Introduction: Left Ventricle Postinfarction Pseudoaneurysm (LVPS)—false aneurysm occurs after a free-wall rupture contained by the adjacent pericardium. LVPS lacks the normal structure of the ventricular wall and disrupts the normal chamber anatomy. However, the natural history, clinical presentation and surgical outcome are still unclear. For that reason, it is necessary to describe the most relevant anatomical characteristics of LVPS and the appropriate surgical strategies currently applied. Methods: We reviewed the anatomical characteristics of several patients diagnosed of LVPS and the surgical technique performed. In this work two different anatomical types of LVPS are described in detail, with the surgical and structural implications for left ventricle reconstruction. Results: There are two different anatomical forms of LVPS: 1) Typical pseudoaneurysm, with a small gateway neck between the Left Ventricle and the false aneurysm chamber (Figure 1(A)); 2) Atypical pseudoaneurysm, in which the anatomical defect is bigger, without well-defined edges, extends over a large segment of infarcted and thinned myocardial tissue. In both cases, the therapeutics targets and the surgical techniques used were directed to restore the normal geometry of Left Ventricle, keeping the optimal mitral valve function. Conclusions: The surgical key-step is to preserve or to remodel the ventricular chamber anatomy. This fact restores the ventricular geometry, not only removing the wall discontinuity that generated the pseudoaneurysm. Nevertheless, final prognosis depends on the underlying ischemic cardiomyopathy and mechanical complications, such us mitral regurgitation or ventricular septal defect.
Introduction: Left Ventricle Postinfarction Pseudoaneurysm (LVPS)—false aneurysm occurs after a free-wall rupture contained by the adjacent pericardium. LVPS lacks the normal structure of the ventricular wall and disrupts the normal chamber anatomy. However, the natural history, clinical presentation and surgical outcome are still unclear. For that reason, it is necessary to describe the most relevant anatomical characteristics of LVPS and the appropriate surgical strategies currently applied. Methods: We reviewed the anatomical characteristics of several patients diagnosed of LVPS and the surgical technique performed. In this work two different anatomical types of LVPS are described in detail, with the surgical and structural implications for left ventricle reconstruction. Results: There are two different anatomical forms of LVPS: 1) Typical pseudoaneurysm, with a small gateway neck between the Left Ventricle and the false aneurysm chamber (
Keywords:Ventricular Anatomy, Left Ventricle Pseudoaneurysm Surgical Treatment, Ventricular Remodelling, Restore of Left Ventricle, Morphology and Function of Left Ventricle, Ischemic Cardiomyopathy
Left ventricle (LV) is the principal systemic chamber of the heart and its anatomy is coupled to a high-pressure blood circuit physiology. LV wall presents an especial thickness due to its function [
LV pseudoaneurysm (LVPS—false aneurysm occurs, in most cases, as a result of a transmural myocardial infarction. The wall thinning, secondary to an extensive myocardial necrosis, suffers a subsequent dilatation of the damaged tissue that progresses with each systole. This fact can finally produce a free-wall rupture, in a few cases contained by the adjacent pericardium, which allows the formation of the pseudoaneurysm. Therefore, LVPS lacks the normal structure of the ventricular wall, but it is only contained by the epicardium-pericardium reaction. However, the natural history, clinical presentation and surgical outcome are still unclear due to the rarity of occurrence and the small series of patient analyzed. Nevertheless, it seems to be clear that large LV pseudoaneurysm has a high risk of rupture and sudden death [
We reviewed the anatomical characteristics of several patients diagnosed of postinfarction left ventricle pseudoaneurysm (LVPS) and the surgical technique performed. To illustrate the surgical features of the anatomical types, we describe two cases well differenced. There are two different anatomical forms of LVPS: 1) Typical pseudoaneurysm, with a small gateway neck between the LV and the false aneurysm chamber (
In all cases the surgical goal was the comprehensive treatment of the cardiomyopathy, preserving the optimal ventricular geometry.
A 64-year-old man is an ex-smoker with hypercholesterolemia and arterial hypertension. The patient suffers an acute inferior myocardial infarction. The initial evolution was favourable, but 24 hours later, he began with chest pain and symptoms of pericarditis. Coronary angiography showed severe triple-vessel disease with right coronary ar-
tery occlusion. Contrast ventriculography (CV) showed the presence of a large inferior pseudoaneurysm. The diagnosis was confirmed by echocardiography, appreciating the characteristic hourglass image with a narrow neck between the left ventricle and the pseudoaneurysm chamber (
The patient was scheduled for surgery because of the high risk of pseudoaneurysm rupture and sudden death.
Under cardio-pulmonary bypass-CPB-(117 minutes), we separated the pseudoaneurysm from the adjacent pericardium. Subsequently, under cardiac arrest (86 minutes) we proceeded to open the chamber. Afterward, we identified the wall discontinuity of LV and decided to close the defect using a Dacron patch and fibrin sealants (
A 66-year-old man had a history of hypercholesterolemia, hypertension, ischemic cardiomyopathy and a prior inferior myocardial infarction in 1999. Since this first episode, he was diagnosed of non-revascularizable three-vessel disease with Left Ventricle Ejection Fraction (LVEF) of 25% and an inferior ventricular aneurysm. Actually, the patient suffers a new acute myocardial infarction, discovering by echocardiography and contrast ventriculography (CV) the presence of a giant inferior pseudoaneurysm with worse ventricular function (
Due to the presence of heart failure, refractory to intensive pharmacological treatment, the patient underwent to surgery.
Under cardio-pulmonary bypass (CPB 123 minutes), without cardiac arrest, we separated the false aneurysm from the adjacent pericardium and performed a longitudinal incision of the pseudoaneurysm (
Postoperative echocardiography showed no residual pseudoaneurysm (LVEF 37%). The patient course was favourable and was discharged on the tenth postoperative day. He was two days in the Intensive Care Unit.
The most frequent situation of postinfarction LV pseudoaneurysm is the posterior-inferior wall, because the acute rupture of the anterior or the lateral wall hardly ever is contended by the overlying pericardium [
When CPB is established, we need to separate the false aneurysm from the rest of pericardium tissue. Sometimes this issue is difficult because of the intense inflammatory reaction, otherwise essential to form the pseudoaneurysm. We consider that is not always necessary to induce cardiac arrest to repair the ventricular wall. So, in CPB, we open longitudinally the pseudoaneurysm, avoiding the resection of its wall. Afterward we try to identify the pseudoaneurysm neck. In a typical LVPS, we found a narrow neck. Sometimes the gateway edges are consistent enough, with optimal fibrous tissue, to support a directly repair based on a suture-line [
in posterior-inferior pseudoaneurysm. The direct repair in this location could modify, by the suture traction and the appropriate position of the papillary muscles, which could generate or increase mitral regurgitation (
The surgical goal is to preserve or to remodel the ventricular chamber anatomy. This fact normalizes the ventricular geometry, not only removing the wall discontinuity that generated the pseudoaneurysm. Then, it is useful to close the pseudoaneurysm walls over the patch and to use fibrin sealants between them to improve the haemostasis and the ventricular strain resistance. Final prognosis of these patients is conditioned by the underlying ischemic cardiomyopathy and mechanical complications, such as mitral regurgitation or ventricular septal defect. For this reason, we strongly recommend to treat all concomitants heart diseases whenever possible, including coronary revascularization and mitral regurgitation.
This study was supported by Virgen de las Nieves Hospital and Ramón y Cajal Hospital. All surgical procedures described in the manuscript were realized using the material equipment and drugs support of these institutions.