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Int J Clin Pharmacol Ther Toxicol. 1993 Dec;31(12):588-92.
Effect of DL-sodium lactate infusion on excretion of purine bases and oxypurinol.

Yamamoto T, Moriwaki Y, Takahashi S, Nasako Y, Higashino K.

Third Department of Internal Medicine, Hyogo College of Medicine, Japan.

To investigate whether or not DL-sodium lactate inhibits the renal excretion of purine bases and oxypurinol, we administered physiological saline containing 0.2 mol DL-sodium lactate to 7 normal subjects intravenously. DL-sodium lactate infusion decreased the urinary excretion and the fractional clearance of uric acid, xanthine and oxypurinol, but the fractional clearance of hypoxanthine was not affected. These results suggested that the implications of DL-sodium lactate-induced hyperuricemia must be considered in patients with gout on its long term and high dose administration, and that the implications of DL-sodium lactate-induced prolongation of half-life of oxypurinol must be considered in hyperuricemic patients treated with allopurinol. However, since the high dose and long term administration of DL-sodium lactate is clinically rare, the effect of DL-sodium lactate infusion on the urinary excretion of uric acid, xanthine and oxypurinol may not be clinically important.

online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=8314359&dopt=Abstract

Pediatr Res. 1993 Apr;33(4 Pt 1):336-40.
Prevention of postasphyxial increase in lipid peroxides and retinal function deterioration in the newborn pig by inhibition of cyclooxygenase activity and free radical generation.

Chemtob S, Roy MS, Abran D, Fernandez H, Varma DR.

Department of Pediatrics, Hopital Ste. Justine, Montreal, Quebec, Canada.

Free radicals have been implicated in the development of injury to the immature retina. Asphyxia increases free radicals as well as prostaglandins (PG) in neural tissues. We assessed whether in the retina the cyclooxygenase pathway contributes to free radical formation after oxidative insults such as asphyxia, which in turn disrupts retinal function. Newborn pigs were treated with either saline, ibuprofen (194 mumol/kg i.v.), or allopurinol (1 mmol/kg i.v.), and retinal malondialdehyde (MDA), hydroperoxides, PGE2 and PGF2 alpha levels, and the amplitudes and implicit times of the a- and b-waves of the full-field electroretinogram were measured before and 1 h after a 5-min period of asphyxia. In saline-treated animals, asphyxia caused a marked increase (p < 0.01) in MDA, hydroperoxides, PGE2, and PGF2 alpha concentrations in the retina. This was associated with a significant decrease (p < 0.01) in the b-wave amplitude measured under scotopic and photopic conditions and an increase in the b-wave implicit times. Ibuprofen and another cyclooxygenase inhibitor, indomethacin (28 mumol/kg i.v.), decreased PGE2 and PGF2 alpha levels and prevented the increase in MDA and hydroperoxides after asphyxia. Allopurinol maintained low concentrations of MDA and hydroperoxides after asphyxia. Both ibuprofen and allopurinol prevented the postasphyxial changes in the b-wave amplitude and diminished the delay in implicit time observed after asphyxia in saline-treated pigs. Our findings suggest that in the retina after asphyxia free radicals appear to originate primarily from the cyclooxygenase pathway and contribute to the deterioration in retinal electrophysiologic function of the newborn animal. Cyclooxygenase inhibitors, like free radical scavengers, may protect retinal function from deteriorating after oxidative stresses.

online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=8479812&dopt=Abstract

Rinsho Byori. 1997 Nov;45(11):1062-6.
[Determination of uric acid in scalp hair for non-invasive estimation of uricemic control in hyperuricemia]

[Article in Japanese]

Kobayashi K, Morioka Y, Isaka Y, Tozawa T.

Diagnostic Science Division, Shionogi & Co., Ltd., Settsu.

Uric acid in blood has been widely accepted as a reliable indicator of hyperuricemia and gout, and its assay method has been established. In the present study, we developed a simple and non-invasive rapid method for the determination of uric acid in hair. Concentration(nmol/mg hair) of uric acid extracted from 10-20 mg of hair(95% < extractability; 0.1N KOH, 37 degrees C, 2 hr) was determined by an enzymatic method using uricase. The concentration of uric acid(nmol/mg hair, mean +/- SD: 0.489 +/- 0.157, n = 16) in hair from hyperuricemic patients was significantly higher than that(0.258 +/- 0.107, n = 8) from healthy volunteers(p < 0.01). Within-run and between-day precisions(reproducibilities, CVs) for the assay were 9.6-10.3%(n = 10 each) and 11.6-16.3%(n = 7 each), respectively. The concentration(y, nmol/mg hair) of uric acid in hair correlated well with that in blood(x, g/l): y = 8.770x-0.123(r = 0.746, Syx = 0.122, n = 23). Changes in the concentration of uric acid in hair of hyperuricemic patient treated with allopurinol paralleled to those in blood. In conclusion, it was confirmed that the concentration of uric acid in hair reflected that in blood, suggesting that measuring uric acid in hair can be available for the metabolic control in hyperuricemia.

online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=9396346&dopt=Abstract

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