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相关概念视频

Mechanism of Cardiac Arrhythmias01:28

Mechanism of Cardiac Arrhythmias

Arrhythmias are irregular heart rhythms occurring when the heart's electrical impulses become abnormal. These disturbances can lead to various symptoms, depending on their severity and the underlying cause. Some common factors contributing to arrhythmias include hypoxia, ischemia, electrolyte imbalances, excessive catecholamine exposure, drug toxicity, and muscle overstretching. Arrhythmias can be classified into two main types based on the rate and site of origin of abnormal heart rhythms.
Heart Valves01:16

Heart Valves

The human heart is a complex organ with an intricate system of valves that regulate blood flow. There are two main types of valves: atrioventricular (AV) valves and semilunar valves.
The AV valves prevent the backflow of blood from the ventricles to the atria during ventricular contraction. These valves function with the assistance of the chordae tendineae and papillary muscles. When the ventricles are relaxed, the chordae tendineae are slack, allowing blood to flow from the atria into the...
Disturbances in Heart Rhythm01:29

Disturbances in Heart Rhythm

Arrhythmia or dysrhythmia refers to an abnormal heart rhythm caused by a defect in the heart's conduction system. It can cause the heart to beat irregularly, too quickly, or too slowly, leading to symptoms like chest pain, shortness of breath, and fainting. Factors such as stress, caffeine, alcohol, nicotine, cocaine, certain drugs, congenital defects, diseases, and electrolyte abnormalities can trigger arrhythmias.
Arrhythmias are categorized by their speed, rhythm, and origin. A slow heart...
Regulation of Heart Rates01:31

Regulation of Heart Rates

The regulation of heart rate is a complex process controlled by the autonomic nervous system (ANS), hormonal influences, and intrinsic cardiac mechanisms. The ANS has two main components: the sympathetic nervous system (SNS) and the parasympathetic nervous system (PNS).
The SNS increases heart rate through the release of norepinephrine and epinephrine, which act on beta-1 adrenergic receptors in the heart. This action increases the rate of depolarization in the sinoatrial (SA) node, the heart's...
Imbalances in Cardiac Output01:26

Imbalances in Cardiac Output

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 blood...
Dysrhythmias VI: Management of Dysrhythmias01:25

Dysrhythmias VI: Management of Dysrhythmias

Dysrhythmia management involves a multifaceted approach, incorporating pharmacological treatments, medical procedures, surgical interventions, lifestyle modifications, and patient education.Pharmacological ManagementAntiarrhythmic Drugs:Class I (Sodium Channel Blockers): This class includes quinidine and procainamide, which reduce the speed of impulse conduction in the heart, stabilize the cardiac membrane, and control arrhythmias. Quinidine and procainamide are Class IA agents that prolong the...

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相关实验视频

Updated: Jul 9, 2026

Disruption of Frontal Lobe Neural Synchrony During Cognitive Control by Alcohol Intoxication
09:26

Disruption of Frontal Lobe Neural Synchrony During Cognitive Control by Alcohol Intoxication

Published on: February 6, 2019

控制心脏混乱 控制心脏混乱

A Garfinkel1, M L Spano, W L Ditto

  • 1Department of Physiological Science, University of California, Los Angeles 90024-1527.

Science (New York, N.Y.)
|August 28, 1992
PubMed
概括

科学家们使用混乱理论来控制心律不稳定. 通过应用精确定时的电刺激,他们稳定了子的心律不整,将混乱的跳动转化为规律的节奏.

科学领域:

  • 心脏病学 心脏病学
  • 复杂系统科学 复杂系统科学
  • 生物物理学的生物物理.

背景情况:

  • 混乱系统对初始条件表现出极度的敏感性,导致不可预测的行为.
  • 然而,这种敏感性也为通过实时分析和干预提供了控制的机会.
  • 心律不整代表了一个复杂的,往往不可预测的,生理状态.

研究的目的:

  • 研究混沌理论用于控制心律失常的应用.
  • 用实时分析和有针对性的干预来证明药物诱导的心律失常的稳定性.

主要方法:

  • 在子心室中诱导心律不整,使用ouabain.
  • 实时分析诱导心律失常的混乱动态.
  • 基于混沌理论预测的小,精确计时的电刺激的应用.

主要成果:

  • 根据混沌理论进行的电刺激成功地转化了诱导的心律失常.
  • 心脏节奏稳定,从混乱的跳动过渡到周期性的跳动.
  • 通过混乱控制原则来控制复杂的生物系统的可行性.

结论:

  • 混沌理论为控制心律不整等不稳定的生理系统提供了一个可行的框架.

更多相关视频

Mechanical Control of Relaxation Using Intact Cardiac Trabeculae
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Mechanical Control of Relaxation Using Intact Cardiac Trabeculae

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A Pacing-Controlled Procedure for the Assessment of Heart Rate-Dependent Diastolic Functions in Murine Heart Failure Models
07:49

A Pacing-Controlled Procedure for the Assessment of Heart Rate-Dependent Diastolic Functions in Murine Heart Failure Models

Published on: July 21, 2023

相关实验视频

Last Updated: Jul 9, 2026

Disruption of Frontal Lobe Neural Synchrony During Cognitive Control by Alcohol Intoxication
09:26

Disruption of Frontal Lobe Neural Synchrony During Cognitive Control by Alcohol Intoxication

Published on: February 6, 2019

Mechanical Control of Relaxation Using Intact Cardiac Trabeculae
07:51

Mechanical Control of Relaxation Using Intact Cardiac Trabeculae

Published on: February 17, 2023

A Pacing-Controlled Procedure for the Assessment of Heart Rate-Dependent Diastolic Functions in Murine Heart Failure Models
07:49

A Pacing-Controlled Procedure for the Assessment of Heart Rate-Dependent Diastolic Functions in Murine Heart Failure Models

Published on: July 21, 2023

  • 实时分析和有针对性的干预是稳定生物环境中混乱动态的关键.
  • 这种方法为控制心律不整提供了一种新的策略.