References
- Otnes B. Correlation between causes and composition of urinary stones. Scand J Urol Nephrol 1983; 17: 93–98
- Abraham P A, Smith CC. Medical evaluation and management of calcium nephrolithiasis. Med Clin North Am 1984; 68: 281
- Kawoda T, Noda S, Eto K. Electron microscopic studies on the mechanism of renal stone formation with special reference to changes in the proximal tubular lumen. Jpn J Urol 1975; 66: 445
- Finlayson B, Reid F. The expectation of free and fixed particles in urinary stone disease. Invest Urol 1978; 15: 442–451
- Strezelecki T, McGraw B R, Scheid C R, Mani Menon. Effect of oxalate on function of kidney mitochondria. J Urol 1989; 141: 423–427
- Borsatti A. Calcium oxalate nephrolithiasis: defective oxalate transport. Kidney Int 1991; 39: 283–298
- Khan S R, Hackett R L, Finlayson B, Konick JR. Light and scanning electron microscopic studies of oxamide urolithiasis in rats. Soan Electron Microsc 1981; 3: 155
- Khan S R, Finlayson B, Hackett RL. Experimental calcium oxalate nephrolithiasis in the rat: role of renal papilla. Am J Pathol 1982; 107: 59–69
- Hackett R L, Shevock P N, Khan SR. Cell injury associated calcium oxalate crystalluria. J Urol 1990; 144: 1535–1538
- Ravichandran V, Selvam R. Lipid peroxidation in subcellular fractions of liver and kidney of vitamin B6 deficient rats. Med Sci Res 1990; 18: 369–371
- Selvam R, Kannabiran K. Induction of oxalate binding by dehydroascorbic acid feeding in rat kidney. Nutr Res 1993; 13: 667–676
- Halliwell B, Gutteridge JMC. Free Radicals in Biology and Medicine, B Halliwell, JMC Gutteridge. Clarendon Press, Oxford 1985
- Selvam R, Ravichandran V. Effect of oral methionine and vitamin E on blood lipid peroxidation in vitamin B6 deficient rats. Biochem Int 1991; 23: 1007–1017
- Selvam R, Ravichandran V. Restoration of tissue antioxidants and prevention of renal stone deposition in vitamin B6 deficient rats fed with vitamin E or methionine. Ind J Exp Biol 1993; 31: 882–887
- Khan S R, Shevock P N, Hackett RL. Urinary enzymes and calcium oxalate urolithiasis. J Urol 1989; 142: 846–849
- Meister A. Glutathione deficiency produced by inhibition of its biosynthesis and its reversal: applications in research and therapy. Pharmacol Ther 1991; 51: 155–194
- Devasagayam TPA. Lipid peroxidation in rat uterus. Biochim Biophys Acta 1986; 876: 507–514
- Orlowski M, Meister A. Isolation of gammaglutamyl transpeptidase from dog kidney. J Biol Chem 1965; 240: 338–347
- King J. The hydrolases-acid and alkaline phosphatase. Practical Clinical Enzymology, D Van. Nostrand, London 1965; 191–208
- Biber J, Stieger B, Haase W, Murer A. A high yield preparation for rat kidney brush border membranes: different behaviour of lysosomal markers. Biochim Biophys Acta 1981; 647: 169
- Winzler R J. Determinations of serum glycoprotein. Methods of Biochemical Analysis, D Chick. Interscience, New York 1955; 2: 279–312.
- Whiteman P. A quantitative measurement of Alcian blue-glycosaminoglycans complexes. Biochem J 1973; 131: 343–350
- Hwang I S, Preminger G M, Poindexter J, Pak CY. Urinary glycosaminoglycans in normal subjects and patients with stones. J Urol 1988; 139: 995–997
- Muthukumar A, Selvam R. Prevention of renal oxalate retention by glutathione monoester in glutathione depleted hyperoxaluric rats. Submitted for publication
- Selvam R, Biji Kurien T. Induction of lipid peroxidation by oxalate in experimental rat urolithiasis. J Biol Sci 1987; 12: 367–373
- Gessner P K, Parke D V, Williams RT. Studies in detoxification. The metabolism of 14C labelled ethylene glycol. Biochem J 1961; 79: 482–489
- Jung K, Schulze B D, Sydow K. Diagnostic significance of different urinary enzymes in patients suffering from chronic renal diseases. Clin Chim Acta 1987; 168: 287
- Ohata H, Momose K, Takahashi A, Omori Y. Urinalysis for detection of chemically induced renal damage changes in urinary excretions of enzymes and various components-caused by mercuric chloride and gentamicin. J Toxicol Sci 1987; 12: 341
- Le Hir M, Dubach UC, Schmidt U. Quantitative distribution of lysosomal hydrolases in the rat nephron. Histochemistry 1979; 63: 245
- Guder W G, Ross BD. Enzyme distribution along the nephron. Kidney Int 1984; 26: 101
- Padmaja T C, Varalakshmi P. Urinary enzymes in experimental calcium oxalate lithiasis and effect of L(+)- tartarate. Med Sci Res 1989; 17: 589–590
- Khan S R, Hackett RL. Hyperoxaluria, enzymuria and nephrolithiasis. Contr Nephrol 1993; 101: 190–193
- Norman R W, Scurr D S, Robertson W G, Peacock M. Inhibition of calcium oxalate crystallisation by pentosan polysulfate in control subjects and stone formers. Br J Urol 1984; 56: 594–598
- Trinchieri A, Mandressi A, Luongo P, Longo G, Pisani E. The influence of diet on urinary risk factors for stones in healthy subject and idiopathic renal calcium stone formers. Br J Urol 1991; 67: 230–236
- Singh P P, Pendse A K, Raj Kiran, Partani B. Diurnal variations and 24 hour urinary excretions of mucoprotein and Tamm Horsfall protein in renal stone patients. Ind J Clin Biochem 1993; 8: 54–58
- Casini A F, Maellaro E, Pompella A, Ferrali M, Comporti M. Lipid peroxidation, protein thiols and calcium homeostasis in bromobenzene-induced liver damage. Biochem Pharmacol 1987; 36: 3689–3695
- Comporti M, Pompella A. Toxicological significance of free radicals. Free Radicals in the Environment, Medicine and Toxicology, H Nahl, H Esterbauer, C Rice-Evans. Richelieu Press, London 1994; 97–117.
- Player T J, Hultin HO. The effect of lipid peroxidation on calcium-accumulating ability of the microsomal fraction isolated from chicken breast muscle. Biochem J 1978; 174: 17–22
- Sohirmer HKA, Stenersen RW, Jackson MP. The influence of renal ischemia on oxamide nephrolithiasis. Invest Urol 1969; 7: 329–332