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相关概念视频

Development of the Heart01:27

Development of the Heart

1.2K
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...
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Layers of the Heart Wall01:15

Layers of the Heart Wall

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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...
3.2K
Chambers of the Heart01:16

Chambers of the Heart

5.8K
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...
5.8K
Heart Valves01:16

Heart Valves

5.6K
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...
5.6K
Anatomy of the Heart01:27

Anatomy of the Heart

110.3K
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.
110.3K
Overview of the Heart01:07

Overview of the Heart

7.0K
The heart, a muscular organ located in the chest, functions as the body's pump, circulating blood through the vascular system. It has four chambers: two atria on top and two ventricles below. The right atrium receives deoxygenated blood from the body and passes it to the right ventricle, which pumps it to the lungs for oxygenation. The left atrium receives oxygenated blood from the lungs and transfers it to the left ventricle, which pumps it to the rest of the body.
The heart's structure...
7.0K

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相关实验视频

Updated: Sep 4, 2025

Semi-automated Optical Heartbeat Analysis of Small Hearts
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Semi-automated Optical Heartbeat Analysis of Small Hearts

Published on: September 16, 2009

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设计中的心脏

Michael V Sefton1, Craig A Simmons2

  • 1Medicine by Design, Institute of Biomedical Engineering, University of Toronto, Toronto, ON, Canada.

Science (New York, N.Y.)
|July 20, 2022
PubMed
概括
此摘要是机器生成的。

研究人员生物制造可扩展的螺旋心脏组织模式,显著改善器官

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相关实验视频

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科学领域:

  • 生物医学工程
  • 复原医学
  • 心血管科学

背景情况:

  • 心脏病仍然是全球死亡的主要原因.
  • 目前治疗心力衰竭的方法有局限性.
  • 生物制造为心脏组织工程提供了一个有前途的途径.

研究的目的:

  • 开发一种可扩展的生物制造心脏组织,
  • 调查这种螺旋结构是否能增强心脏的功能.

主要方法:

  • 使用先进的生物制造技术来创建对齐的心脏组织结构.
  • 在组织结构中设计了特定的螺旋图案.
  • 评估了生物制造组织的收缩和能力.

主要成果:

  • 成功地实现了可扩展的心脏组织与定义的螺旋图案.
  • 与非螺旋对照组相比,螺旋组织结构显著提高了效率.
  • 组织显示有组织的细胞对齐和同步收缩.

结论:

  • 螺旋心脏组织的可扩展生物制造是可行的.
  • 这种螺旋形状对于增强心脏功能至关重要.
  • 这种方法有可能开发出更好的心脏疗法.