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J Thorac Cardiovasc Surg. 1986 Feb;91(2):281-9.
Effects of supplementing hypothermic crystalloid cardioplegic solution with catalase, superoxide dismutase, allopurinol, or deferoxamine on functional recovery of globally ischemic and reperfused isolated hearts.

Myers CL, Weiss SJ, Kirsh MM, Shepard BM, Shlafer M.

We evaluated whether supplemental pharmacologic interventions that altered formation or degradation of reactive oxygen metabolites, when added to hypothermic crystalloid cardioplegic solution (procaine-free St. Thomas' Hospital solution), alter postischemic function of isolated rabbit hearts. Hypoxic, substrate-free cardioplegic solutions cooled to 27 degrees C were perfused through isolated rabbit hearts for 5 minutes before and after an uninterrupted 2 hour period of global ischemia at 27 degrees C. Hearts were then reperfused with standard buffer for 1 hour at 37 degrees C. In some experiments, the cardioplegic solution was supplemented with the following: superoxide dismutase (30 micrograms/ml; degrades superoxide anion); catalase (1.7 micrograms/ml; degrades hydrogen peroxide); allopurinol (1 mmol/L; inhibits xanthine oxidase); or deferoxamine (Desferal, 0.5 mmol/L; selectively chelates ferric iron). Postreperfusion contractile parameters of supplemented hearts, including left ventricular pressure development and its first derivative, left ventricular compliance, spontaneous heart rate, and coronary vascular resistance, were statistically compared to data obtained from hearts arrested with unsupplemented cardioplegic solution. Catalase supplementation provided statistically significant improvement of most functional parameters; somewhat less protection was obtained with allopurinol. Deferoxamine provided little added protection except for the ability to prevent ischemia-induced increases of coronary vascular resistance. There was no evidence of added protection by superoxide dismutase. The data suggest that an important component of ischemia-induced cardiac cell damage in an asanguineous setting is hydrogen peroxide-dependent, and interventions that either inhibit production of superoxide anion or degrade hydrogen peroxide offer best protection. They may be clinically efficacious additives to crystalloid cardioplegic solutions.

online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=3945095&dopt=Abstract




J Rheumatol. 1975 Dec;2(4):437-45.
The pharmacology of hypouricemic effect of benzbromarone.

Sinclair DS, Fox IH.

The hypouricemic effect of benzbromarone has been investigated in six subjects. Benzbromarone increased urate: creatinine by 371 per cent over control values at two to four hours after administration. Over a 24 hour period, the mean serum uric acid decreased from a control value of 7.8 +/- 0.8 to 4.3 +/- 0.6 mg/dl. This uricosuric effect was completely reversed by pyrazinamide, partially inhibited by acetylsalicyclic acid and sulfinpyrazone, and was not accompanied by an elevation of the creatinine clearance or an inhibition of urate binding to plasma protein. In vitro studies showed only 22 per cent inhibition of urate binding by benzbromarone five muM, a concentration which is transiently reached in man. Kinetic studies of human liver xanthine oxidase demonstrated non-competitive inhibition with variable hypoxanthine and a Ki slope of 8.5 muM. The Ki slopes for benzarone and allopurinol were 19.0 muM and 0.05 muM respectively. There was no elevation of the urinary oxypurines following benzbromarone ingestion. These observations suggest that only the renal tubular activity of benzbromarone is relevant to its hypouricemic effects in man. (J Rheumatol 2: 437-445, 1975).

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Metabolism. 1989 Jun;38(6):550-4.
Induction of profound hypouricemia by a non-sedating thiobarbiturate.

Warrell RP Jr, Muindi J, Stevens YW, Isaacs M, Young CW.

Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, NY.

5-[N-phenylcarboxamido]-2-thiobarbituric acid (merbarone) is a non-sedating derivative of thiobarbituric acid originally developed for anticancer use. In the initial clinical study, a profound reduction in serum uric acid was observed. In 20 patients who received five daily doses of merbarone ranging from 100 to 750 mg/m2, serum uric acid concentration was reduced from a mean pretreatment value of 5.7 +/- 1.6 mg/dL to a mean lowest value of 1.3 +/- 0.5 mg/dL. In most patients, the onset of the effect occurred with 24 hours and was maximal by 48 to 72 hours. Metabolic studies in two patients showed an increase in urinary uric acid excretion within 24 hours after initiation of drug treatment. A marked increase in fractional excretion of uric acid was sustained throughout the period of drug treatment. Urinary excretion of total oxypurines (xanthine and hypoxanthine) was increased twofold to threefold relative to baseline levels. Ultrafiltration studies showed that merbarone did not significantly displace binding of urate from albumin. When merbarone was incubated with xanthine oxidase in vitro, several reaction products were observed, including 2-oxo-2-desthio-merbarone and a compound with retention time similar to 4'-OH-merbarone. Both of these compounds have been described previously as metabolites of merbarone in human subjects. The parent drug and both metabolites were found to inhibit xanthine oxidase (Ki = 41, 36, and 240 mumols/L, respectively). However, this inhibitory effect was substantially less potent than allopurinol (Ki = 0.025 mumols/L). This study indicates that merbarone induces profound hypouricemia primarily by increasing uric acid excretion.(ABSTRACT TRUNCATED AT 250 WORDS)

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