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Advances in Interventional Cardiology/Postępy w Kardiologii Interwencyjnej
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1/2013
vol. 9
 
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Case report
Transient cortical blindness after coronary artery angiography

Michał Terlecki
,
Wiktoria Wojciechowska
,
Marek Rajzer
,
Artur Jurczyszyn
,
Stanisława Bazan-Socha
,
Leszek Bryniarski
,
Danuta Czarnecka

Postep Kardiol Inter 2013, 9, 1 (31): 105–108
Online publish date: 2013/03/21
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Introduction

Coronary angiography is currently the gold standard in the detection of ischemic heart disease, which is why percutaneous procedures such as angiography or percutaneous coronary intervention (PCI) are frequently performed. Ce­rebrovascular complications of coronary angiography and PCI are rare and usually include transient ischemic attacks (TIA) or stroke and affect approximately 0.4% of all pa­tients undergoing PCI [1, 2]. These complications occur more often in some specific groups of patients: in the elderly, in female patients, in patients with diabetes mellitus type 2, in those with diffuse atherosclerosis, in patients undergoing coronary artery bypass grafting, in patients with peri-procedural complications (artery dissection) and in patients with no-reflow who often require intra-aortic counterpulsation [2].

Cortical visual impairment following administration of a contrast agent occurs in 0.3-1.0% of patients undergoing angiography of the cerebral arteries [3]. In the case of coronary angiography the rate is 0.21-0.45% [4]. This is a very rare complication given the widespread and frequent use of coronary angiography throughout the world, including Poland (around 3500 procedures/million inhabitants) [5]. Patients at risk of cortical visual impairment include those after previous coronary artery bypass grafting and patients with renal failure. The exact mechanism leading to the onset of cortical visual impairment remains unknown. The most likely explanation of this phenomenon is an increase of permeability of the blood-brain barrier and a direct neurotoxic effect of contrast agents [6, 7].

Aim

The aim of the study was to present a case of a transient cortical visual impairment after coronary angiography in a patient admitted to diagnose the causes of arrhythmia.

Case report

A 32-year-old patient suspected of having Brugada syndrome (syncope with complete loss of consciousness, J point elevation in leads V1-V3 on resting electrocardiogram and sudden cardiac death of the father at the age of 49 years), with right ventricular extrasystoles was admitted to the 1st Department of Cardiology and Hypertension of the University Hospital in Cracow for the ajmaline challenge. The result of the study was inconclusive for the Brugada syndrome. Because of decreased left ventricular ejection fraction on echocardiography (EF around 40%) the patient was qualified for coronary angiography, which did not reveal changes in coronary arteries (Figure 1). Coronary angiography was performed through the right femoral artery with a 6 F vascular sheath and Judkins diagnostic catheters and was preceded by local anesthesia with 1% lignocaine solution. The procedure lasted 20 min and the patient remained hemodynamically stable for the whole time. Approximately 100 ml of a nonionic, hypo-osmolar contrast agent (Utravist) was used for the procedure. The patient did not have a history of previous procedures with contrast medium administration. During coronary angiography the patient reported visual impairment without any other focal symptoms. In 15 min time the patient completely lost vision. He was conscious, with good verbal contact, good auto- and allopsychic orientation and good respiratory and circulatory condition (during the procedure and immediately after the procedure blood pressure was 130/80 mm Hg, heart rhythm 60 bmp). Directly after the coronary angiography the patient underwent neurological and ophthalmological consultation. Apart from binocular blindness there were no other abnormalities. Urgently performed computed tomography of the head (without contrast medium) did not reveal any pathology (Figure 2). Visual impairment resolved completely on the first day after the coronary angiography.

Based on the clinical picture (numerous ventricular extrasystoles with LBBB morphology, akinetic area within the right ventricular free wall and reduced right ventricular ejection fraction (40%) on magnetic resonance imaging (MRI) with reduced left ventricular ejection fraction on echocardiography and sudden, unexplained death of the father) a diagnosis of idiopathic dilated cardiomyopathy was made, which may be an early manifestation of arrhythmogenic right ventricular cardiomyopathy with left ventricular involvement. However, during the stay in the clinic there was no clear evidence favoring the diagnosis of arrhythmogenic right ventricular cardiomyopathy. Genetic samples were obtained from the patient to test for arrhythmogenic right ventricular cardiomyopathy and Brugada syndrome and they are currently under determination. The patient was discharged home on the third day after the coronary angiography in a good general condition and without any symptoms.

Discussion

In the presented case the differential diagnosis should primarily include the occurrence of arrhythmias in a patient with a history of recurrent syncope and arrhythmia and a secondary ischemia of the central nervous system. However, on the coronary angiography and in the following hours the patient was under constant ECG, blood pressure and blood oxygenation monitoring. No abnormalities were recorded. As the next step it should be assumed that the described reaction had an allergic or non-allergic hypersensitivity character after administered pharmacological agents. The patient received 2% lignocaine solution (subcutaneous administration before the procedure) and a nonionic low-osmolar intravenous contrast agent. Side effects observed after local application of anesthetic agents occur within several, maximally 20 min following administration. These include dizziness, psychomotor agitation, excessive sweating, tachycardia, double vision, tinnitus, body tremor, slurred speech and fainting. They are usually associated with drug overdose or accidental administration of the drug directly into the vessel [8]. It seems that the described loss of vision should not be related to the use of lignocaine, although there are isolated reports on such a complication in the literature [9]. In our patient clinical symptoms occurred after approximately 30 min of local anesthesia, and had a clear temporal relationship with the administration of the nonionic contrast agent. Intravenous contrast agents are highly concentrated solutions of low molecular weight. They diffuse out of the bloodstream at a rapid pace and 70% of the dose disappears from plasma within about 2-5 min after the administration [8]. Epidemiologic studies conducted in the 1980s demonstrated that the frequency of adverse reactions after injection of nonionic low-osmolar contrast agents is 0.7-3.1%, of which life-threatening reactions account for 0.02-0.04% of cases [8]. Most adverse reactions are characterized by a low intensity and are associated with non-specific (non-allergic) influence of the agent particles directly on the cellular membranes [8]. These are most often mastocytes, present in the skin and in the connective tissue, which undergo activation and degranulation. It results in anaphylactic reaction with the presence of skin changes and symptoms of respiratory, gastrointestinal and circulatory system involvement. The symptoms of central nervous system involvement include syncope and seizures, which are related to cerebral ischemia. None of the typical symptoms suggesting the presence of an anaphylactic reaction were present in our patient.

The pathophysiology of transient cortical visual impairment is not clear. Most likely, the blood-brain barrier becomes damaged, which allows the contrast agent to express a direct neurotoxic effect on nerve cell membranes in the occipital lobes [1]. In the majority of cases described so far, the computed tomography image showed post-contrast enhancement in the occipital lobe, which may be related to body position during coronary angiography. Additionally it was demonstrated that posterior cerebral circulation is most susceptible to the above pathologies, which may result from difference in sympathetic innervation [10, 11]. The risk of transient cortical blindness increases with the use of highly osmolar contrast agents, but the complication may also occur after application of nonionic, low-osmolar substances [12], as in our case. According to the data from the drug registration office the possible complications involving the central nervous system and related to Ultravist (iopromide) use include dizziness, headache, confusion or agitation, amnesia, impaired speech, hearing and vision as well as transient blindness. These abnormalities occur more frequently in patients with previously diagnosed disease of the central nervous system and in patients undergoing angiography of the cerebral arteries. In the latter situation concentration of the contrast agent in the cerebral circulation is higher [13]. The risk factors also include renal failure and coronary bypass from the internal mammary artery (the origin of the internal mammary artery from the subclavian artery close to the origin of the vertebral artery may favor the passage of a large amount of contrast agent to the left vertebral artery during bypassography of the left internal mammary artery) [6, 7]. Our patient was not at risk of cortical visual impairment. However, based on the family history and clinical observation it is possible that he might have a congenital defect of ion channels of the cellular membranes, which might cause abnormalities in the electrical activity of neurons, and thus the conduction of nerve impulses.

An attempt to characterize the clinical features of patients with documented cortical visual impairment was made by Frantz during the EuroPCR congress in 2006 [6]. The presented data included 15 patients and suggested a higher prevalence of the complication in men than in women. The mean age of patients in the study was 54 ±7.6 years, more than half of them had confirmed arterial hypertension (9 patients), 1 patient had impaired renal function and 9 patients had a history of exposure to contrast agents. The amount of contrast medium used for the procedures ranged from 75 ml to 400 ml. Return to normal vision lasted from 15 min to 5 days.

A differential diagnosis of transient cortical visual impairment after coronary angiography should include cerebral embolism, cerebral vasospasm, hysterical blindness and post-contrast hypotension [6].

There is no determined management strategy for this complication. Neurological and ophthalmological consultation and imaging examinations of the brain (computed tomography and magnetic resonance) are necessary for the diagnosis. Strict control of blood pressure and diuresis seem to be relevant in the fast resolution of symptoms, although there are no data on the influence of hydration or fluid therapy and diuresis control on the described complication.

Conclusions

Transient cortical visual impairment is a rare, rapidly progressing complication of angiography. Although the exact mechanism of cortical visual impairment in unknown, the interruption of the blood-brain barrier and direct neurotoxic effect of contrast agent are the most likely causes of this abnormality. Neurological and ophthalmological consultation and imaging examinations of the brain (computed tomography and magnetic resonance) seem necessary for the diagnosis. Currently, there is no determined management strategy for this complication.

Acknowledgments

The study was performed in the 1st Department of Cardiology and Hypertension of the Jagiellonian University Medical College.

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