Navin K. Kapur

2015 SCAI/ACC/HFSA/STS clinical expert consensus statement on the use of percutaneous mechanical circulatory support devices in cardiovascular care: Endorsed by the American Heart Assocation, the Cardiological Society of India, and Sociedad Latino Americana de Cardiologia intervencion; Affirmation of value by the Canadian Association of Interventional Cardiology-Association Canadienne de Cardiologie d'intervention

Although historically the intra-aortic balloon pump has been the only mechanical circulatory support device available to clinicians, a number of new devices have become commercially available and have entered clinical practice. These include axial flow pumps, such as Impella(®); left atrial to femoral artery bypass pumps, specifically the TandemHeart; and new devices for institution of extracorporeal membrane oxygenation. These devices differ significantly in their hemodynamic effects, insertion, monitoring, and clinical applicability. This document reviews the physiologic impact on the circulation of these devices and their use in specific clinical situations. These situations include patients undergoing high-risk percutaneous coronary intervention, those presenting with cardiogenic shock, and acute decompensated heart failure. Specialized uses for right-sided support and in pediatric populations are discussed and the clinical utility of mechanical circulatory support devices is reviewed, as are the American College of Cardiology/American Heart Association clinical practice guidelines.

Clinical efficacy and safety of statins in managing cardiovascular risk

Since their introduction in the 1980s, 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors (statins) have emerged as the one of the best-selling medication classes to date, with numerous trials demonstrating powerful efficacy in preventing cardiovascular outcomes. As our understanding of low-density lipoprotein cholesterol (LDL-C) and atherosclerosis continues to grow, the concept of ‘lower is better’ has corresponded with a ‘more is better’ approach to statin-based therapy. This review provides a detailed understanding of the clinical efficacy and safety of statins with a particular emphasis on the third generation drug, rosuvastatin.

Benefits of a novel percutaneous ventricular assist device for right heart failure: The prospective RECOVER RIGHT study of the Impella RP device

BACKGROUND Right ventricular failure (RVF) increases morbidity and mortality. The RECOVER RIGHT study evaluated the safety and efficacy of a novel percutaneous right ventricular assist device, the Impella RP (Abiomed, Danvers, MA), in a prospective, multicenter trial. METHODS Thirty patients with RVF refractory to medical treatment received the Impella RP device at 15 United States institutions. The study population included 2 cohorts: 18 patients with RVF after left ventricular assist device (LVAD) implantation (Cohort A) and 12 patients with RVF after cardiotomy or myocardial infarction (Cohort B). The primary end point was survival to 30 days or hospital discharge (whichever was longer). Major secondary end points included indices of safety and efficacy. RESULTS The patients (77% male) were a mean age of 59 ± 15 years, 53% had diabetes, 88.5% had a history of congestive heart failure, and 37.5% had renal dysfunction. Patients were on an average of 3.2 inotropes/pressors. Device delivery was achieved in all but 1 patient. Hemodynamics improved immediately after initiation of Impella RP support, with an increase in cardiac index from 1.8 ± 0.2 to 3.3 ± 0.23 liters/min/m(2) (p < 0.001) and a decrease in central venous pressure from 19.2 ± 4 to 12.6 ± 1 mm Hg (p < 0.001). Patients were supported for an average of 3.0 ± 1.5 days (range, 0.5-7.8 days). The overall survival at 30 days was 73.3%. All patients discharged were alive at 180 days. CONCLUSIONS In patients with life-threatening RVF, the novel percutaneous Impella RP device was safe, easy to deploy, and reliably resulted in immediate hemodynamic benefit. These data support its probable benefit in this gravely ill patient population.

Reduced Endoglin Activity Limits Cardiac Fibrosis and Improves Survival in Heart Failure

Background— Heart failure is a major cause of morbidity and mortality worldwide. The ubiquitously expressed cytokine transforming growth factor-&bgr;1 (TGF&bgr;1) promotes cardiac fibrosis, an important component of progressive heart failure. Membrane-associated endoglin is a coreceptor for TGF&bgr;1 signaling and has been studied in vascular remodeling and preeclampsia. We hypothesized that reduced endoglin expression may limit cardiac fibrosis in heart failure. Methods and Results— We first report that endoglin expression is increased in the left ventricle of human subjects with heart failure and determined that endoglin is required for TGF&bgr;1 signaling in human cardiac fibroblasts using neutralizing antibodies and an siRNA approach. We further identified that reduced endoglin expression attenuates cardiac fibrosis, preserves left ventricular function, and improves survival in a mouse model of pressure-overload–induced heart failure. Prior studies have shown that the extracellular domain of endoglin can be cleaved and released into the circulation as soluble endoglin, which disrupts TGF&bgr;1 signaling in endothelium. We now demonstrate that soluble endoglin limits TGF&bgr;1 signaling and type I collagen synthesis in cardiac fibroblasts and further show that soluble endoglin treatment attenuates cardiac fibrosis in an in vivo model of heart failure. Conclusion— Our results identify endoglin as a critical component of TGF&bgr;1 signaling in the cardiac fibroblast and show that targeting endoglin attenuates cardiac fibrosis, thereby providing a potentially novel therapeutic approach for individuals with heart failure.

Effects of a percutaneous mechanical circulatory support device for medically refractory right ventricular failure

BACKGROUND Medically refractory right ventricular failure (MR-RVF) is associated with high in-hospital mortality and is managed with surgical assist devices, atrial septostomy, or extracorporeal membrane oxygenation. This study explored the hemodynamic effect associated with a percutaneous RV support device (pRVSD) for MR-RVF. METHODS Between 2008 and 2010, 9 patients with MR-RVF, defined as cardiogenic shock despite maximal medical therapy, were treated with a pRVSD. Medical records were reviewed for demographics, hemodynamic and laboratory data, and details of pRVSD implantation. RESULTS MR-RVF was due to severe sepsis in 1 patient (11.1%), post-cardiotomy syndrome in 2 (22.2%), and acute inferior wall myocardial infarction (IWMI) in 6 (66.7%). Five patients underwent right internal jugular-to-femoral cannulation, and 4 required bifemoral cannulation. No intra-procedural deaths or major vascular complications requiring surgical or peripheral intervention occurred. Time from admission to pRVSD implantation was 2.9 ± 3.3 days, with an average of 6516 ± 698 rotations/min, providing flow at 3.3 ± 0.4 liters/min. Mean duration of pRVSD activation was 3.1 ± 1.8 days. Compared with pre-procedural values, mean arterial pressure (57 ± 7 vs 75 ± 19 mm Hg, p < 0.05), right atrial pressure (22 ± 3 vs 15 ± 6 mm Hg, p < 0.05), cardiac index (1.5 ± 0.4 vs 2.3 ± 0.5 liters/min/m(2), p < 0.05), mixed venous oxygen saturation (40 ± 14 vs 58 ± 4 percent, p < 0.05), and RV stroke work (3.4 ± 3.9 vs 9.7 ± 6.8 g · m/beat, p < 0.05) improved significantly within 24 hours of pRVSD implantation. In-hospital mortality was 44% (n = 4). Time from admission to pRVSD placement was lower in patients who survived to hospital discharge (0.9 ± 0.8 days) vs non-survivors (4.8 ± 3.5 days; p = 0.04). All survivors presented with IWMI. CONCLUSION Use of a pRVSD for MR-RVF is feasible and associated with improved hemodynamics. Algorithms promoting earlier pRVSD use in MR-RVF warrant further investigation.

2015 SCAI/ACC/HFSA/STS Clinical Expert Consensus Statement on the Use of Percutaneous Mechanical Circulatory Support Devices in Cardiovascular Care

AbstractAlthough historically the intra-aortic balloon pump has been the only mechanical circulatory support device available to clinicians, a number of new devices have become commercially availab...

Left Ventricular T Cell Recruitment Contributes to the Pathogenesis of Heart Failure

Background—Despite the emerging association between heart failure (HF) and inflammation, the role of T cells, major players in chronic inflammation, has only recently begun to be explored. Whether T-cell recruitment to the left ventricle (LV) participates in the development of HF requires further investigation to identify novel mechanisms that may serve for the design of alternative therapeutic interventions. Methods and Results—Real-time videomicroscopy of T cells from nonischemic HF patients or from mice with HF induced by transverse aortic constriction revealed enhanced adhesion to activated vascular endothelial cells under flow conditions in vitro compared with T cells from healthy subjects or sham mice. T cells in the mediastinal lymph nodes and the intramyocardial endothelium were both activated in response to transverse aortic constriction and the kinetics of LV T-cell infiltration was directly associated with the development of systolic dysfunction. In response to transverse aortic constriction, T cell–deficient mice (T-cell receptor, TCR&agr;−/−) had preserved LV systolic and diastolic function, reduced LV fibrosis, hypertrophy and inflammation, and improved survival compared with wild-type mice. Furthermore, T-cell depletion in wild-type mice after transverse aortic constriction prevented HF. Conclusions—T cells are major contributors to nonischemic HF. Their activation combined with the activation of the LV endothelium results in LV T-cell infiltration negatively contributing to HF progression through mechanisms involving cytokine release and induction of cardiac fibrosis and hypertrophy. Reduction of T-cell infiltration is thus identified as a novel translational target in HF.

Mechanically Unloading the Left Ventricle Before Coronary Reperfusion Reduces Left Ventricular Wall Stress and Myocardial Infarct Size

Background— Ischemia/reperfusion injury worsens infarct size, a major determinant of morbidity and mortality after acute myocardial infarction (MI). We tested the hypothesis that reducing left ventricular wall stress with a percutaneous left atrial-to-femoral artery centrifugal bypass system while delaying coronary reperfusion limits myocardial injury in a model of acute MI. Methods and Results— MI was induced by balloon occlusion of the left anterior descending artery in adult male swine. In the MI group (n=4), 120 minutes of left anterior descending artery occlusion was followed by 120 minutes of reperfusion without mechanical support. In the mechanically supported group (MI+unload; n=4), percutaneous left atrial–to–femoral artery bypass was initiated after 120 minutes of ischemia, and left anterior descending artery occlusion was prolonged for an additional 30 minutes, followed by 120 minutes of reperfusion with device support. All animals were euthanized after reperfusion, and infarct size was quantified by triphenyltetrazolium chloride staining. Compared with baseline, mean left ventricular wall stress and stroke work were not changed at any point in the MI group but were decreased after reperfusion in the MI+unload group (mean left ventricular wall stress, 44 658 versus 22 963 dynes/cm2; stroke work, 2823 versus 655 mm Hg·mL, MI versus MI+unload). Phosphorylation of reperfusion injury salvage kinase pathway proteins from noninfarcted left ventricular tissue was unchanged in the MI group but was increased in the MI+unload group. Compared with the MI group, total infarct size was reduced in the MI+unload group (49% versus 28%, MI versus MI+unload). Conclusions— These data support that first unloading the left ventricle despite delaying coronary reperfusion during an acute MI reduces myocardial injury.

Bivalirudin Is a Dual Inhibitor of Thrombin and Collagen-Dependent Platelet Activation in Patients Undergoing Percutaneous Coronary Intervention

Background— Bivalirudin, a direct thrombin inhibitor, is a widely used adjunctive therapy in patients undergoing percutaneous intervention (PCI). Thrombin is a highly potent agonist of platelets and activates the protease-activated receptors, PAR1 and PAR4, but it is not known whether bivalirudin exerts antiplatelet effects in PCI patients. We tested the hypothesis that bivalirudin acts as an antiplatelet agent in PCI patients by preventing activation of PARs on the platelet surface. Methods and Results— The effect of bivalirudin on platelet function and systemic thrombin levels was assessed in patients undergoing elective PCI. Mean plasma levels of bivalirudin were 2.7±0.5 &mgr;mol/L during PCI, which correlated with marked inhibition of thrombin-induced platelet aggregation and significantly inhibited cleavage of PAR1. Unexpectedly, bivalirudin also significantly inhibited collagen-platelet aggregation during PCI. Collagen induced a conversion of the platelet surface to a procoagulant state in a thrombin-dependent manner that was blocked by bivalirudin. Consistent with this result, bivalirudin reduced systemic thrombin levels by >50% during PCI. Termination of the bivalirudin infusion resulted in rapid clearance of the drug with a half-life of 29.3 minutes. Conclusions— Bivalirudin effectively suppresses thrombin-dependent platelet activation via inhibition of PAR1 cleavage and inhibits collagen-induced platelet procoagulant activity as well as systemic thrombin levels in patients undergoing PCI.

Pulmonary Artery Pulsatility Index Is Associated With Right Ventricular Failure After Left Ventricular Assist Device Surgery

BACKGROUND Right ventricular failure (RVF) is a major cause of morbidity and mortality after CF-LVAD implantation. We explored the association of pulmonary artery compliance (PAC), pulmonary artery elastance (PAE), and pulmonary artery pulsatility index (PAPi) in addition to established parameters as preoperative determinants of postoperative RVF after CF-LVAD surgery. METHODS AND RESULTS We retrospectively reviewed 132 consecutive CF-LVAD implantations at Tufts Medical Center from 2008 to 2013. Clinical, hemodynamic, and echocardiographic data were studied. RVF was defined as the unplanned need for a right ventricular assist device or inotrope dependence for ≥14 days. Univariate analysis was performed. RVF occurred in 32 of 132 patients (24%). PAC and PAE were not changed, whereas the PAPi was lower among patients with versus without postoperative RVF (1.32 ± 0.46 vs 2.77 ± 1.16; P < .001). RA pressure, RA to pulmonary capillary wedge pressure ratio (RA:PCWP), and RV stroke work index (RVSWI) were also associated with RVF. Using receiver operating characteristic curve-derived cut-points, PAPi < 1.85 provided 94% sensitivity and 81% specificity (C-statistic = 0.942) for identifying RVF and exceeded the predictive value of RA:PCWP, RVSWI, or RA pressure alone. CONCLUSIONS PAPi is a simple hemodynamic variable that may help to identify patients at high risk of developing RVF after LVAD implantation.