Electrolyte addition to nonionic contrast media. Cardiac effects during experimental coronary arteriography.

Acta radiologica. Supplementum Pub Date : 1996-01-01
H K Pedersen
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Abstract

Although the incidence of serious adverse effects is low during clinical coronary arteriography, life-threatening cardiovascular complications occasionally occur. Ventricular fibrillation (VF) is most often seen during contrast media (CM) injection through a wedged catheter. A simulated wedged catheter model in dogs has therefore been developed. Further, patients with heart failure are at greater risk for CM-related side effects during coronary arteriography. Thus, an acute ischemic heart failure model has been used. The present thesis was designed to investigate the cardiac electrophysiologic and hemodynamic effects of CM during selective coronary arteriography in normal and failing hearts, and in particular the role of electrolyte addition to nonionic CM. The risk of spontaneously induced VF and the arrhythmogenic mechanisms were studied when using iso-osmolal and low-osmolal CM having different contents of electrolytes, and after pretreatment with antiarrhythmic drugs. Further, effects of adding electrolytes to nonionic CM during single and fast repeated injections in normal and failing hearts were studied. Also possible effects of oxygenating CM were studied. CM injection in a wedged catheter situation had a high risk for VF. Probably, VF was due to induced regional electrophysiologic changes in ventricular activation and repolarization. Pretreatment with antiarrhythmic drugs did not prevent VF. However, addition of low concentrations of electrolytes to nonionic CM reduced the risk for VF in a wedged catheter situation. The results indicate that side-effects of CM during coronary arteriography are related mainly to the passive washout of cardiac electrolytes. Electrolyte shifts during coronary arteriography may change the myocardial Na/Ca balance and cellular calcium control. The nonionic, iso-osmolal CM iodixanol, with a balanced content of sodium and calcium and the low-osmolal, nonionic CM iohexol, also with a balanced content of electrolytes, had about the same low risk for inducing VF and presented a much lower risk for inducing VF than did iohexol and ioxaglate in a wedged catheter situation. Single injection of iohexol with a balanced eletrolyte addition induced only minimal electro-physiologic changes and was well tolerated hemodynamically. Repeated intracoronary CM injections during ischemic heart failure were associated with similar additive electrophysiologic and hemodynamic changes as when using iohexol without electrolyte supplement. Oxygenated and nonoxygenated CM presented the same risk for inducing VF. Only minor electrophysiologic and hemodynamic differences could be detected during wedged catheter injection. In conclusion, addition of key electrolytes to nonionic CM can reduce the risk of cardiac complications during coronary arteriography. Oxygenation of CM does not seem to significantly further reduce the risk.

在非离子造影剂中添加电解质。实验性冠状动脉造影对心脏的影响。
虽然在临床冠状动脉造影术中严重不良反应的发生率很低,但偶尔会发生危及生命的心血管并发症。心室颤动(VF)最常见于通过楔形导管注射造影剂(CM)时。因此,开发了狗的模拟楔形导管模型。此外,心衰患者在冠状动脉造影期间出现cm相关副作用的风险更大。因此,采用了急性缺血性心力衰竭模型。本论文旨在研究CM在正常和衰竭心脏选择性冠状动脉造影术中的心脏电生理和血流动力学影响,特别是电解质添加到非离子CM中的作用。研究了不同电解质含量的等渗透压CM和低渗透压CM,以及抗心律失常药物预处理后自发性室性心动过速的风险和致心律失常机制。此外,研究了在正常心脏和衰竭心脏中单次和快速重复注射非离子CM时添加电解质的影响。并对氧化CM可能产生的影响进行了探讨。在楔形导管情况下注射CM有较高的VF风险。心室颤动可能是由于心室激活和复极引起的局部电生理改变。抗心律失常药物预处理不能预防室性心律失常。然而,在非离子型CM中加入低浓度的电解质可以降低楔形导管情况下发生VF的风险。结果表明,冠状动脉造影时CM的副作用主要与心脏电解质的被动冲洗有关。冠状动脉造影时电解质的变化可能改变心肌钠钙平衡和细胞钙的控制。钠钙含量平衡的非离子、同渗透压CM碘二醇与电解质含量平衡的低渗透压、非离子CM碘己醇诱导VF的风险相同,且在楔形导管情况下诱导VF的风险远低于碘己醇和碘草酸酯。单次注射碘己醇与平衡的电解质添加仅引起最小的电生理变化,并且血流动力学耐受良好。缺血性心衰期间反复冠状动脉内CM注射与不补充电解质使用碘已醇时的电生理和血流动力学变化相似。充氧和非充氧CM诱发VF的风险相同。在楔形导管注射时,仅能检测到轻微的电生理和血流动力学差异。综上所述,在非离子CM中添加关键电解质可降低冠状动脉造影时心脏并发症的发生风险。CM的氧合似乎并没有显著地进一步降低风险。
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