1,721,054 research outputs found
Extracorporeal membrane oxygenation(ECMO) in refractory cardiogenic shock: impact of acute versus chronic etiology on outcome
Full text linkRefractory cardiogenic shock (CS) is a condition that continues to have a very high mortality despite advances in medical therapy. Conventional treatment typically comprises inotrope infusions, vasopressors and intra-aortic-balloon-pump (IABP). When circulatory instability is refractory to these treatments, mechanical circulatory support represents the only hope for survival, as indicated by current guidelines. As most of these patients present with critical circulatory instability requiring urgent or emergent therapy, the chosen mechanical assistance should be rapidly and easily implanted. For this reason ExtraCorporeal Membrane Oxygenation (ECMO) represents the ideal “bridge-to-life” and increasingly it is used to keep the patient alive while the optimal therapeutic management is determined (bridge-to-decision). Management may then follow one of three courses: “bridge-to-recovery”: patient recovery, and weaning from ECMO; “bridge-to-transplant”: direct heart transplantation; “bridge-to-bridge”: placement of ventricular-assist-device or total artificial longer-term support. There have been several large reports on the use of ECMO as a mechanical support in post-cardiotomy patients but relatively few, mostly small case-series focusing on its role in primary acute cardiogenic shock outside of the post-cardiotomy setting.
We present the results of our centre’s experience (Padova) in the treatment of primary acute cardiogenic shock with the PLS-Quadrox ECMO system (Maquet) as a bridge to decision. Furthermore, we evaluated the impact of etiology on patient outcomes by comparing acute primary refractory CS secondary to acute myocardial infarction (AMI), myocarditis, pulmonary embolism (PE) and post-partum cardiomyopathy (PPCM) with acute decompensation of a chronic cardiomyopathy, including dilated cardiomyopathy (DCM), ischemic cardiomyopathy (ICM) and grown-up-congenital-heart-diseases (GUCHD). We also analyzed whether duration and magnitude of support may predict weaning and survival.
Materials and Methods. Between January 2009 and March 2013, we implanted a total of 249 ECMO; in this study we focused on 64 patients where peripheral ECMO was the treatment for primary cardiogenic shock. Thirty-seven cases (58%) were “acute” (Group A-PCS: mostly acute myocardial infarction, 39%), while twenty-seven (42%) had an exacerbation of “chronic” heart failure (Group C-PCS: dilated cardiomyopathy 30%, post-ischemic cardiomyopathy 9%, congenital 3%).
Results. In group C-PCS, 23 patients were bridged to a LVAD (52%) or heart transplantation (33%). In group A-PCS, ECMO was used as bridge-to-transplantation in 3 patients (8%), bridge-to-bridge in 9 (24%), and bridge-to-recovery in 18 patients (49%). One patient in both groups was bridged to conventional surgery. Recovery of cardiac function was achieved only in group A-PCS (18 vs 0 pts, p=0.0001). Mean-flow during support ≤60% of the theoretical flow (BSA*2.4) was a predictor of successful weaning (p=0.02). Average duration of ECMO support was 8.9 ±9 days. Nine patients (14%) died during support; 30-day overall survival was 80% (51/64 pts); 59% of patients were discharged, in whom survival at 48 months was 90%. Better survival was observed in patients supported for 8 days or less (74% vs 36%, p=0.002).
Conclusions. In “chronic” heart-failure ECMO represents a bridge to VAD or heart-transplantation, while in “acute” settings it offers a considerable chance of recovery, often representing the only required therapy
Simultaneous epicardial atrial fibrillation ablation and left atrial appendage ligation: early considerations
Full text link
Use of the Jarvik 2000 to facilitate left ventricular assist device placement in challenging apex anatomy
Full text link
Phonographic detection of mechanical heart valve thrombosis
No full textThe formation of thrombotic deposits affects the functionality of mechanical prosthetic heart valves; as a consequence, mechanical valves thrombosis needs early diagnosis to prevent thromboembolic events.
This paper compares the acoustic signals produced by two commercial bileaflet mechanical heart valves in the closing phase to detect the presence of thrombi. The closing sounds were recorded in vitro by means of a phonocardiographic device under different hydrodynamic conditions. Thrombotic deposits of different weight and shape were applied onto the valve leaflet and the annular housing, until the movement of one leaflet was completely blocked.
From the acoustic signals, the corresponding spectra were calculated and four diagnostic frequency bands were identified: their comparison allowed detecting malfunctioning valves because of the presence of thrombotic formations
Cardiopulmonary exercise testing responses to different external portable drivers in a patient with a CardioWest Total Artificial Heart
No full textHow to remove the retroauricular driveline in the jarvik 2000 after heart transplantation
No full text- …
