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Imbalances in Cardiac Output01:26

Imbalances in Cardiac Output

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The heart's primary function is to pump blood throughout the body, maintaining a balance between blood sent out (cardiac output) and blood returning (venous return). If this balance is disrupted, it can result in congestive heart failure (CHF), a severe condition where the heart becomes an inefficient pump, leading to inadequate blood circulation.
CHF can occur due to the failure of either side of the heart. Left-side failure leads to pulmonary congestion—the right side continues to send...
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Pathophysiology of Heart Failure01:17

Pathophysiology of Heart Failure

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Heart failure (HF) is a progressive syndrome involving ventricles that leads to inadequate cardiac output. It can be classified based on location and output or ejection fraction. Ejection fraction (EF) is an essential measurement in the diagnosis and surveillance of HF. Reduced EF corresponds to systolic heart failure (HFrEF). However, HF with preserved ejection fraction (HFpEF) is becoming increasingly prevalent. Also known as diastolic HF, this form of HF is related to aging. The...
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Pathophysiology of Cardiac Performance01:29

Pathophysiology of Cardiac Performance

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Typical heart performance is influenced by heart rate, rhythm, myocardial contraction, and metabolism or blood flow. The cardiac muscle exhibits distinct electrophysiological features, including pacemaker activity and calcium channel control, which play a vital role in the heart's response to various drugs. The autonomic nervous system, comprising the sympathetic and parasympathetic branches, regulates heart rate. Sympathetic activation increases heart rate, while parasympathetic activation...
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Anatomy of the Heart01:27

Anatomy of the Heart

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The human heart is made up of three layers of tissue that are surrounded by the pericardium, a membrane that protects and confines the heart. The outermost layer, closest to the pericardium, is the epicardium. The pericardial cavity separates the pericardium from the epicardium. Beneath the epicardium is the myocardium, the middle layer, and the endocardium, the innermost layer. There are four chambers of the heart: the right atrium, the right ventricle, the left atrium, and the left ventricle.
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Cardiac Output II: Effect of Stroke Volume on Cardiac Output01:22

Cardiac Output II: Effect of Stroke Volume on Cardiac Output

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Cardiac output (CO), the amount of blood the heart pumps per minute, is a parameter in cardiovascular physiology determined by stroke volume and heart rate. Stroke volume, the amount of blood pushed from one of the ventricles per heartbeat, is influenced by preload, afterload, and contractility.
Preload
Preload refers to the initial elongation of the cardiac myocytes before contraction and is related to the volume of blood filling the heart at the end of diastole, or end-diastolic volume. The...
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Updated: Jul 7, 2025

Use of Two Intracorporeal Ventricular Assist Devices As a Total Artificial Heart
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左心室辅助装置 阻塞 降低原生心脏效率

Ricardo Montes1, Saniya Salim Ueckert1, Vi Vu1

  • 1Bioengineering Program, San Diego State University, San Diego, CA 92182, USA.

Bioengineering (Basel, Switzerland)
|December 23, 2023
PubMed
概括
此摘要是机器生成的。

左心室辅助器件 (LVAD) 流入通路的逐渐阻塞显著降低了心脏功能,增加了血栓栓塞的风险. 早期发现这些障碍对于及时干预和改善患者结果至关重要.

关键词:
在LVAD和LVAD之间.流动 流动 流动 流动心灵的心灵心灵的心灵心灵的心灵血栓形成的原因是因为血栓.这里是心室室.这是一个的 vortex.

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科学领域:

  • 生物医学工程 生物医学工程
  • 心血管生理学心血管生理学
  • 医疗器械研究 医疗器械研究

背景情况:

  • 左心室辅助器件 (LVAD) 对于末期心力衰竭治疗至关重要.
  • 由血栓或组织过度生长引起的LVAD流通路径的阻塞可以导致严重的并发症,如栓塞和中风.
  • 了解LVAD阻塞的血液动力学影响对于患者管理至关重要.

研究的目的:

  • 量化逐渐入流阻碍对LVAD支持的心脏压力和流动动力学的影响.
  • 调查阻塞对本源心脏功能和心室内流动模式的影响.
  • 为了确定早期检测LVAD阻塞的潜在指标.

主要方法:

  • 在受控条件下利用模拟循环循环来模拟LVAD功能.
  • 通过逐渐封闭LVAD输入区域,引入渐进式阻塞 (PO).
  • 在不同的LVAD速度和PO水平上测量压力,流量和左心室 (LV) 中平面速度场.

主要成果:

  • 增加阻塞导致LVAD系统内的压力和流量下降.
  • 流量的很大一部分被转移到大动脉,使总流量减少了6-11%.
  • 原生心脏效率降低了高达60%,腹筋LVAD流量受限,额头流量减少,心室内渦减弱.

结论:

  • LVAD阻塞改变了心室内流动结构,促进了流动静止和剪切应力增加,从而增加了血栓栓塞的风险.
  • 观察到的流动动力学变化和心脏效率降低凸显了LVAD阻塞的临床意义.
  • 分析对外部工作的贡献可能为早期检测提供一种方法,使治疗干预能够防止设备故障和并发症.