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Renal Failure Volume 14, 1992 - Issue 4
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Original Article

Contrast Media Nephrotoxicity: Comparison of Diatrizoate, Ioxaglate, and Iohexol After Intravenous and Renal Arterial Administration

Dimitrios Koutsikos Nephrological Center, Hormonological Laboratory, and X-Ray Department Aretaieon, University Hospital University of Athens, Athens, Greece
,
Irene Konstadinidou Nephrological Center, Hormonological Laboratory, and X-Ray Department Aretaieon, University Hospital University of Athens, Athens, Greece
,
Dimitrios Mourikis Nephrological Center, Hormonological Laboratory, and X-Ray Department Aretaieon, University Hospital University of Athens, Athens, Greece
,
Dimitrios Rizos Nephrological Center, Hormonological Laboratory, and X-Ray Department Aretaieon, University Hospital University of Athens, Athens, Greece
,
Antigoni Kapetanaki Nephrological Center, Hormonological Laboratory, and X-Ray Department Aretaieon, University Hospital University of Athens, Athens, Greece
,
Basil Agroyannis Nephrological Center, Hormonological Laboratory, and X-Ray Department Aretaieon, University Hospital University of Athens, Athens, Greece
&
Lambros Vlachos Nephrological Center, Hormonological Laboratory, and X-Ray Department Aretaieon, University Hospital University of Athens, Athens, Greece
 show all
Pages 545-554 | Published online: 07 Jul 2009

References

  • Jacobson P D, Rosenquist CJ. The introduction of low-osmolar contrast agents in radiology: medical, economic, legal and public policy issues. JAMA 1988; 260: 1586–1592
  • Golman K, Almen T. Contrast media induced nephrotoxicity: survey and present state. Invest Radiol 1985; 20: 592–597
  • Humes H D, Cieslinski D A, Messana JM. Pathogenesis of radiocontrast-induced acute renal failure: comparative nephrotoxicity of diatrizoate and iopamidol. Diagn Imag 1987; 9(May)12–18, Suppl
  • Khoury G A, Hopper J C, Varghese Z, Farrington K, Dick R, Irving J D, Sweny P, Fernando O M, Moorhead JF. Nephrotoxicity of ionic and nonionic contrast material in digital vascular imaging and selective renal arteriography. Br J Radiol 1983; 56: 631–635
  • Levorstad K, Kolbenstvedt A, Loyning EW. lohexol compared with metrizoate in urography. Acta Radiol (Diagn) 1983; 24: 337–342
  • Tornquist C, Holtas S. Renal angiography with iohexol and metrizoate. Radiology 1984; 150: 331–334
  • Bani E, Federighi F, Ghio R. The use of iohexol in pediatric urography. A comparative study with meglumine diatrizoate. Int J Pediatr Nephrol 1985; 6: 271–274
  • Smith H J, Levorstad K, Berg KH. High dose urography in patients with renal failure: a double-blind investigation of iohexol and metrizoate. Acta Radiol (Diagn) 1985; 26: 213–220
  • Schwab S J, Hlatky M A, Pieper K S, Davidson C J, Morris K G, Skelton T N, Bashore TM. Contrast nephrotoxicity: a randomised controlled trial of a nonionic and an ionic radiographic contrast agent. N Engl J Med 1989; 320: 149–153
  • Davidson C J, Hlatky M, Morris K G, Pieper K, Skelton T N, Schwab S J, Bashore TM. Cardiovascular and renal toxicity of a nonionic radiographic contrast agent after cardiac catheterization. A prospective trial. Ann Int Med 1989; 110: 119–124
  • Rarfrey P S, Griffiths S M, Barret B J, Paul M D, Genge M, Withers J, Farid N, McManamon PJ. Contrast material-induced renal failure in patients with diabetes mellitus, renal insufficiency, or both. N Engl J Med 1989; 320: 143–149
  • Jenvicar A M, Finnie K JC, Dennis B, Plummer D T, Aville A, Linton AL. Nephrotoxicity of high and low osmolality contrast media. Nephron 1988; 48: 300–305
  • Nora N, Berns A. Renal failure following cardiac angiography: a prospective study of diatrizoate and iopamidol (abstract). Kidney Int 1989; 35: 414
  • Yatzidis H. Improved method for determination of the “true” creatinine. Clin Chem 1982; 28: 252
  • Yatzidis H. An improved biuret reagent. Clin Chem 1977; 23: 908
  • Davey P G, Goshing P. β2-Microglobulin instability in pathological urine. Clin Chem 1982; 28: 1330–1333
  • Hou S H, Bushinsky D A, Wish J B, Cohen J J, Harrington JT. Hospital acquired renal insufficiency: a prospective study. Am J Med 1983; 74: 243–248
  • Berns AS. Nephrotoxicity of contrast media. Kidney Int 1989; 36: 730–740
  • Diaz-Buxo J A, Wagoner R D, Hattery R R, Palumbo PJ. Acute renal failure after excretory urography in diabetic patients. Ann Intern Med 1975; 83: 155–158
  • Donadio C, Tramonti G, Giordani R, Lucchetti A, Calderazzi A, Bassani L, Bianchi C. Effects on renal hemodynamics and tubular function of the contrast medium iohexol in renal patients. Renal Failure 1990; 12: 141–146
  • Vari R C, Natarajan L A, Whitescarver S A, Jackson B A, Ott CE. Induction, prevention and mechanisms of contrast media-induced acute renal failure. Kidney Int 1988; 33: 699–707
  • Moreau J F, Droz D, Noel L H, Leibowitch J, Jungers P, Michel JR. Tubular nephrotoxicity of water-soluble iodinated contrast media. Invest Radiol 1980; 15: 554–560, suppl
  • Mudge GH. Nephrotoxicity of urographic radio contrast drugs. Kidney Int 1980; 18: 540–725
  • Caldicott W, Hollenberg N K, Abrams HL. Characteristics of response of renal vascular bed to contrast media. Invest Radiol 1970; 5: 539–547
  • Larson T S, Hudson K, Mertz J I, Romero J C, Knox FG. Renal vasoconstriction response to contrast media. The role of sodium balance and the renin-angiotensin system. J Lab Clin Med 1983; 101: 385–391
  • Lund G, Einzing Rysavy S. J., Salomonowitz E, Castaneda-Zuniga W, Amplatz K. Effect of prostaglandin inhibition on the renal vascular response to ionic and nonionic contrast media in the dog. Acta Radiol Diagn 1984; 25: 407–410
  • Bakris G L, Burnett JC. A role for calcium in radiocontrast-induced reduction in renal hemodynamics. Kidney Int 1985; 27: 465–468
  • Russo D, Testa A, Delia Volpe L, Samsone G. Randomised prospective study on renal effects of two different contrast media in humans: protective role of a calcium channel blocker. Nephron 1990; 55: 254–257
  • Neumayer H H, Wagner K. Prevention of delayed graft function in cadaveric kidney transplants by diltiazem. Outcome of two prospective randomized clinical trails. J Cardiov Pharmacol 1987; 10: 5170–5177
  • Frei U, Markreiter R, Harms A, et al. Preoperative graft reper-fusion with a calcium antagonist improves initial function: preliminary results of a prospective randomised clinical trial in 110 kidney recipients. Transplant Proc 1987; 19: 3539–3541
  • Neumayer H H, Junye W, Kufner A, Wenning A. Prevention of radiocontrast-media-induced nephrotoxicity by the calcium channel blocker nitrendipine: a prospective randomised clinical trial. Nephrol Dial Transplant 1989; 4: 1030–1036
  • Lee S M, Pattison M E, Michael UF. Nifedipine protects against aminoglycoside nephrotoxicity in the rat. J Cardiov Pharmacol 1987; 9: 565–569
  • Sumpio B E, Baue A E, Chandry IH. Alleviation of cyclosporin nephrotoxicity with verapamil and ATP-MgCl2. Ann Surg 1987; 655–660
  • Katzberg R W, Morris T W, Lasser E C, et al. Acute systemic and renal hemodynamic effects of meglumine/sodium diatrizoate 76% and iopamidol in euvolemic and dehydrated dogs. Invest Radiol 1986; 21: 793–797
  • Cacoub P, Deray G, Baumelou A, Jacobs C. Nephrotoxicity of low osmolar radiocontrast agents in patients with chronic renal failure. Nephron 1988; 48: 324–325
  • Karlsson F A, Wibell L, Evrin PE. Microglobulin in clinical medicine. Scand J Clin Lab Invest 1980; 40: 27–37
  • Weise M, Prufer D, Jaques G, Keller M, Mondorf AW. β2-Microglobulin and other proteins as parameters of tubular function. Contrib Nephrol 1983; 24: 88–98
  • Fang L ST, Sirota R A, Ebert T M, Lichtenstein NS. Low fractional excretion of sodium with contrast media-induced acute renal failure. Arch Int Med 1980; 140: 531–533
  • Slasky B S, Lenkey TL. Acute renal failure, contrast media, and computer tomography. Urology 1981; 18: 309–313
  • Amiel M. Contrast Media in Radiology: Appraisal and Prospects. Proceedings of First European Workshop, Lyon. Springer-Verlag, Berlin 1981; 193–200
  • Holtas S, Billstrom A, Tejler L. Proteinuria following nephroan-giography. Chemical and morphologic analysis in dogs. Acta Radiol Diagn 1981; 22: 427–432
  • Weiner IM. Organic acids and bases and uric acid. The Kidney, Physiology and Pathophysiology, DW Seldin, G Giebish. Raven Press, New York 1985; 1703

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