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Structure of Blood Vessels01:15

Structure of Blood Vessels

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Blood is circulated throughout the human body through a network of blood vessels called the circulatory system. This system includes arteries that transport blood from the heart to various body parts. These arterial pathways divide into smaller vessels until they reach the arterioles, which further split into capillaries. It is within these minuscule capillaries that the exchange of nutrients and waste products takes place. After this exchange, the blood is collected by venules, which fuse to...
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Anatomy of Blood Vessels01:20

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The vascular system, an integral part of the circulatory system, comprises various blood vessels that play crucial roles in maintaining the body's homeostasis. These blood vessels form a complex and efficient circulatory network. The three primary categories of blood vessels are the arteries, veins, and capillaries.
Arteries
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Imaging Studies VII: Vascular Imaging01:19

Imaging Studies VII: Vascular Imaging

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DefinitionRenal angiography, also known as renal arteriography, is an imaging technique used to obtain a comprehensive view of blood flow and the vascular structure of blood vessels in the kidneys and surrounding areas.PurposeRenal angiography detects blood vessel abnormalities in the kidneys, such as aneurysms, stenosis, thrombosis, vascular tumors, and renal artery stenosis. It evaluates kidney function and guides interventional treatments like angioplasty or stent placement.Pre-Procedure...
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Development of Blood Vessels01:07

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The development of the vascular system in a fetus is a complex and intricate process that begins as early as 15 to 16 days post-conception. This process starts outside the embryo, specifically in the mesoderm of the yolk sac, chorion, and connecting stalk. Approximately two days later, the formation of blood vessels occurs within the embryo itself.
The initial formation of this system is facilitated by the small amount of yolk present in the ovum and yolk sac. Blood vessels originate from...
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Overview of Blood Vessels01:14

Overview of Blood Vessels

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The human cardiovascular system comprises five primary types of blood vessels: arteries, arterioles, veins, venules, and capillaries, each serving unique functions.
Arteries and Arterioles: Arteries are muscular and elastic vessels that primarily carry oxygenated blood from the heart to body tissues, except for the pulmonary artery, which carries deoxygenated blood. They have thick walls to withstand high pressure and contain a layer of muscle tissue, allowing them to expand or contract as...
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Blood Flow01:29

Blood Flow

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Blood is pumped by the heart into the aorta, the largest artery in the body, and then into increasingly smaller arteries, arterioles, and capillaries. The velocity of blood flow decreases with increased cross-sectional blood vessel area. As blood returns to the heart through venules and veins, its velocity increases. The movement of blood is encouraged by smooth muscle in the vessel walls, the movement of skeletal muscle surrounding the vessels, and one-way valves that prevent backflow.
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Using Retinal Imaging to Study Dementia
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From Local to Global: A Graph Framework for Retinal Artery/Vein Classification.

Fan Huang, Tao Tan, Behdad Dashtbozorg

    IEEE Transactions on Nanobioscience
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    Summary
    This summary is machine-generated.

    This study introduces a novel framework for classifying retinal blood vessels, improving early diabetes detection. The graph convolution model enhances accuracy by integrating global vascular network information.

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    Area of Science:

    • Ophthalmology
    • Medical Imaging
    • Computer Vision

    Background:

    • Fundus photography is crucial for diagnosing eye disorders and detecting early diabetes through retinal vascular biomarkers.
    • Accurate classification of retinal arteries and veins is essential for quantifying vascular changes.

    Purpose of the Study:

    • To develop a new framework that enhances local vessel classification by incorporating global vascular network information.
    • To improve the accuracy of artery and vein classification in retinal images.

    Main Methods:

    • A novel framework combining local vessel classification with a global vascular network model using graph convolution.
    • Comparison with traditional methods like Convolutional Neural Networks (CNN) and Handcrafted Pixel Feature Classification (HPFC).

    Main Results:

    • The proposed graph convolution model achieved the highest accuracy (86.45%) compared to CNN (85.5%) and HPFC (82.9%).
    • The model also obtained the best Area Under the Receiver Operating Characteristic Curve (AUC) of 0.95, outperforming CNN (0.93) and HPFC (0.90).

    Conclusions:

    • The new classification framework effectively corrects local classification errors by minimizing global errors.
    • This approach offers an easy-to-deploy method for improving classification performance with minimal additional computational cost.