Αρχειοθήκη ιστολογίου

Τρίτη 22 Δεκεμβρίου 2020

Extracorporeal Life Support

On the Academic Value of 30 Years of the Extracorporeal Life Support Organization Registry
imageNo abstract available

2020 EACTS/ELSO/STS/AATS Expert Consensus on Post-cardiotomy Extracorporeal Life Support in Adult Patients
imagePost-cardiotomy extracorporeal life support (PC-ECLS) in adult patients has been used only rarely but recent data have shown a remarkable increase in its use, almost certainly due to improved technology, ease of management, growing familiarity with its capability and decreased costs. Trends in worldwide in-hospital survival, however, rather than improving, have shown a decline in some experiences, likely due to increased use in more complex, critically ill patients rather than to suboptimal management. Nevertheless, PC-ECLS is proving to be a valuable resource for temporary cardiocirculatory and respiratory support in patients who would otherwise most likely die. Because a comprehensive review of PC-ECLS might be of use for the practitioner, and possibly improve patient management in this setting, the authors have attempted to create a concise, comprehensive and relevant analysis of all aspects related to PC-ECLS, with a particular emphasis on indications, technique, management and avoidance of complications, appraisal of new approaches and ethics, education and training.

Out-of-center Initiation of Venovenous Extracorporeal Membrane Oxygenation in COVID-19 Patients
imageNo abstract available

Thrombophilia in Pediatric Patients with Multisystem Inflammatory Syndrome in Children Secondary to Coronavirus Disease 2019 Supported on Extracorporeal Membrane Oxygenation
imageCoronavirus disease 2019 (COVID-19) in adults has been associated with thrombosis. Multisystem inflammatory syndrome in children (MIS-C) with COVID-19 case series have reported high fibrinogen levels, but it is not known whether this causes thrombophilia. We report two patients needing extracorporeal membrane oxygenation (ECMO) who both suffered thrombotic complications. We retrospectively reviewed patients with MIS-C needing ECMO support admitted to a single Paediatric and Cardiac Intensive Care Unit within a regional center for MIS-C in South East England. Two children required ECMO for cardiovascular support. Both developed thrombotic events despite receiving heparin infusions at dosing higher than the interquartile range for our ECMO population. Case 1 developed a right anterior and middle cerebral artery infarct, which led to his death. Case 2 had a right atrial thrombus, which resolved without complication. When compared with patients undergoing ECMO in the same institution in pre-MIS-C era, fibrinogen levels were consistently higher before and during ECMO therapy. MIS-C patients presenting with hyperfibrinogenemia are likely to have a propensity toward thrombotic complications; this must be considered when optimizing the anticoagulation strategy on ECMO.

Lean Ad hoc Extracorporeal Membrane Oxygenation Systems for COVID-19
imageCoronavirus disease (COVID-19) is overwhelming hospitals with patients requiring respiratory support, including ventilators and Extracorporeal Membrane Oxygenation (ECMO). Bottlenecks in device availability may contribute to mortality, and limited device availability even in ECMO centers has led to rationing recommendations. Therefore, we explored options for ad hoc construction of venovenous ECMO using readily available components, essentially, large cannulas, membrane oxygenators, and blood pumps. As thousands of certified cardiac Impella pumps are distributed worldwide, we assembled lean ECMO by embedding Impella pumps coaxially in tubes, combined with standard gas exchangers. Ad hoc integration of Impella blood pumps with gas exchange modules, large-bore venous cannulas, regular ECMO tubing, Y-pieces, and connectors led to lean ECMO systems with stable performance over several days. Oxygenation of 2.5–5 L of blood per minute is realistic. Benefit/risk analysis appears favorable if a patient needs respiratory support but required support systems in a center are exhausted. Ad hoc assembly of venovenous ECMO is feasible using Impella blood pumps, results in stable blood flow across gas exchange modules, and thus may offer another opportunity to oxygenate, "recover the lungs" and hopefully save lives in selected patients with severe COVID-19 disease even when conventional life support equipment is exhausted. The lean design also yields inspirations for future ECMO systems.

Big Data Analytics + Virtual Clinical Semantic Network (vCSN): An Approach to Addressing the Increasing Clinical Nuances and Organ Involvement of COVID-19
imageThe coronavirus disease 2019 (COVID-19) pandemic has revealed deep gaps in our understanding of the clinical nuances of this extremely infectious viral pathogen. In order for public health, care delivery systems, clinicians, and other stakeholders to be better prepared for the next wave of SARS-CoV-2 infections, which, at this point, seems inevitable, we need to better understand this disease—not only from a clinical diagnosis and treatment perspective—but also from a forecasting, planning, and advanced preparedness point of view. To predict the onset and outcomes of a next wave, we first need to understand the pathologic mechanisms and features of COVID-19 from the point of view of the intricacies of clinical presentation, to the nuances of response to therapy. Here, we present a novel approach to model COVID-19, utilizing patient data from related diseases, combining clinical understanding with artificial intelligence modeling. Our process will serve as a methodology for analysis of the data being collected in the ASAIO database and other data sources worldwide.

Extracorporeal Life Support for Cardiogenic Shock With Either a Percutaneous Ventricular Assist Device or an Intra-Aortic Balloon Pump
imageExtracorporeal life support (ECLS) can result in complications due to increased left ventricular (LV) afterload. The percutaneous ventricular assist device (PVAD) and intra-aortic balloon pump (IABP) are both considered to be effective means of LV unloading. This study describes the efficacy of LV unloading and related outcomes with PVAD or IABP during ECLS. From January 2010 to April 2018, all cardiogenic shock patients who underwent ECLS plus simultaneous PVAD or IABP were analyzed. Forty-nine patients received ECLS + PVAD, while 91 received ECLS + IABP. At 48 hours, mean pulmonary artery pressure was significantly reduced in both groups [34 mm Hg to 22, p < 0.01; 32 mm Hg to 21, p < 0.01; ECLS + PVAD and ECLS + IABP group, respectively]. The two groups had similar 30 day survival rates [19 patients (39%) vs. 35 (39%), p = 0.56]. The ECLS + PVAD group had higher incidences of bleeding at the insertion site [11 (22%) vs. 0, p < 0.01] and major hemolysis [9 (18%) vs. 0, p < 0.01]. Both groups had improvement in LV end-diastolic dimension (61 ± 12 mm to 54 ± 12, p = 0.03; 60 ± 12 mm to 47 ± 10, p < 0.01), and LV ejection fraction (16 ± 7% to 22 ± 10, p < 0.01; 22 ± 12% to 29 ± 15, p = 0.01). Both ECLS + PVAD and ECLS + IABP effectively reduced pulmonary artery pressure and improved LV function. Bleeding at the PVAD or IABP insertion site occurred more frequently in the ECLS + PVAD group than the ECLS + IABP group (p < 0.01). Nine patients (18%) in the ECLS + PVAD group experienced major hemolysis, while there was no hemolysis in the ECLS + IABP group (p < 0.01). Careful considerations are required before selecting an additional support to ECLS.

Correction of High Afterload Improves Low Cardiac Output in Patients Supported on Left Ventricular Assist Device Therapy
imageThere is a paucity of data describing the invasive assessment of afterload and influence on cardiac output in patients supported on left ventricular assist device (LVAD) therapy. From 2015 to 2018, patients on LVAD therapy were evaluated with simultaneous left/right heart catheterization ramp study for speed optimization. Hemodynamic parameters from 31 patients without significant aortic insufficiency were analyzed. Mean central aortic pressure (MAP) was elevated at 87 ± 13 mm Hg at baseline. No direct association between MAP and cardiac index (CI) was found (r = 0.11, p = 0.20). However, variable MAP provided vastly different patterns of cardiac output response to speed increments (positive correlation, p = 0.047 for MAP <80 mm Hg; negative trend, p = 0.25 for MAP > 100 mm Hg). Patients noted to be hypertensive (MAP > 90, n = 8) received nitrate therapy and experienced both improvement in biventricular filling pressures and a mean increase in CI from 2.4 to 2.9 L/min/m2 (+22%, p = 0.04) at a fixed revolutions per minute. High afterload is common in patients on LVAD therapy, is associated with poor response to ramp, and is ameliorated by nitrates. These findings serve as a foundation to evaluate the dynamic effects of high afterload and chronic vasodilator therapy in patients with durable LVADs.

High Right Ventricular Afterload Is Associated with Impaired Exercise Tolerance in Patients with Left Ventricular Assist Devices
imagePatients with left ventricular assist device (LVAD) have poor exercise tolerance. We aimed to characterize relationship between right ventricular (RV) afterload and exercise capacity, RV reserve, and adaptation to load. Twelve well-compensated LVAD subjects underwent right heart catheterization at rest and during symptom-limited exercise. Cardiopulmonary exercise tests were also performed. Hemodynamics were compared with age- and sex-matched subjects with pulmonary arterial hypertension (PAH) and normal non-athletes. Hemodynamic changes were expressed as Δ(exercise − rest). At rest, LVAD subjects had normal biventricular pressures and cardiac output (CO). On exercise, despite similar increases in pulmonary artery wedge pressure (PAWP) between three groups, RV afterload increased only in LVAD cohort (pulmonary elastance [ΔEa] LVAD: 0.4, PAH: 0.1, normal: 0.1 mmHg/ml, p = 0.0024). This afterload increase coincided with the largest rise in right atrial pressure (RAP), lowest change in RV stroke work index, and smallest CO augmentation (ΔCO LVAD: 1.5, PAH: 4.3, normal: 5.7 L/min, p = 0.0014). Peak VO2 negatively correlated with RV afterload (Ea) (r = −0.8, p = 0.0101), while VE/VCO2 slope had the inverse correlation. During exercise, pulmonary artery pulsatility index worsened while RAP:PAWP ratio was unchanged in LVAD subjects. Well-compensated LVAD patients had poor RV reserve and adaptation to load on exercise compared with PAH and normal subjects.

Meet the Authors
imageNo abstract available


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Medicine by Alexandros G. Sfakianakis,Anapafseos 5 Agios Nikolaos 72100 Crete Greece,00302841026182,00306932607174,alsfakia@gmail.com,
Telephone consultation 11855 int 1193,

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