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Chambers of the Heart01:16

Chambers of the Heart

5.5K
The human heart is a complex organ made up of four chambers: the right and left atria and the right and left ventricles. These internal chambers are separated by partitions known as the interatrial and interventricular septa. The exterior of the heart features a groove known as the coronary sulcus that demarcates the atria from the ventricles, while the anterior and posterior interventricular sulci distinguish between the two ventricles.
Deoxygenated blood from the body is received in the right...
5.5K
Layers of the Heart Wall01:15

Layers of the Heart Wall

2.9K
The heart wall comprises three distinct layers: the epicardium, myocardium, and endocardium. The outermost layer, the epicardium, is the visceral layer of the serous pericardium, featuring a thin, transparent mesothelial surface and an inner layer of areolar connective tissue with fat deposits that increase with age.
The myocardium, the thickest layer, consists of cardiac muscle cells interconnected by intercalated discs and crisscrossing connective tissue fibers. These muscle fibers contract...
2.9K
Development of the Heart01:27

Development of the Heart

1.1K
The development of the human heart, a crucial organ, commences from the mesoderm on the 18th or 19th day after fertilization. This process initiates in the cardiogenic area, a group of mesodermal cells at the embryo's head end, which evolves into elongated strands known as cardiogenic cords. These cords undergo a transformation to form hollow-centered endocardial tubes.
As the embryo undergoes lateral folding, these paired tubes approach each other, merging into a single primitive heart...
1.1K
Heart Valves01:16

Heart Valves

5.3K
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...
5.3K
Heart Sounds01:15

Heart Sounds

2.1K
Heart sounds are generated by the turbulence in blood flow due to the closing of heart valves. These sounds are best perceived slightly away from the valves, where the blood flow disseminates the sound.
Auscultation is the process of listening to these internal body sounds using a stethoscope. The heart produces four types of sounds, but only two—S1 and S2—can usually be heard with a stethoscope.
S1, also known as the "lub" sound, is caused by the closure of atrioventricular (A-V)...
2.1K
Emotional Expression01:26

Emotional Expression

320
Emotional expression encompasses how individuals convey their emotions through verbal communication and non-verbal cues. These non-verbal actions include facial expressions, body language, and physical gestures, such as frowning or smiling. Among these, facial expressions play a crucial role in emotional expression and are understood universally, indicating a biological basis for how humans communicate emotions.
Universal Facial Expressions
Psychologist Paul Ekman identified seven basic...
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相关实验视频

Updated: Aug 6, 2025

3D Whole-heart Myocardial Tissue Analysis
06:53

3D Whole-heart Myocardial Tissue Analysis

Published on: April 12, 2017

8.8K

直接来自心脏

Mitch Leslie

    Science (New York, N.Y.)
    |March 17, 2023
    PubMed
    概括

    与传统的胆固醇测量方法相比, 胺是一种脂质, 显示为心血管疾病风险的优越生物标志物. 进一步的研究和制药业的兴趣正在增长.

    科学领域:

    • 生物化学
    • 心脏病学
    • 代谢学

    背景情况:

    • 胆固醇一直是评估心血管风险的主要焦点.
    • 新兴研究表明其他脂质分子可能提供更精确的预测能力.

    研究的目的:

    • 研究胺作为心血管问题的预测生物标志物的潜力.
    • 为了比较胺与胆固醇对心血管疾病风险的预测能力.

    主要方法:

    • 脂质特征分析,重点是胺水平.
    • 胺度与心血管事件发生率之间的相关性研究.

    主要成果:

    • 发现胺含量升高比胆固醇更强烈地预测心血管问题.
    • 特定的胺子类可能表明不同的心血管风险.

    结论:

    • 胺为一种新的,可能更有效的生物标志物,用于评估心血管风险.
    • 这些发现需要进一步的临床验证,并可能影响未来的诊断策略和药物开发.

    更多相关视频

    Large-scale Zebrafish Embryonic Heart Dissection for Transcriptional Analysis
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    Large-scale Zebrafish Embryonic Heart Dissection for Transcriptional Analysis

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    Dissection Techniques and Histological Sampling of the Heart in Large Animal Models for Cardiovascular Diseases
    10:53

    Dissection Techniques and Histological Sampling of the Heart in Large Animal Models for Cardiovascular Diseases

    Published on: June 16, 2022

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    相关实验视频

    Last Updated: Aug 6, 2025

    3D Whole-heart Myocardial Tissue Analysis
    06:53

    3D Whole-heart Myocardial Tissue Analysis

    Published on: April 12, 2017

    8.8K
    Large-scale Zebrafish Embryonic Heart Dissection for Transcriptional Analysis
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    Large-scale Zebrafish Embryonic Heart Dissection for Transcriptional Analysis

    Published on: January 12, 2015

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    Dissection Techniques and Histological Sampling of the Heart in Large Animal Models for Cardiovascular Diseases
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    Dissection Techniques and Histological Sampling of the Heart in Large Animal Models for Cardiovascular Diseases

    Published on: June 16, 2022

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