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Clinical validation of a real-time data processing system for cardiac output and arterial pressure measurement during intraoperative biventricular pacing optimization.术中双心室起搏优化期间心输出量和动脉压测量的实时数据处理系统的临床验证。
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本文引用的文献

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Optimized temporary biventricular pacing acutely improves intraoperative cardiac output after weaning from cardiopulmonary bypass: a substudy of a randomized clinical trial.优化的临时双心室起搏在心肺转流脱机后急性改善术中心输出量:一项随机临床试验的亚研究。
J Thorac Cardiovasc Surg. 2011 Apr;141(4):1002-8, 1008.e1. doi: 10.1016/j.jtcvs.2010.07.004. Epub 2010 Aug 30.
2
Cardiac resynchronization induces major structural and functional reverse remodeling in patients with New York Heart Association class I/II heart failure.心脏再同步治疗可使纽约心脏协会心功能I/II级心力衰竭患者出现显著的结构和功能逆向重构。
Circulation. 2009 Nov 10;120(19):1858-65. doi: 10.1161/CIRCULATIONAHA.108.818724. Epub 2009 Oct 26.
3
Simultaneous variation of ventricular pacing site and timing with biventricular pacing in acute ventricular failure improves function by interventricular assist.双心室起搏时,通过心室辅助,同时改变心室起搏部位和时机可改善急性心力衰竭时的功能。
Am J Physiol Heart Circ Physiol. 2009 Dec;297(6):H2220-6. doi: 10.1152/ajpheart.00802.2009. Epub 2009 Oct 23.
4
Echocardiography and noninvasive imaging in cardiac resynchronization therapy: results of the PROSPECT (Predictors of Response to Cardiac Resynchronization Therapy) study in perspective.心脏再同步治疗中的超声心动图与无创成像:前瞻性PROSPECT(心脏再同步治疗反应预测因素)研究结果
J Am Coll Cardiol. 2009 May 26;53(21):1933-43. doi: 10.1016/j.jacc.2008.11.061.
5
Long-term left ventricular reverse remodelling with cardiac resynchronization therapy: results from the CARE-HF trial.心脏再同步治疗的长期左心室逆向重构:CARE-HF试验结果
Eur J Heart Fail. 2009 May;11(5):480-8. doi: 10.1093/eurjhf/hfp034. Epub 2009 Mar 14.
6
A prospective randomized evaluation of VV delay optimization in CRT-D recipients: echocardiographic observations from the RHYTHM II ICD study.心脏再同步化治疗除颤器(CRT-D)植入者中VV间期优化的前瞻性随机评估:来自RHYTHM II ICD研究的超声心动图观察结果
Pacing Clin Electrophysiol. 2009 Mar;32 Suppl 1:S120-5. doi: 10.1111/j.1540-8159.2008.02267.x.
7
Interventricular delay interval optimization in cardiac resynchronization therapy guided by echocardiography versus guided by electrocardiographic QRS interval width.超声心动图引导与心电图QRS间期宽度引导下心脏再同步治疗中心室间延迟间期优化的比较
Am J Cardiol. 2008 Nov 15;102(10):1373-7. doi: 10.1016/j.amjcard.2008.07.015. Epub 2008 Sep 6.
8
Ventricular optimization of biventricular pacing: a systematic review.双心室起搏的心室优化:一项系统评价
Europace. 2008 Aug;10(8):901-6. doi: 10.1093/europace/eun177. Epub 2008 Jul 8.
9
Impact of pacing modality and biventricular pacing on cardiac output and coronary conduit flow in the post-cardiotomy patient.
Interact Cardiovasc Thorac Surg. 2008 Oct;7(5):805-8. doi: 10.1510/icvts.2008.180497. Epub 2008 Jun 9.
10
Validation of a peak endocardial acceleration-based algorithm to optimize cardiac resynchronization: early clinical results.基于心内膜峰值加速度优化心脏再同步化算法的验证:早期临床结果
Europace. 2008 Jul;10(7):801-8. doi: 10.1093/europace/eun125. Epub 2008 May 19.

验证自动监测心输出量以优化双心室起搏。

Validation of automated monitoring of cardiac output for biventricular pacing optimization.

机构信息

Department of Surgery, Columbia University, New York, New York 10032, USA.

出版信息

ASAIO J. 2010 May-Jun;56(3):265-9. doi: 10.1097/MAT.0b013e3181cf882a.

DOI:10.1097/MAT.0b013e3181cf882a
PMID:20335801
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5719881/
Abstract

Biventricular pacing (BiVP) can increase cardiac output (CO) during acute failure of the left ventricle (LV) after cardiac surgery. This CO benefit is maximized by adjustment of atrioventricular (AVD) and interventricular (VVD) pacing delays. Real-time CO calculation could facilitate this optimization. Accordingly, we compared real-time automated analysis (AA) of CO with manual analysis (MA) in an animal model of pressure overload of the right ventricle (RV). In six anesthetized pigs, pacing leads were placed on the right atrium, RV, and LV. Complete heart block was induced with ethanol injection, and RV systolic pressure was doubled with a pulmonary artery snare. Atrioventricular pacing delay was varied over seven common values and VVD over nine, in random sequence. Two LV pacing sites (LVPS) were also tested. Aortic flow velocity, measured by ultrasonic flow probe, was integrated by AA and MA to calculate CO. Interexaminer Reliability Coefficient (IRC) was determined by Analysis of Variance (ANOVA) for two 10-second runs in each animal. Cardiac output-AVD and CO-VVD relations were similar for AA and MA. Interexaminer Reliability Coefficients were 0.997 and 0.994 for MA vs. AA. Automated analysis was available in real-time. Manual analysis was delayed at 2 hours or more. Automated analysis merits development for real-time optimization of intraoperative BiVP.

摘要

双心室起搏(BiVP)可以增加心脏手术后左心室(LV)急性衰竭时的心输出量(CO)。通过调整房室(AVD)和室间(VVD)起搏延迟,可以最大限度地提高 CO 获益。实时 CO 计算可以促进这种优化。因此,我们在右心室(RV)压力超负荷的动物模型中比较了 CO 的实时自动分析(AA)和手动分析(MA)。在六只麻醉猪中,将起搏导线放置在右心房、RV 和 LV 上。用乙醇注射诱导完全性心脏阻滞,并通过肺动脉套环将 RV 收缩压增加一倍。以随机顺序改变七个常见值的 AVD 和九个常见值的 VVD。还测试了两个 LV 起搏部位(LVPS)。通过超声流量探头测量主动脉血流速度,通过 AA 和 MA 进行积分以计算 CO。通过方差分析(ANOVA)确定每个动物的两个 10 秒运行的检查者间可靠性系数(IRC)。AA 和 MA 的 CO-AVD 和 CO-VVD 关系相似。MA 与 AA 的检查者间可靠性系数分别为 0.997 和 0.994。自动分析可实时提供。手动分析在 2 小时或更长时间后延迟。自动分析值得为术中 BiVP 的实时优化而开发。