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相关概念视频

The Respiratory System01:16

The Respiratory System

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The respiratory system is comprised of the organs that enable breathing. Air enters the nostrils and mouth, followed by the pharynx (throat) and larynx (voice box), which lead to the trachea (windpipe). In the thoracic cavity, the trachea splits into two bronchi that allow air to enter the lungs. The bronchi split into progressively smaller bronchioles and terminate in small groups of tiny sacs in the lungs called alveoli, where gas exchange occurs.
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Breathing01:05

Breathing

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The process of breathing, inhaling and exhaling, involves the coordinated movement of the chest wall, the lungs, and the muscles that move them. Two muscle groups with important roles in breathing are the diaphragm, located directly below the lungs, and the intercostal muscles, which lie between the ribs. When the diaphragm contracts, it moves downward, increasing the volume of the thoracic cavity and creating more room for the lungs to expand. When the intercostal muscles contract, the ribs...
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Lung Capacity01:47

Lung Capacity

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The air in the lungs is measured in volumes and capacities. Lung volume measures reflect the amount of air taken in, released, or left over after a lung function, like a single inhalation. Lung capacity measures are sums of two or more lung volume measures.
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Gross Anatomy of the Lungs01:17

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The lungs are a pair of vital organs connected to the trachea via the left and right bronchi. The base of these organs meets the dome-shaped muscle known as the diaphragm. Encased by the pleurae, the lungs contact the mediastinum. The right lung is shorter yet wider, and has a larger volume than the left lung. The left lung has an indentation known as the cardiac notch. The superior region of the lungs is referred to as the apex, whereas the base is the lower region near the diaphragm. The...
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Lung CT Segmentation to Identify Consolidations and Ground Glass Areas for Quantitative Assesment of SARS-CoV Pneumonia
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小小的肺,大挑战:使用深度学习进行儿科和早产肺部细分.

Hareem Nisar1, Syed Muhammad Anwar1, Maria C Rujana2

  • 1Sheikh Zayed Institute for Pediatric Surgical Innovation, Children's National Hospital, Washington, DC, USA.

... International Symposium on Medical Information Processing and Analysis. International SIPAIM Workshop
|December 12, 2025
PubMed
概括

在早产婴儿X射线中精确的肺部细分具有挑战性. 一种新的两步深度学习方法改善了肺部划界,为儿科和过早胸部成像实现了高精度.

关键词:
肺部细分的细分 肺部的细分支气管肺功能障碍症 (BPD) 是一种疾病.胸部X射线 胸部X射线深度学习是一种深度学习.过早出生的婴儿是早产的

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科学领域:

  • 医疗成像医学成像
  • 人工智能的人工智能
  • 儿科放射学 儿科放射学

背景情况:

  • 肺部细分对于通过X射线诊断肺部疾病至关重要.
  • 在早产婴儿X射线中对肺部进行细分,由于解剖学变异和人工制造物,具有独特的挑战.

研究的目的:

  • 开发和验证一个强大的深度学习方法,用于精确的肺部细分在儿科和早产X射线.
  • 为了解决在早产婴儿中细分小,呈现变化的肺部的困难.

主要方法:

  • 提出了一种两步的深度学习方法,涉及肺部检测,其次是背心区域细分.
  • 在对大量胸部X射线数据集进行预训练后,UNETR细分模型在使用加权损失的儿科和早产队伍上进行了微调.

主要成果:

  • 拟议的方法在儿科和早产X射线中实现了肺部细分的高准确性.
  • 获得了0.960的儿科和0.946的早产队伍的平均子得分.
  • 平均豪斯多夫距离为儿科患者的6.576像素,为早产患者的8.124像素.

结论:

  • 开发的两步深度学习策略在具有挑战性的儿科和早产X射线图像中有效地对肺部进行细分.
  • 这种方法为新生儿和儿童的自动临床诊断和严重程度分级提供了重大进展.