Silvia Scuri scite author profile

There are limited therapeutic options for final treatment of end-stage heart failure. Among them, implantation of a total artificial heart (TAH) is an acceptable strategy when suitable donors are not available. TAH development began in the 1930s, followed by a dramatic evolution of the actuation mechanisms operating the mechanical pumps. Nevertheless, the performance of TAHs has not yet been optimized, mainly because of the low biocompatibility of the blood-contacting surfaces. Low hemocompatibility, calcification, and sensitivity to infections seriously affect the success of TAHs. These unsolved issues have led to the withdrawal of many prototypes during preclinical phases of testing. This review offers a comprehensive analysis of the pathophysiological events that may occur in the materials that compose TAHs developed to date. In addition, this review illustrates bioengineering strategies to prevent these events and describes the most significant steps toward the achievement of a fully biocompatible TAH.

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From bench to bedside: Can the improvements in left ventricular assist device design mitigate adverse events and increase survival?

Tarzia

Giammarco

Mauro

et al. 2016

The Journal of Thoracic and Cardiovascular Surgery

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Acute Increase of Cardiac Output Reduces Central Sleep Apneas in Heart Failure Patients

Agostoni¹,

Contini²,

Vignati³

et al. 2015

Journal of the American College of Cardiology

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From bench to bedside: Impact of left ventricular assist device outflow conduit anastomosis position on outcome

et al. 2020

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Continuous flow left ventricular assist devices (LVADs) have become a valuable therapy for end‐stage heart failure. In vitro research highlighted a role of outflow cannula position on the pattern of blood flow in the aorta. However, the clinical effects of the alterations of flow remain unclear. We investigate short‐ and long‐term outcomes of patients implanted with Jarvik 2000 LVAD, according to the ascending (Group 1) versus descending (Group 2) outflow graft connection to the aorta in a multicenter study. From May 2008 to October 2014, 140 consecutive end‐stage heart failure patients underwent Jarvik 2000 LVAD implantation in 17 Italian centers. According with a preliminary multivariate analysis, we selected the 90 patients implanted in the four high‐volume centers to avoid bias (Group 1 n = 39, Group 2 n = 51). Among the groups, no differences were recorded in the hospital mortality and the main complications occurring after LVAD implantation were similar. In multivariable analysis, the ascending aorta outflow cannula position and higher creatinine at discharge were significant predictors for long‐term survival. Postimplant hemolysis was more pronounced in descending aorta outflow graft anastomosis. Outflow graft anastomosis to the ascending aorta is associated with better long‐term survival, independent of age and perfusion techniques, reflecting the previous in vitro results.

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Silvia Scuri

Lvad pump speed increase is associated with increased peak exercise cardiac output and vo2, postponed anaerobic threshold and improved ventilatory efficiency

The Biocompatibility Challenges in the Total Artificial Heart Evolution

From bench to bedside: Can the improvements in left ventricular assist device design mitigate adverse events and increase survival?

Acute Increase of Cardiac Output Reduces Central Sleep Apneas in Heart Failure Patients

From bench to bedside: Impact of left ventricular assist device outflow conduit anastomosis position on outcome

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