhibition of calcium oxalate precipitation by bile salts
SASO, Luciano;SILVESTRINI, Bruno
2001
Abstract
BACKGROUND: Both urinary and biliary stones can contain calcium. Bile salts (BA), which are known to bind Ca2+, are commonly used to dissolve the latter but not the former. METHODS: The effect of physiologic BA on calcium oxalate (CaOx) precipitation was evaluated by a recently developed method. RESULTS: The Ca2+ binding properties of BA were confirmed by small but significant decreases in pH observed following addition of CaCl2 to bile acids solutions. More importantly, BA inhibited CaOx precipitation with effective concentrations of approximately 10-3 mol/L. The clinical relevance of the latter observation is presently unknown but it is of note that in the same in vitro assay, the activity of BA appeared comparable to that of citric acid, the most common drug for urolithiasis. Although BA do not reach mmol/L levels in urine, they are known to change the physicochemical properties of this fluid, possibly slowing down the crystal growth process. However, the hypothetical therapeutic use of BA in former stone patients would present at least two major problems: (i) hepatotoxicity and (ii) lithogenic activity, due to hyperoxaluria subsequent to increased intestinal absorption of oxalate. CONCLUSION: The ability of BA in effectively binding calcium ions and in inhibiting the precipitation of CaOx appears of interest from both a physiopathologic and a pharmacologic point of view, even if it does not currently seem exploitable for prophylactic or therapeutic purposes.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
