Pleiotropic effects of the HMG-CoA reductase inhibitors

The HMG-CoA reductase inhibitors (statins) are used extensively in the treatment of hyperlipidemia. They have also demonstrated a benefit in a variety of other disease processes. These secondary actions are known as pleiotropic effects. Our paper serves as a focused and updated discussion on the pleiotropy of statins and emphasizes the importance of randomized placebo-controlled trials to further elucidate this interesting phenomenon

Incidence of postoperative acute kidney injury in patients with chronic kidney disease undergoing minimally invasive valve surgery

BackgroundWe hypothesize that minimally invasive valve surgery in patients with chronic kidney disease (CKD) is superior to a conventional median sternotomy.MethodsWe retrospectively analyzed 1945 consecutive patients who underwent isolated valve surgery. Included were patients with CKD stages 2 to 5. In-hospital mortality, composite complication rates, and intensive care unit and total hospital lengths of stay of those who underwent a minimally invasive approach were compared with those who underwent a standard median sternotomy. Resource use was approximated based on intensive care unit and total hospital lengths of stay.ResultsThere were 688 patients identified; 510 (74%) underwent minimally invasive surgery, and 178 (26%) underwent a median sternotomy. There was no significant difference in mortality. Minimally invasive surgery was associated with fewer composite complications (33.1% vs 49.4%; odds ratio, 0.5; P ≤ .001), shorter intensive care unit (48 [interquartile range {IQR}, 33-74] hours vs 71 [IQR, 42-96] hours; P < .01), and hospital (8 [IQR, 6-9] days vs 10 [IQR, 8-15] days; P < .001) lengths of stay, and a lower incidence of acute kidney injury (8% vs 14.7%; odds ratio, 0.5; P = .01), compared with median sternotomy. In a multivariable analysis, minimally invasive surgery was associated with a 60% reduction in the risk of development of postoperative acute kidney injury.ConclusionsIn patients with CKD undergoing isolated valve surgery, minimally invasive valve surgery is associated with reduced postoperative complications and lower resource use

Intermediate Results of Transaortic Edge-to-Edge Repair of the Mitral Valve in Patients Undergoing Aortic Valve Replacement

Background and aim of the study: The study aim was to evaluate the safety and efficacy of a transaortic edge-to-edge mitral valve repair in patients undergoing aortic valve replacement (AVR) who were considered to be at high risk for double-valve surgery. Methods: All patients deemed to be at high surgical risk for standard double-valve surgery, and who instead underwent AVR with transaortic edge-to-edge mitral valve repair between September 2008 and October 2012 at the authors' institution, were analyzed retrospectively. Intraoperative transesophageal and follow-up transthoracic echocardiography were performed to evaluate adequacy of the repair and to assess for any recurrence of mitral regurgitation (MR). Results: A total of 55 patients (mean age 78.4 +/-. 8.4 years) was identified (45 minimally invasive, 10 median sternotomy). All patients were in NYHA class The aortic valve lesion was classified as stenosis (n = 45), insufficiency (n = 6), or prosthetic valve insufficiency (n = 4), and the mitral valve lesion as functional (n = 16), degenerative calcification (n = 27), or rheumatic (n = 12). There were four deaths (7%). The median total hospital length of stay was 7 days (IQR 6-11 days). The median preoperative versus postoperative MR grade was moderate-to-severe (3+) (IQR 3-4+) versus 0 (IQR 0-1+) (p <0.001). The median time to follow up echocardiography was 6.5 months (IQR 0.8-12 months). The median preoperative and postoperative versus follow up MR grades were 3+ (IQR 3-4+) versus 1+ (IQR 0-1+) (p <0.001), and 0 (IQR 0-1+) versus 1+ (IQR 0-1+) (p = 0.004), respectively. Conclusion: In high-risk patients undergoing AVR with grade 3-4+ MR, a transaortic edge-to-edge mitral valve repair may be a safe and effective alternative to conventional double-valve surgery. However, longer-term data are needed to verify this proposal

Minimally Invasive Transaortic Edge-to-Edge Repair of the Mitral Valve

Clinically significant mitral regurgitation is often found in conjunction with severe aortic valve stenosis. Adding mitral valve surgery to an aortic valve replacement (AVR) increases the operative risk. However, this increased operative risk may be reduced if, during AVR, a standard double-valve surgery is avoided and AVR isperformed instead with a transaortic edge-to-edge repair of the mitral valve. Utilizing a minimally invasive approach with this technique may further reduce the operative risk when compared to a median sternotomy approach. The procedural technique for this surgery is described in the present report

Papillary muscle approximation in mitral valve repair for secondary MR

Ischemic mitral regurgitation (IMR) is a complex disorder occurring after a myocardial infarction and affecting both the mitral valvular and subvalvular apparati. Several abnormalities can be detected in IMR as annular dilatation, leaflet tethering with impaired coaptation and papillary muscle (PM) displacement along a posterior, apical or lateral vectors. Treatments available include, beside myocardial revascularization, mitral-valve repair or chordal-sparing replacement. Repair is normally achieved downsizing the mitral valve annulus with a rigid or semirigid ring. However, considering the involvement of the subvalvular apparatus, techniques addressing the PM have been developed. The rationale at the basis of this strategy relies in the possibility to reduce the interpapillary muscle distance restoring the geometry of the left ventricle (LV) and ultimately resolving the leaflet tethering at the basis of IMR. Subvalvular apparatus surgical approaches include the papillary muscle approximation (PMA), surgical relocation and PM sling. Improved outcomes in terms of postoperative positive left ventricular remodeling and recurrence of mitral regurgitation have been reported, but more investigations are required to confirm the efficacy of subvalvular apparatus surgery. Application of finite element analysis to improve preoperative and intraoperative planning and achieve a correct and durable repair by means of subvalvular surgery is an exciting new avenue in IMR research