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相关概念视频

Electrocardiogram01:29

Electrocardiogram

2.3K
An electrocardiogram (ECG or EKG) is a critical diagnostic tool that records the electrical signals produced by the heart during each heartbeat. This recording is achieved through electrodes placed strategically on the arms, legs, and chest. The electrocardiograph amplifies these signals and produces 12 distinct tracings, offering a comprehensive understanding of the heart's electrical activity.
Three major waveforms are present in a typical ECG recording: the P wave, the QRS complex, and...
2.3K
Electrocardiogram Fundamentals01:28

Electrocardiogram Fundamentals

563
Introduction
An electrocardiogram (ECG) is a diagnostic tool for identifying cardiac conditions such as arrhythmias, conduction abnormalities, and myocardial ischemia.
Definition
An electrocardiogram (ECG) visualizes the heart's electrical activity by tracing the electrical movement associated with each heartbeat on a graph or monitor. As the heart beats, an electrical wave passes through it, correlating with the cardiac cycle events.
Parts of an ECG
An ECG utilizes electrodes on the skin...
563
Magnetic Resonance Imaging01:24

Magnetic Resonance Imaging

5.1K
Magnetic resonance imaging (MRI) is a noninvasive medical imaging technique based on a phenomenon of nuclear physics discovered in the 1930s, in which matter exposed to magnetic fields and radio waves was found to emit radio signals. In 1970, a physician and researcher named Raymond Damadian noticed that malignant (cancerous) tissue gave off different signals than normal body tissue. He applied for a patent for the first MRI scanning device in clinical use by the early 1980s. The early MRI...
5.1K
Pulse rhythm01:30

Pulse rhythm

785
Pulse rhythm refers to the pattern of pulsations within specific intervals, offering valuable insights into the regularity or irregularity of the heart's beats as observed through the pattern of pulsation within specific intervals. A regular pulse exhibits a consistent heart rate with uniform waveforms and pulsation force, variations of which can be classified as normal, weak, or bounding.
Conversely, an irregular pulse pattern is termed dysrhythmia, stemming from disruptions in cardiac...
785

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相关实验视频

Updated: Jun 24, 2025

Cardiac Magnetic Resonance Imaging at 7 Tesla
09:14

Cardiac Magnetic Resonance Imaging at 7 Tesla

Published on: January 6, 2019

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磁心电图是指磁心电图.

Bradley J Roth1

  • 1Department of Physics, Oakland University, Rochester, Michigan 48309, USA.

Biophysics reviews
|June 3, 2024
PubMed
概括
此摘要是机器生成的。

磁心图 (MCG) 研究已经从基本概念发展到临床应用. 技术的进步现在使得心脏的精确测量成为可能.

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Quantification of Mouse Heart Left Ventricular Function, Myocardial Strain, and Hemodynamic Forces by Cardiovascular Magnetic Resonance Imaging
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Quantification of Mouse Heart Left Ventricular Function, Myocardial Strain, and Hemodynamic Forces by Cardiovascular Magnetic Resonance Imaging

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Magnetic Resonance Derived Myocardial Strain Assessment Using Feature Tracking
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Magnetic Resonance Derived Myocardial Strain Assessment Using Feature Tracking

Published on: February 12, 2011

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相关实验视频

Last Updated: Jun 24, 2025

Cardiac Magnetic Resonance Imaging at 7 Tesla
09:14

Cardiac Magnetic Resonance Imaging at 7 Tesla

Published on: January 6, 2019

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Quantification of Mouse Heart Left Ventricular Function, Myocardial Strain, and Hemodynamic Forces by Cardiovascular Magnetic Resonance Imaging
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Quantification of Mouse Heart Left Ventricular Function, Myocardial Strain, and Hemodynamic Forces by Cardiovascular Magnetic Resonance Imaging

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Magnetic Resonance Derived Myocardial Strain Assessment Using Feature Tracking
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Magnetic Resonance Derived Myocardial Strain Assessment Using Feature Tracking

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科学领域:

  • 生物物理学的生物物理.
  • 心脏病学 心脏病学
  • 生物磁性 生物磁性

背景情况:

  • 磁心图 (MCG) 表示由心脏的电活动产生的磁场.
  • 早期的研究 (20年) 建立了MCG的核心概念,仪器和计算方法.
  • 对隔离心脏组织的研究为生物磁性提供了更深入的见解.

研究的目的:

  • 审查磁心图学研究的历史发展和当前重点.
  • 突出从基本原则到临床应用的进展.
  • 强调技术进步在生物磁场测量的作用.

主要方法:

  • 审查历史的MCG研究,包括仪器仪表和计算算法.
  • 对隔离心脏组织的研究进行分析,以了解生物磁性.
  • 对MCG源本地化计算建模的探索 (反向问题).
  • 检查用于测量弱生物磁场技术的最新进展.

主要成果:

  • 在MCG概念,仪器和算法方面建立了基础知识.
  • 通过实验模型获得了对生物磁力学的基本见解.
  • 开发了计算模型来计算MCG并解决反向问题.
  • 最近的研究重点转向临床应用,在新的测量技术的帮助下.

结论:

  • MCG研究具有丰富的基础发展历史.
  • 计算建模对于解释MCG数据至关重要.
  • 技术进步正在推动MCG的临床转化.
  • 该领域越来越专注于实际的诊断和治疗应用.