Progress in an Adult Male Suffering from Coronary Artery Ectasia as Assessed with Exercise Stress Testing: A Nine-Year Case Report
1Sport Malta, Cottoner Avenue, Cospicua, Malta
2Ministry of Health, Merchants Street, Valletta, Malta
*Corresponding author: Charles Micallef, B. Pharm (Hons), M.Sc (PAPH), Sport Malta, Cottoner Avenue, Cospicua BML 9020, Malta, Tel: +356 99863324, E-mail: email@example.com, firstname.lastname@example.org
Int J Clin Cardiol, IJCC-3-085, (Volume 3, Issue 2), Case Report; ISSN: 2378-2951
Received: July 01, 2016 | Accepted: August 08, 2016 | Published: August 11, 2016
Citation: Micallef C (2016) Progress in an Adult Male Suffering from Coronary Artery Ectasia as Assessed with Exercise Stress Testing: A Nine-Year Case Report. Int J Clin Cardiol 3:085. 10.23937/2378-2951/1410085
Copyright: © 2016 Micallef C. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
A nine-year history of a young to middle-aged male who was diagnosed with coronary artery ectasia after presenting with impaired vision in one of his eyes is presented. Throughout this period, four exercise stress tests were carried out and improvements were noted: from a positive stress test indicative of myocardial ischemia, the outcome gradually progressed to negative. A distinct feature of this case is that the patient was only on moderate statin and dual antiplatelet therapy and his cholesterol levels remained significantly elevated.
Coronary artery ectasia, Exercise stress test, Myocardial ischemia
Coronary artery ectasia (CAE) is defined as localized or diffuse dilatation of coronary artery lumen exceeding the largest diameter of an adjacent normal vessel by more than 1.5 fold [1,2]. It is often regarded as an uncommon expression of atherosclerosis [3,4] and affects around 3 to 8% of patients undergoing coronary angiography [1,4] with male predominance . Ectatic coronary arteries, even without the presence of coronary stenosis, are subject to thrombus formation, vasospasm, and spontaneous dissection .
Positive exercise stress tests can be associated with CAE . However, more accurate testing is required to diagnose the illness. Although computed tomography (CT) angiography is increasingly used to detect coronary artery disease, the evaluation of stenosis is often uncertain . On the other hand, as perfusion imaging has established a role in detecting ischemia and literature is showing that hybrid PET/CT (positron emission tomography/CT) imaging is extremely accurate in detecting coronary disease , this technique is however, insufficiently tried and tested on CAE patients. Hence, until now, conventional coronary angiography keeps offering a more detailed description of coronary artery anatomy and remains superior to cardiac ultrasound. One also needs to remember that the angiography case goes back to 2007 when evidence on accurate non-invasive assessment of coronary artery disease was limited. Cardiac catheterization is usually indicated when a stress test suggests myocardial ischemia and guidelines still recommend this technique as the gold standard for assessing coronary artery anatomy . The higher risks of ischemia in CAE are due to sluggish or turbulent coronary blood flow [2,9].
As a young male in his late 30’s, the subject followed the Mediterranean diet, never smoked and only drank alcohol in moderation when socialising. He also maintained a fair level of physical fitness by walking briskly for at least 30 minutes on most of the week days. Despite taking 1000 mg of cod liver oil supplements (providing around 250 mg of omega-3 fatty acids) everyday, his cholesterol levels were repeatedly elevated (serum cholesterol between 6.0 and 6.5 mmol/l and LDL cholesterol between 4.0 and 4.5 mmol/l) and his body mass index was, in the past nine years, borderline between normal and overweight (mean BMI 25.60 kg/m2).
In 2006, at 37 years of age, the subject presented at the Ophthalmic Department of a general hospital with impaired vision in his left eye. On examination he was immediately referred by a senior medical officer for more thorough investigations and expert advice. Although no embolus could be detected, he was found to be suffering from the damage caused by a small branch retinal artery occlusion. His right eye was comparatively normal. He was prescribed two drops twice daily of timolol 0.5% and was also started on a daily aspirin 75 mg tablet.
Although monitoring of eye health followed every four-month interval whereby the timolol treatment was eventually phased out after 12 months, his ocular occlusion presented a case for further thorough investigations that were dealt with by a medical team composed of two cardiologists.
Between 2006 and 2007 the patient underwent a series of tests. The first investigations included two ultrasound tests: a carotid Doppler, which showed no signs of stenosis, and an echocardiogram, which detected no cardiac sources of emboli.
In a span of nearly ten years, four treadmill ergometer stress tests were undertaken by the patient. The outcome of the first stress test was positive, suggestive of ischemia. The results of all the stress tests in chronological order are shown in table 1.
Table 1: Stress test reports. View Table 1
Soon after the first stress test was carried out in 2007, femoral coronary angiography revealed severe ectasia in the proximal left anterior descending coronary artery and mild ectasia in the proximal right coronary artery. Regular blood profiles kept indicating the need for statins to lower his cholesterol as much as possible.
The initial medical treatment involved taking 75 mg of enteric coated aspirin, high dose statins and oral anticoagulants (aiming for an international normalized ratio [INR] of 2.0 to 3.0). However, treatment with 40 mg simvastatin daily was not tolerated due to severe myalgia in his legs and hence the patient was put on fluvastatin 40 mg twice daily. Warfarin therapy also had to be abruptly discontinued due the development of pruritic rash over his forearms and posterior thighs two days after starting warfarin (INR 1.2); this was supplemented by clopidogrel 75 mg daily. Aspirin and omega-3 intake continued.
Exercise stress test reports
Between 2007 and 2015 the patient (38 to 46 years) underwent four exercise stress tests that were conducted according to the Bruce protocol. The subject always achieved his target heart rate and no chest pains were ever reported. The overall impression changed from positive to negative or normal stress test. A summary of the stress test reports is found in table 1.
Ethical issues and access to medical file
Ethical approval and acquisition of written informed consent were not required. The subject was the researcher himself who was also not registered with an academic institution. The request to access the medical file was approved by the hospital’s Data Controller.
It is clear from the stress tests reports that there was some progress: from a positive stress test indicative of myocardial ischemia (2007), the outcome gradually progressed to negative, with the results of the final stress test (2015) confirming those of the previous test (2011). A possible mechanism that could explain these changes is to look at coronary atherosclerosis as no longer pertaining to a 'fixed' model where plaque formation would always lead to luminal narrowing, but to base the explanation on 'arterial remodelling' . Could coronary vessels remodel themselves back to their quasi-original states? As more than 50% of the reported cases of CAE are seen as a variant of atherosclerosis , and the process of arterial remodelling is fundamental to the pathophysiology of coronary artery disease, negative remodelling (arterial shrinkage), which is associated with stable coronary syndromes, can occur with atherosclerotic disease regression [4,10,11]. A somewhat strange observation is the fact that the subject's cholesterol levels remained elevated (> 6.0 mmol/l).
However, although in about 50% of the cases CAE is often attributed to atherosclerosis, 20-30% has been considered to be congenital in origin . Moreover, as the cholesterol levels, albeit were always significantly above normal, were never critically elevated, it is hard to elucidate whether or not the condition had anything to do with elevated cholesterol. In other words, the author cannot assume that this incidentally discovered ectasia is due to atherosclerosis. Perhaps it was present in childhood (for example, due to undiagnosed Kawasaki disease), discovered incidentally, and is still present despite the fact that the stress tests normalized. No such past medical history was recorded in the medical file and no tests are available to confirm its presence in the past.
As regards equipment, exercise electrocardiogram is not the ideal tool for investigating CAE progression or regression; a recent cardiac catheterization could consolidate this discussion. However, the patient did not wish to undergo another angiography. As no follow up imaging was performed, the study also cannot tell if this was a case of transient ectasia or a more permanent aneurysmal defect.
A further drawback is associated with the consistency of the exercise stress testing; the stress tests should have been conducted by the same physician and technician. The reader should also be aware that the sensitivity and specificity of stress tests in identifying ischemia is not perfect and false positive or negative results may occur.
A general limitation with all CAE interventions is that no randomised control trial has ever been conducted to prove the utility of a particular treatment because the relative rarity of the condition would prove a hindrance to any such study . Therefore, as supporting literature is scant, many recommendations have been based on anecdotal evidence. As a round-up, however, the prognosis of this CAE case can be associated with (but not necessarily attributed to) a combination of moderate statin use and dual antiplatelet therapy.
The author would like to thank cardiologists Dr. Robert Xuereb and Dr. Mariosa Xuereb from Mater Dei Hospital in Malta for all the tests and follow-ups that were crucial for the progress of this case. Dr. Mark Abela, a higher specialist trainee in cardiology reviewed the manuscript. Further acknowledgements go to two Government entities, Sport Malta and Ministry of Health, for allowing the author sufficient time to do the necessary research and preparation of this paper. The technical support of Mr. William Galea, an executive officer at Sport Malta, is also appreciated.
Coronary artery ectasia can be managed without anticoagulant drugs.
Conflicts of Interest
The author has no competing interests to declare.
The author is the subject.
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