Carbazochrome attenuates pulmonary dysfunction induced by a radiographic contrast medium in rats.

The effects of carbazochrome sodium sulfonate (AC-17), a capillary stabilizer, on pulmonary edema and dysfunction induced by ioxaglate, an ionic radiographic contrast medium, were evaluated in rats. The pulmonary edema was evaluated by the extravasation of intravenously injected Evans blue into lung tissues, while pulmonary dysfunction was determined by monitoring blood gasses including pO(2). Ioxaglate (4 g I/kg, i.v.) caused a marked increase in vascular permeability and a decrease in arterial pO(2). AC-17 reversed the ioxaglate-induced vascular hyperpermeability in a dose-dependent manner. In addition, AC-17 (10 mg/kg) significantly inhibited the decrease in arterial pO(2). In isolated rat pulmonary mast cells, ioxaglate markedly enhanced the histamine release, which was not affected by AC-17. On the other hand, AC-17 did significantly blocked the hyperpermeability induced in cultured bovine endothelial cells by tryptase, thrombin and proteinase-activated receptor-2 agonist peptide (SLIGKV-NH(2)). These findings suggest that AC-17 blocks radiographic contrast medium-induced pulmonary dysfunction by maintaining the endothelial barrier function. Thus, the compound is potentially useful for the prophylaxis of contrast media-induced acute pulmonary adverse events during angiography.

Differential effects of radiocontrast agents on human umbilical vein endothelial cells: cytotoxicity and modulators of thrombogenicity.

UNLABELLED: The endothelium plays a central role in the regulation of blood flow and coagulation. The impact of radiocontrast agents on endothelial cells is therefore potentially clinically important, particularly in percutaneous interventions for acute coronary thrombosis. The effects of radiocontrast agents on endothelial cell viability and determinants of thrombogenicity were studied in human umbilical vein endothelial cells (HUVECs) in vitro. Intercellular tight junctions were assessed using immunofluorescence microscopy and measurement of the transmonolayer electrical resistance (TMR). The concentrations of endothelin-1 (E), von Willebrand factor (vWF), plasminogen activator inhibitor-1 (PAI-1) and thrombomodulin (T) were measured in the cell culture media. The ionic, high osmolal radiocontrast agent diatrizoate induced concentration-dependent cell death and an opening of tight junctions with the attendant abolition of the TMR. The concentration of E decreased, vWF increased in the cell culture media, the concentration of PAI-1 and T was not significantly changed by diatrizoate. Radiocontrast agents with reduced osmolality (ioxaglate: ionic; iopamidol: non-ionic) induced an increase in PAI-1 and vWF, but E and T were not significantly changed. CONCLUSIONS: Radiocontrast agents have differential effects on endothelial cells in vitro including the secretion of modulators of thrombogenesis. The effects are most pronounced in the markedly hyperosmolal compound diatrizoate suggesting a contributory role of hypertonicity. Ioxaglate and iopamidol both increased the prothrombotic factors vWF and PAI-1 to the same degree indicating a similar risk of thrombogenicity between low-osmolal ionic and non-ionic radiocontrast agents in this in vitro model.

The multipotential pseudoantigenicity of X-ray contrast media. Pseudoantigen excess may downregulate the release of hypotensive mediators.

BACKGROUND: X-ray contrast media (CM) toxicity resembles IgE-antigen-based anaphylaxis, and CM-related histamine release has been demonstrated in vitro and in vivo. While nobody has succeeded in producing antibodies against injections of neat CM, the ability of CM to compete with a series of antigens against their respective antibodies has recently been demonstrated. However, there is a paradox, since the CM with the strongest antibody binding are nevertheless the least likely to provoke antigen-antibody-related mast cell/basophil release. METHODS: Two strains of rats were subjected to (a) passive cutaneous anaphylaxis (PCA) studies in the presence of various concentrations of CM, (b) blood pressure (BP) tracings following bolus administrations of various prototypical CM and (c) BP tracings in ovalbumin (OVA)-sensitized rats, challenged with OVA plus CM, vs. OVA plus CM-equivalent saline. RESULTS: In the PCA studies, and the OVA challenge studies, the CM appear to act in an antigen excess mode, limiting the potential of the OVA to elicit anaphylactic changes, as demonstrated by permeability studies or by BP levels. The bolus CM studies demonstrate that the more potent CM 'antigens' actually produce an increase in BP and the less potent CM 'antigens', a drop in BP. These changes can be related to the CM acting in an 'antigen' excess mode vs. an 'antigen' equivalent mode. CONCLUSIONS: The CM have the potential to act in an 'antigen' excess or 'antigen'-equivalent mode. The potential to express an 'antigen'-excess mode in vivo, may be unique to CM because of the high concentrations injected.

Role of hemolysis in potassium release by iodinated contrast medium.

It has been demonstrated that an iodinated contrast medium (CM) causes release of potassium into blood vessel lumina, resulting in an increase in serum potassium. The purpose of the present study was to assess whether this potassium release is due to hemolysis. Fresh human blood was mixed in vitro with CM at a ratio of 10:2. Potassium release rates were determined, and serum haptoglobin and free hemoglobin were measured after 30 min of exposure to CM. To compare the potassium release curve between CM exposure and true hemolysis induced by distilled water, fresh human blood was also mixed with distilled water. The level of serum haptoglobin decreased due to hemodilution. Changes in haptoglobin were not correlated with potassium release rates. The serum free hemoglobin level did not increase significantly, and there was no correlation between changes in the free hemoglobin level and the rate of potassium release. Hemolysis caused by water occurred instantaneously, whereas potassium release caused by CM was a slow response, which was linearly correlated with exposure time. Potassium release from blood cannot be explained by hemolysis.

Contrast medium-induced pulmonary edema is aggravated by silicone contamination in rats.

PURPOSE: To examine the effect of silicone contamination, which occurs in clinical settings during vial preparation with disposable syringes, on contrast medium-induced pulmonary edema in rats. MATERIALS AND METHODS: Ioxaglate, ioversol, and iohexol, silicone-containing physiologic saline solutions, and three silicone-containing contrast media were separately, intravenously injected at 1.5 mL/min in rats. Pulmonary edema was evaluated as changes in the relative lung weight and in the water, sodium, and potassium contents of the lung. RESULTS: Intravenous injection of ioxaglate induced marked pulmonary edema, even with a dose of only 4 g of iodine per kilogram of body weight. In contrast, ioversol and iohexol induced significant pulmonary edema only after the injection of large doses (6 g of iodine per kilogram; P < .05). The injection of 4 microL/mL silicone-containing physiologic saline at a dose of 18.75 mL/kg also produced marked pulmonary edema, whereas doses of 6.25 and 12.5 mL/kg showed no significant influence. The addition of an ineffective dose (12.5 mL of physiologic saline per kilogram of body weight) of silicone in contrast medium substantially aggravated the pulmonary edema induced by the contrast medium alone; this phenomenon was also confirmed with morphologic observation. CONCLUSION: Ionic contrast media are more toxic to the endothelial cells than are nonionic contrast media. Silicone contamination might be one of the causes of pulmonary edema after intravenous injection. However, caution must be exercised in extrapolating these results to humans.

Injection of low and iso-osmolar contrast medium decreases oxygen tension in the renal medulla.

The oxygen tension (PO2) in the renal cortex and outer renal medulla in 26 rats was studied by use of oxygen microelectrodes before and after injection of x-ray contrast media (CM). The CM, iopromide, ioxaglate and iotrolan were administrated intravenously in iodine equivalent doses (1,600 mg iodine/kg body wt). Ringer's solution was used as the control. In the outer medulla, all three CM induced a decrease in PO2: iopromide (N = 6) from 30 +/- 3 to 18 +/- 4 mm Hg; ioxaglate (N = 7) from 32 +/- 6 to 15 +/- 4 mm Hg; and iotrolan (N = 6) from 36 +/- 3 to 14 +/- 4 mm Hg. All these decreases were significant. After the injection of Ringer's (N = 7) there was an increase from 34 +/- 3 to 35 +/- 3 mm Hg. In the cortex a slight decrease was noted for injection of CM, but this was significant only after injection of iotrolan. All tested contrast media decrease PO2 in the outer renal medulla, which may partly explain contrast medium-induced acute renal failure.

Comparative cytotoxicity of low- and high-osmolar contrast media to human fibroblasts and rat mesangial cells in culture.

RATIONALE AND OBJECTIVES: The authors investigate the relative sensitivity of rat mesangial cells to iodinated contrast media (CM) and control solutions versus less differentiated cells (ie, human fibroblasts) and compare the effects of low-osmolar ionic (ioxaglate) and nonionic (iopamidol) and high-osmolar ionic (diatrizoate) CM on rat mesangial cells. METHODS: The cytotoxic effects of ioxaglate and control solutions of sodium chloride and mannitol were assessed by neutral red uptake in isolated rat mesangial cells and human fibroblasts. In a second series of studies, the cytotoxic effects of ioxaglate, iopamidol, and diatrizoate (0 to 100 mg I/mL) on rat mesangial cells were compared. RESULTS: Rat mesangial cells were more sensitive to the cytotoxic effects of ioxaglate than the less differentiated human fibroblasts between 70 and 100 mg I/mL. A similar discrepancy was observed in the case of control solutions, sodium chloride, and mannitol. Ioxaglate and iopamidol induced a similar level of cytotoxicity in rat mesangial cells whereas the high-osmolar agent diatrizoate was significantly more cytotoxic. However, the calculated inhibitory concentrations of 50% of all three CM were associated with similar osmolalities, suggesting a major role for this parameter in the case of such media. CONCLUSIONS: Rat mesangial cells are more sensitive to the cytotoxic effects of CM and hyperosmolar solutions than the less differentiated human fibroblasts. High-osmolar CM are more cytotoxic than ionic and nonionic low-osmolar CM to rat mesangial cells. Ionicity seems to play no deleterious role at similar iodine concentrations because ioxaglate and iopamidol had equivalent cytotoxic effects on mesangial cells.

[Contrast-associated nephrotoxicity: ultrastructural and biochemical study in diabetic rats].

The present study was conducted to determine whether or not the pathologic state of diabetic mellitus serves as a risk factor for the induction of nephropathy by iodinated contrast medium (CM). CM was injected into experimentally induced diabetic rats showing early diabetic nephropathy and these animals were compared with normal rats administered CM. Various types of CM were injected into diabetic rats, and nephropathy was studied morphologically and biochemically. Electron microscopic ultrastructural study revealed vacuolar formation in the cytoplasm of the proximal tubular epithelial cells (PT cells) in both groups. However, some of these changes occurred less frequently in the diabetic group. In the diabetic group, activation of glomerular mesangial cells other than PT cells was observed with amidotrizoate, and retentive deposits in the mesangial areas were found with iopamidol. Biochemical study revealed abnormal values suggesting impaired PT cells in both the diabetic and normal groups. These findings corresponded to the results of electron microscopic ultrastructural observation. The above results suggested the possible occurrence of CM-associated nephrotoxicity in the pathologic stage of diabetic mellitus, even in mild nephropathy.

Selective coronary artery perfusion in vitro: a method to study cardiac effects of contrast media.

RATIONALE AND OBJECTIVES: The authors evaluated selective perfusion of the coronary arteries in the isolated rat heart as a model for studying contrast medium-induced cardiac effects and compared the effects of iodixanol, iotrolan, and ioxaglate with this model. MATERIALS AND METHODS: Isolated, spontaneously beating rat hearts were used. Control hearts were perfused in the Langendorff or the selective perfusion mode receiving Krebs Henseleit buffer. Contrast media were injected selectively into the left coronary artery. Left ventricular pressure and electrocardiographic parameters were monitored continuously throughout the experiments. RESULTS: The stability of the selective perfusion preparation was similar to that of the conventional Langendorff preparation. Ioxaglate (0.3 g iodine per kilogram body weight) significantly (P < .05) depressed left ventricular contractility and decreased (P < .05) left ventricular pressure. Iodixanol and iotrolan had minor cardiac effects. CONCLUSION: Selective coronary artery perfusion seems to be a suitable model for studying direct cardiac effects of contrast media. The nonionic dimers, iodixanol and iotrolan, induce only minor changes in cardiac function.

Do iodinated contrast media increase serum potassium levels?

PURPOSE: To test the hypothesis that iodinated contrast media may induce an elevation in serum potassium level. MATERIALS AND METHODS: Protocol A: After intravenous infusion of contrast media into six rabbits, alterations of potassium ion concentrations were measured. Protocol B: Fresh rabbit blood was mixed in vitro with contrast media, and the fluctuations in potassium were monitored over a 30-minute period. Protocol C: Similar to protocol B, except that blood from humans with no reaction to contrast media was used. RESULTS: For protocol A, blood potassium levels increased above baseline levels. The elevations were statistically significant (P < .05). For protocol B, diatrizoate and ioxaglate caused a gradual increase in blood potassium levels, but iopamidol did not. In protocol C, all three contrast media caused statistically significant elevation in potassium levels. The release of potassium was statistically significant at 5 minutes (P < .05 for diatrizoate and ioxaglate, and P < .01 for iopamidol). The mean release rates (+/- standard deviation) by means of linear regression analysis were 0.0190 mmol/min +/- 0.0112 with diatrizoate, 0.0159 mmol/min +/- 0.0057 with iopamidol, and 0.0088 mmol/min +/- 0.0033 with ioxaglate. CONCLUSION: Iodinated contrast media increase blood potassium levels causing release of potassium into intravascular spaces. This potassium release may play some role in contrast medium-induced adverse reactions.

Cardiac and hemodynamic tolerability of iodinated contrast media in the anesthetized rat.

RATIONALE AND OBJECTIVES: The study was designed to compare the hemodynamic effects of 11 iodinated contrast media (CM), including ionic (diatrizoate, ioxaglate), nonionic monomeric (iohexol, iopromide, iopamidol, iopentol, ioversol, iomeprol, ZK 139129), and nonionic dimeric (iotrolan, iodixanol) compounds. METHODS: Following left ventricular bolus injection of 1.2 g I/kg body weight in anesthetized rats, cardiohemodynamic parameters were measured. RESULTS: Compared with the control group, except for blood pressure (BP), all CM showed a similar response regarding the direction of the cardiohemodynamic changes after CM injection. A biphasic change in BP was observed for diatrizoate and iodixanol, whereas all other CM showed a transient increase in BP being most pronounced for ioxaglate. No arrhythmias were detected. The increase in LVEDP was lowest for the isotonic dimeric CM iotrolan and iodixanol. CONCLUSIONS: Only mild transient side effects were observed. Low osmolar, especially isotonic, dimeric CM show a clear benefit regarding cardiovascular side effects.

Comparative effects of low- and high-osmolar contrast media on the renal function during early degenerative gentamicin-induced nephropathy in rats.

The nephrotoxic potentials of a high-osmolar contrast medium, diatrizoate, and of a low-osmolar contrast medium, ioxaglate, were compared during early degenerative gentamicin-induced nephropathy in the rat. Male rats (13-22/group) were uninephrectomized. Six days later, the aorta was clamped above the renal artery, and either diatrizoate or ioxaglate was administered (1 ml/min for 3 min) via an aortic puncture into the remaining kidney. Some of the rats received chronic treatment with gentamicin (50 mg/kg/day i.m., 4 days), starting 2 days before and ending 1 day after contrast medium administration. Two control groups, only one of which received gentamicin, were subjected to a 3-min renal ischemia. The creatinine clearance (CrCl) per 100 g body weight was determined before and 24 and 48 h after contrast medium injection. A second study (6 rats/group) evaluated urinary N-acetyl-beta-D-glucosaminidase (NAG) excretion and the histologic appearance of the kidneys (blinded analysis) in the same experimental groups. Gentamicin induced a significant decrease in CrCl at baseline (0.35 +/- 0.19 vs. 0.41 +/- 0.19 ml/min; p < 0.01) and an increase in urinary NAG (128 +/- 92 vs. 39 +/- 57 mumol/h/mmol creatinine; p < 0.01). Taking into account these differences at baseline, univariate repeated-measures analysis showed that on day 1 diatrizoate caused a more marked decrease in CrCl than ioxaglate (p < 0.05), whether or not gentamicin was also administered. On day 2, the depressant effect of diatrizoate associated with gentamicin persisted (CrCl vs. day 0 = -0.19 +/- 0.10 ml/min), while that of diatrizoate alone returned to baseline (-0.05 +/- 0.24 ml/min).(ABSTRACT TRUNCATED AT 250 WORDS)

[The preventive effect of calcium-channel blockers (nifedipine, verapamil) on the tubular toxicity of radiographic contrast media (Verografin, Hexabrix)]. / Preventivní vliv blokátoru Ca-Kanálu (Nifedipin, Verapamil) na tubulární toxicitu rtg kontrastních látek (Verografin, Hexabrix).

The authors investigated the nephrotoxic effect of the high-osmolar X-ray contrast medium (diatrizoate) and low-osmolar contrast medium (ioxaglate) and attempted to influence it by Ca channel blockers (nifedipine and verapamil). The criterium of tubular toxicity was the monitoring of urine wastes of tubular enzymes--alkaline phosphatase (ALP), gamma glutamyl transferase (GMT) and N-acetyl-beta-D-glucosaminidase (NAG). As criterium of glomerular functions he authors assessed the endogenous creatinine clearance. The experiments were made on outbred male rats Wistar strain for a total of 7 days following administration of the contrast medium. In animals to whom contrast medium only was administered a significant increase of urine waste of the investigated enzymes was observed. Maximum changes were recorded in the excretion of brushborder enzymes. Diatrizoate caused a significantly higher increase of enzymuria than ioxaglate. Administration of Ca channel blockers significantly reduced this rise of enzymuria, but the authors were unable to eliminate this rise completely. There were no statistically significant differences between the action of nifedipine and verapamil.

Modulation of the renal effects of contrast media by endothelium-derived nitric oxide in the rat.

RATIONALE AND OBJECTIVES: A possible involvement of endothelium derived relaxing nitric oxide (NO) in the pathogenesis of iodinated contrast media (CM)-induced nephrotoxicity was investigated in the rat. METHODS: Male rats (6 to 12 per group) were uninephrectomized. Six days later, the aorta was clamped above the renal artery and a low-osmolar contrast medium (CM), ioxaglate, was injected (1 mL/min; 3 minutes) via an aortic puncture in the single remaining kidney. Contrast medium was injected with or without the NO-synthase inhibitor L-NAME (100 mg/kg intravenously [i.v.] 5 minutes before CM). One group received L-Arginine, the physiological precursor of NO (100 mg/kg i.v.), 5 minutes before L-NAME. Phenylephrine (300 micrograms/kg; 30 min) was used as a vasoconstrictive NO-independent control. The effects of iohexol, another low-osmolar CM, on creatinine clearance (CrCl) were also studied with and without pretreatment with L-NAME. A control group was subjected to a 3-minute renal ischemia only. Creatinine clearance and urinary N-acetyl-beta-D-glucosaminidase (NAG) excretion were determined before, and 24 and 48 hours after CM administration. Blinded histologic analysis was carried out after completion of the study. RESULTS: When administered alone, neither L-NAME nor L-arginine modified CrCl. Ioxaglate mildly but significantly decreased CrCl at 24 hours (-26.5% of preinjection value). This was similar to the effect observed in the control group subjected to ischemia only. When associated with L-NAME, ioxaglate markedly decreased CrCl (-58 + 11% at 24 hours, P < .05 vs. ioxaglate alone). A similar interaction was noted in the case of iohexol. L-NAME also markedly increased ioxaglate-induced urinary NAG excretion. Phenylephrine had a similar impact on renal function. L-arginine pretreatment reduced the increase in serum creatinine induced by L-NAME+ioxaglate (68 + 17 mumol/L vs. 175 + 59 mumol/L for L-NAME+ioxaglate; P < .05) and urinary NAG excretion. Ioxaglate alone induced only tubular epithelial vacuolization. When associated with L-NAME, this CM induced tubular and vascular lesions, as well as necrosis in the outer medulla. Such histologic effects were clearly inhibited by L-arginine. CONCLUSION: These data indicate that L-NAME, a specific inhibitor of NO-synthase, and phenylephrine, accentuate the nephrotoxicity of CM in the rat. This is consistent with results from the literature showing that CM-toxicity is enhanced by renal ischemia.