Multimodality cardiac imaging of a ventricular septal rupture post myocardial infarction: a case report
© Dhaliwal et al.; licensee BioMed Central Ltd. 2012
Received: 3 September 2012
Accepted: 22 October 2012
Published: 25 October 2012
Ventricular septal rupture (VSR), a mechanical complication following an acute myocardial infarction (MI), is thought to result from coagulation necrosis due to lack of collateral reperfusion. Although the gold standard test to confirm left-to-right shunting between ventricular cavities remains invasive ventriculography, two-dimensional transthoracic echocardiography (TTE) with color flow Doppler and cardiac MRI (CMR) are reliable tests for the non-invasive diagnosis of VSR.
A 62-year-old Caucasian female presented with a late case of a VSR post inferior MI diagnosed by multimodality cardiac imaging including TTE, CMR and ventriculography.
We review the presentation, diagnosis and management of VSR post MI.
Ventricular septal rupture (VSR), a mechanical complication following an acute myocardial infarction (MI), is thought to result from coagulation necrosis due to lack of collateral reperfusion. Although the gold standard test to confirm left-to-right shunting between ventricular cavities remains invasive ventriculography, two-dimensional transthoracic echocardiography (TTE) with color flow Doppler and cardiac MRI (CMR) are reliable tests for the non-invasive diagnosis of VSR. Although there are several case reports of VSR post MI, our case illustrates the use of multimodality cardiac imaging for the complete delineation of this mechanical complication prior to surgical repair.
Ventricular septal rupture (VSR) is a devastating complication affecting less than 1% of patients with the majority of cases occurring 3 to 7 days post MI . Risk factors for the development of a VSR include hypertension, advanced age (>60), and a non-smoking status with women more commonly affected than men. Patients with a first time infarction and single vessel coronary disease, particularly involving the left anterior descending coronary artery, are at increased risk of VSR . Clinically, VSR should be suspected in patients with the onset of a new systolic murmur after a documented myocardial infarction. Up to one half of affected patients may experience chest pain, while congestive heart failure (CHF) and cardiogenic shock may also develop.
Multimodality cardiac imaging using ventriculography, TTE and CMR can provide complementary information for accurate and complete delineation of the VSR. Although the gold standard test to confirm left-to-right shunting between ventricular cavities remains invasive ventriculography, it is difficult to define the exact size and morphology of the VSR. Two-dimensional TTE with color flow Doppler is a reliable test for the non-invasive confirmation of VSR by characterizing its exact location and size as well as the direction of the shunt . Similar to TTE, CMR with its higher spatial resolution can accurately delineate the anatomy, location, and size of the VSR prior to surgical correction. However, CMR can also noninvasively quantify the shunt size across the interventricular septum and allows for accurate characterization of the peri-infarct zone. This is the first case report in the literature describing the use of all three complementary imaging modalities for defining a VSR post-MI.
Optimal management of patients with VSR remains controversial both in terms of timing and choice of intervention. Retrospective data has demonstrated a decrease in operative mortality rates in patients with a longer (>6 weeks) interval between myocardial infarction and surgical repair . However, this longer time interval introduces an inherent survival bias by selecting the more stable patients. The choice of intervention varies with the clinical presentation. For patients presenting acutely in cardiogenic shock, emergent treatment is necessary. This may be in the form of immediate surgical repair or temporary mechanical circulatory support followed by definitive repair. Although percutaneous repair has been reported in older patients with smaller defects, no studies have directly compared both percutaneous and surgical approaches . Elective surgery is preferred for patients who are hemodynamically stable.
Our case demonstrates the development of a VSR after a delayed presentation of an inferior MI. The absence of ST elevation, presence of Q waves, and elevated troponin levels are the result of an infarct occurring in the preceding week. Multimodality cardiac imaging using echocardiography, CMR and cardiac catheterization provided unique and complementary information for the pre-operative characterization of the VSR prior to surgical intervention.
Written informed consent was obtained from the patient for publication of this case report and accompanying images. A copy of the written consent is available for review by the Editor-in-Chief of this journal.
- Crenshaw BS, Granger CB, Birnbaum Y: Risk factors, angiographic patterns, and outcomes in paitents with ventricular septal defect complicating acute myocardial infarction. GUSTO-I (Global Utilization of Streptokinase and TPA for Occluded Coronary Arteries) Trial Investigators. Circulation. 2000, 101: 27-32. 10.1161/01.CIR.101.1.27.PubMedView ArticleGoogle Scholar
- Skehan JD, Carey C, Norrell MS: Patterns of coronary artery disease in post-infarction ventricular septal rupture. Br Heart J. 1989, 62 (4): 268-10.1136/hrt.62.4.268.PubMedPubMed CentralView ArticleGoogle Scholar
- Smyllie JH, Sutherland GR, Geuskens R: Doppler color flow mapping in the diagnosis of ventricular septal rupture and acute mitral regurgitation after myocardial infarction. J Am Coll Cardiol. 1990, 15 (6): 1449-10.1016/S0735-1097(10)80038-5.PubMedView ArticleGoogle Scholar
- Daggett WM, Guyton RA: Surgery for post-myocardial infarct ventricular septal defect. Ann Surg. 1977, 186 (3): 260-10.1097/00000658-197709000-00004.PubMedPubMed CentralView ArticleGoogle Scholar
- Maltais S, Ibrahim R: Post infarction ventricular septal defects: towards a new treatment algorithm?. Ann Thorac Surg. 2009, 30: 81-88.Google Scholar
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