SummaryIt is well known that graft patency determines prognosis in coronary artery bypass grafting. Numerous reports over the past 20 years have documented superior patency and prognosis when multiple arterial grafts are used. The use of the left internal thoracic artery to graft the left anterior descending artery has been widely accepted as the gold standard for surgical treatment of coronary disease for over 40 years. A considerable body of evidence suggests that the right internal thoracic artery behaves in the same way. Radial artery grafts are being studied in several randomized trials, but observational studies suggest a performance comparing favorably with the saphenous vein. The right gastroepiploic artery has been recognized as a suitable and reliable conduit for coronary bypass surgery. However, the use of multiple other arterial grafts is performed in less than 10% of surgical procedures, probably because of perceptions of technical complexity, prolonged time for conduit harvesting, and increased perioperative complications. As a result, most patients with multivessel coronary artery disease do not benefit from extensive revascularization with arterial conduits. The aim of this review is to summarize the current evidence for the extensive use of arterial conduits in the revascularization of multivessel coronary artery disease. (Int Heart J 2014; 55: 381-385)
There is an increasing number of patients with mitral regurgitation secondary to dilated cardiomyopathy. Recent data suggest that mitral regurgitation (MR) can be surgically corrected in heart failure with symptomatic improvements and favourable reverse left ventricular remodeling. However, several questions remain to be answered, regarding the optimal management of functional mitral regurgitation, the correct timing of surgery and the choice of the surgical technique to perform in patients affected by dilated cardiomyopathy. In the setting of ischemic chronic cardiomyopathy, data derived from the recent literature suggest that concomitant severe ischemic MR should be addressed during CABG to improve survival and quality of life. Most surgeons perform concomitant CABG and mitral valve surgery in patients with ischemic chronic cardiomyopathy and moderate to severe MR. In the setting of chronic dilated cardiomyopathy, most clinicians would agree that correction of severe MR in heart failure is warranted, mostly due to a symptomatic benefit and reduction of number of re-hospitalizations. Moreover, reverse ventricular remodeling has been demonstrated with undersized annuloplasty rings and correction of MR: this could lead to improved contractility, reduction in left ventricular end-diastolic and end-systolic volumes, and finally to improved NYHA functional class. Recent large studies suggest that patients undergoing mitral valve repair had improved perioperative survival, shorter length of stay, and improved long-term survival than those undergoing mitral valve replacement because the preservation of the subvalvular apparatus seems to result in superior left ventricular remodelling and in greater improvement in NYHA class. In the near future, data from multi-institutional, randomized prospective trials will help to elucidate many of the questions and concerns regarding repair of severe functional mitral regurgitation. Finally, technology applied to heart surgery is continually evolving and will allow more exciting cellular and novel device therapies for the treatment of functional mitral regurgitation secondary to dilated cardiomyopathy.
On computed tomography (CT) imaging, a peri-vascular adipose tissue attenuation (pVAT) measure has been proposed as a non-invasive correlate of inflammation in the coronary artery vessels, and a single research group provided histopathological demonstration of this radiological/pathological correspondence. Our group has shown that patients with surgical-grade ascending aorta (AA) aneurysm display higher pVAT compared with patients with smaller aneurysms or normal AA. Based on histopathological studies on coronary arteries, we speculated that this correlation may be related to a non-otherwise specified aortic inflammatory process. However, since adipose tissue around the AA is often scant, and there are no histopathological studies confirming such hypothesized association between higher pVAT and inflammation around the AA, we cannot exclude that this pVAT change is secondary to different mechanisms, unrelated to the actual presence of peri-vascular inflammation. We performed a retrospective clinical/radiological/pathological study in 78 patients who underwent AA surgery with the aim to correlate pre-operatory pVAT on CT with histopathological findings from the surgical specimens. Histopathological review and immunohistochemistry were performed on the surgical aortic samples. The AA adventitial/periadventitial adipose tissue had higher pVAT by an increasing collagen fiber deposition, which progressively makes the fat hypotrophic and, in the late stages of this process, it replaces the normal soft tissue composition in this location. In the ascending aorta, pVAT on CT imaging is probably not a proxy for the presence of current vascular inflammation, although it may track changes involving the progressive substitution of perivascular adipose cells by higher-pVAT tissues, mainly fibrotic replacement.
Since the advent of TAVR (transcatheter aortic valve replacement), the transapical surgical approach has been affirmed as a safe and effective alternative access for patients with unsuitable peripheral arteries. With the improvement of devices for transfemoral approach and the development of other alternative accesses, the number of transapical procedures has decreased significantly worldwide. The left ventricular apex, however, has proved to be a safe and valid alternative access for various other structural heart procedures such as mitral valve repair, mitral valve-in-valve or valve-in-ring replacement, transcatheter mitral valve replacement (TMVR), transcatheter mitral paravalvular leak repair, and thoracic aorta endovascular repair (TEVAR). We review the literature and our experience of various hybrid transcatheter structural heart procedures using the transapical surgical approach and discuss pros and cons.
The burden of diseases associated with diabetes mellitus is dramatic: adults with diabetes mellitus are 2 to 4 times more likely to have cardiovascular diseases than those without it, and at least 65% will die because of diabetes complications. The revascularization strategy in these types of patients included percutaneous coronary interventions with bare metal stents or medicated stents and surgical coronary artery bypass grafting (CABG), but it is well known that in the diabetic patient with two or more vessel disease, the surgical strategy allows the best mid-and longterm results. Moreover, benefits of CABG surgery are limited by life expectancy of the most common type of graft, the saphenous vein (SV). Nearly 40 years after the introduction of bypass surgery, the rate of vein graft failure remains at high levels. Several arterial conduits had been studied as alternative conduits to SV: the Right Internal Thoracic Artery (RITA), the Radial Artery (RA), the Gastroepiploic Artery (GEA) and the Inferior Epigastric Artery (IEA), 40 years ago. The aim of our article is to review the scientific literature of the past 15 years to answer this question: are we ready to treat the diabetic patient, with a completely arterial revascularization, avoiding the use of the great saphenous vein grafts?
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