Primary percutaneous coronary intervention during ST elevation myocardial infarction in prosthetic valve endocarditis: a case report
Infective endocarditis (IE) is still a condition with high mortality and morbidity, especially in the elderly, and in patients with prosthetic valves. The concept of “time-to-therapy” plays a key role for the prompt management of IE and related complications, and the currently available multimodality imaging may play a key role in this setting. Myocardial ischemia due to extrinsic coronary compression from an aortic abscess is an extremely rare condition where the optimal therapeutic strategy has not been defined yet. We present herein the first case of a patient with ST elevation myocardial infarction caused by an aortic root abscess treated with percutaneous stent implantation.
An 82-year-old woman with a history of atrial fibrillation, chronic renal failure, anemia and a bioprosthetic aortic valve replacement performed in 2014, was admitted to hospital with profound asthenia and a pyrexia of unknown origin. Because of high clinical suspicion of endocarditis, a trans-esophageal echocardiogram was performed. Empirical broad-spectrum antimicrobial therapy was initiated, followed by targeted treatment based on the results of blood cultures (Staphylococcus aureus). The echocardiogram did not show vegetations and the patient was managed conservatively. She suddenly deteriorated, due to an acute coronary syndrome (ACS) with anterior ST segment elevation. An urgent angiogram was performed, and extrinsic compression of the left coronary system, due to an aortic root abscess, was suspected. After discussion with the surgical team, percutaneous revascularization was attempted, aiming to restore satisfactory hemodynamics, in order to plan surgery. Unfortunately, the patient rapidly developed cardiogenic shock, with multi organ failure, and died in less than 24 h.
Patients with fever, and significant risk factors for endocarditis, who develop ACS, need a prompt diagnostic work up, including trans-esophageal echocardiography. At present, the specific timing of echocardiographic follow-up and surgical intervention is still a matter of debate, and our case aims to highlight the importance of this aspect in the management of endocarditis, in order to avoid severe complications that adversely affect patient prognosis.
KeywordsAMI pPCI Endocarditis TTE/TEE Elderly patients
Acute coronary syndrome
Bare metal stent
left anterior descending coronary artery
left circumflex artery
plain old balloon angioplasty
Primary percutaneous coronary intervention
Pyrexia of unknown origin
ST segment elevation myocardial infarction
White blood cell count
The possible mechanisms responsible for myocardial ischemia in endocarditis are the presence of preexisting coronary artery disease, coronary emboli from aortic vegetations, obstruction of the coronary ostium due to a large vegetation, severe aortic insufficiency and external coronary artery compression [3, 4, 5]. The latter is a rare and lethal finding with few reported cases available in the medical literature [3, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14].
We report a case of primary percutaneous coronary intervention (pPCI) performed during ST segment elevation myocardial infarction (STEMI) in the setting of a bioprosthetic aortic root abscess compressing the left main coronary artery. In previous similar reports, a surgical intervention represented the main therapeutic approach [5, 8, 13]. We believe that sharing experiences can be of help in defining a common procedural strategy in such rare conditions.
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We describe a rare complication of prosthetic valve endocarditis: an aortic root abscess causing external coronary artery compression and acute myocardial infarction. Although a few reports of myocardial infarction during infective endocarditis involving a prosthetic valve exist in the literature, our case shows an unusual complication and treatment strategy.
Prosthetic valve endocarditis is associated with a high in-hospital mortality (more than 40%) [16, 17] and when complicated by an ACS, the morbidity and mortality rates further increase . In the management algorithm presented by Manzano et al., when a patient presents with ACS and suspected endocarditis, a TEE should be performed and angiography, with percutaneous reperfusion, should only be considered if a ST segment elevation is present on the ECG in the absence of periannular complication . In our case, an immediate coronary angiogram was performed because ST elevation myocardial infarction, complicated by haemodynamic instability, was evident, while the abscess cavity was only suspected. The hypothesis of external coronary compression due to periannular complication was, indeed, only formulated at the time of the invasive procedure due to the specific angiographic pattern (diffuse narrowing of the coronary arteries with severe stenosis of the proximal segments) along with the peculiar clinical presentation . However, an erosion/perforation of the abscess into left coronary artery, could not be definitely ruled out. Some images, indeed, showed enrichment of the contrast medium in the abscess during angiography (Additional files 2 and 3: Video S2 and S3).
After a discussion with the surgical team, a two-step approach, with percutaneous revascularization first, aiming for restoration of stable hemodynamics, followed by a surgical procedure, was attempted, similar to the case described by Sugi K et al. .
The outcome in this setting is strongly affected by several different variables (grade of inflammatory response, pathogen causing endocarditis, sepsis dissemination, site of coronary obstruction and the grade of valve dysfunction)  and, unfortunately, our patient rapidly developed multi organ failure.
Considering the paucity of data available, the management of each patient presenting with ST elevation and valve/prosthetic endocarditis should be individualized and a multidisciplinary discussion should be advocated.
Patients with fever, and significant risk factors for endocarditis, who develop ACS, need a prompt diagnostic work up, including trans-esophageal echocardiography. The specific timing of echocardiographic follow-up and surgical intervention is still a matter of debate [17, 21], and our case aims to highlight the importance of this aspect in the management of endocarditis, in order to avoid severe complications that adversely affect patient prognosis.
The authors thank Dr. Ada Cutolo and Dr. Guerrino Zuin of the Cardiology Department in Mestre, Italy, for their contribution in the data collection process.
Availability of data and materials
All relevant data supporting the conclusions of this article are contained within the article.
AC was directly involved in the patient management during her admission in coronary care unit and personally performed the trans-thoracic and trans-esophageal echocardiograms reported in the paper. He was a major contributor in writing the manuscript, and also performs all duties of the corresponding authors; GT made substantial contributions to conception and design of the work. He also helped with writing and drafting the manuscript. FC performed the invasive procedure. FR was involved in the patient management and also in drafting the manuscript and critical revision for important intellectual content. He made substantial contributions to analysis and interpretation of data. All authors read and approved the final article.
The authors declare that they have no competing interests.
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Written consent was obtained from the patient’s relatives for the publication of this case report.
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(Trans-esophageal short axis view of the aorta): the clip shows a normal opening of the aortic bioprosthesis and a pronounced aortic root thickening. (MOV 702 kb)
Clip of the interventional procedure performed to establish a satisfactory flow on the left coronary system. (Left coronary angiography): the diagnostic left coronary angiogram showing a severe narrowing, followed by complete occlusion of the left anterior descending coronary artery (LAD) and a critical, long tubular stenosis of the proximal left circumflex artery (LCx). (MOV 1760 kb)
Clip of the interventional procedure performed to establish a satisfactory flow on the left coronary system. (Ascending aortic angiography): the ascending aortic angiogram showing a possible, extrinsic compression, of the coronary arteries from an aortic root abscess. The clip also shows enrichment of the contrast medium in the abscess during angiography so that, an erosion/perforation of the abscess into left coronary artery, can’t be definitely ruled out. (MOV 3090 kb)
Clip of the interventional procedure performed to establish a satisfactory flow on the left coronary system. (Wires advancement in the left coronary system): the clip shows the wires that have been introduced in the LAD and LCx. (MOV 3720 kb)
Clip of the interventional procedure performed to establish a satisfactory flow on the left coronary system. (After only balloon angioplasty): video showing the result soon after POBA. (MOV 3030 kb)
Clip of the interventional procedure performed to establish a satisfactory flow on the left coronary system. (Stent deployment in the LAD). (MOV 1130 kb)
Clip of the interventional procedure performed to establish a satisfactory flow on the left coronary system. (Post stent implantation in the LAD): videos showing the stent deployment in the LAD and the result of the procedure. (MOV 1890 kb)
Clip of the interventional procedure performed to establish a satisfactory flow on the left coronary system. (Stent deployment in the LCx artery). (MOV 511 kb)
Clip of the interventional procedure performed to establish a satisfactory flow on the left coronary system. (Final result): videos showing the stent deployment in the LCx and the final procedural result. (MOV 2800 kb)
Clip of the trans-thoracic examination. (Parasternal long axis view): evidence of severe left ventricle dysfunction. (M4V 371 kb)
Clip of the trans-thoracic examination. (Parasternal long axis view with color): the clip shows a significant tissue damage in the aortic prosthetic region, where a cavity is also identified, suggesting an abscess. (M4V 328 kb)
Clip of the trans-thoracic examination. (Parasternal short axis of the aortic valve without and with color mode representation): different view of the significant tissue damage in the aortic prosthetic region. (MP4 6072 kb)
Clip of the trans-thoracic examination. (Apical four chamber view without and with color mode representation): evidence, respectively, of severe biventricular dysfunction, severe TR and MR. (MP4 8888 kb)
Clip of the trans-thoracic examination. (Subcostal view): view showing a dilated inferior vena cava and right pleural effusion. (M4V 367 kb)
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