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相关概念视频

Biological Effects of Radiation02:59

Biological Effects of Radiation

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All radioactive nuclides emit high-energy particles or electromagnetic waves. When this radiation encounters living cells, it can cause heating, break chemical bonds, or ionize molecules. The most serious biological damage results when these radioactive emissions fragment or ionize molecules. For example, α and β particles emitted from nuclear decay reactions possess much higher energies than ordinary chemical bond energies. When these particles strike and penetrate matter, they...
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Mutations01:35

Mutations

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Mutations are changes in the sequence of DNA. These changes can occur spontaneously or they can be induced by exposure to environmental factors. Mutations can be characterized in a number of different ways: whether and how they alter the amino acid sequence of the protein, whether they occur over a small or large area of DNA, and whether they occur in somatic cells or germline cells.
Chromosomal Alterations Are Large-Scale Mutations
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Radiation: Applications01:17

Radiation: Applications

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The average temperature of Earth is the subject of much current discussion. Earth is in radiative contact with both the Sun and dark space; it receives almost all its energy from the radiation of the Sun and reflects some of it into outer space. Dark space is very cold, about 3 K, so Earth radiates energy into it. For instance, heat transfer occurs from soil and grasses, the rate of which can be so rapid that frost can occur on clear summer evenings, even in warm latitudes.
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Isotopes and Radioisotopes01:28

Isotopes and Radioisotopes

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In the early 1900s, English chemist Frederick Soddy realized that an element could have atoms with different masses that were chemically indistinguishable. These different types are called isotopes — atoms of the same element that differ in mass. Isotopes differ in mass because they have different numbers of neutrons but are chemically identical because they have the same number of protons. Soddy was awarded the Nobel Prize in Chemistry in 1921 for this discovery.
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Types of Toxins01:36

Types of Toxins

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Humans continually engage with an environment rich in potentially harmful chemicals. These are introduced to our bodies through inhalation, ingestion, or skin contact. These chemicals exist in various forms, such as air and environmental pollutants, agricultural chemicals, organic solvents, and heavy metals.
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X-ray Imaging01:24

X-ray Imaging

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German physicist Wilhelm Röntgen (1845–1923) was experimenting with electrical current when he discovered that a mysterious and invisible "ray" would pass through his flesh but leave an outline of his bones on a screen coated with a metal compound. In 1895, Röntgen made the first durable record of the internal parts of a living human: an "X-ray" image (as it came to be called) of his wife’s hand. Scientists worldwide quickly began their own experiments with...
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An Automated Microscopic Scoring Method for the γ-H2AX Foci Assay in Human Peripheral Blood Lymphocytes
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电离辐射暴露:今天有哪些风险?

Saumya S Gurbani1, Ichiro Ikuta2, Mina S Makary3

  • 1Department of Radiology and Imaging Sciences, Emory University, Atlanta, GA (S.S.G.).

Academic radiology
|September 3, 2025
PubMed
概括

医疗成像对于患者护理至关重要, 但具有电离辐射的风险. 本综述考察了辐射风险,剂量降低技术和放射科医生的安全协议.

关键词:
电离辐射辐射暴露辐射风险辐射安全

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Establishment of a Robust and Reproducible Model of Radiation-Induced Skin and Muscle Fibrosis
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科学领域:

  • 放射学和医学成像
  • 辐射瘤学
  • 健康物理

背景情况:

  • 医学成像是现代诊断和患者管理的重要组成部分.
  • 随着成像技术的发展,在诊断效用与辐射暴露风险之间取得平衡的过程中面临挑战.
  • 放射学界必须在临床实践中解决电离辐射的安全影响.

研究的目的:

  • 提供有关电离辐射在医学成像中的风险的最新文献评论.
  • 讨论旨在减少辐射剂量的技术进步.
  • 介绍医学成像中辐射安全协议的最佳实践.

主要方法:

  • 对电离辐射风险和剂量降低技术进行全面的文献搜索.
  • 分析医疗成像设备当前的技术创新.
  • 审查已建立和新兴的辐射保护安全协议.

主要成果:

  • 确定与显著的电离辐射暴露相关的关键诊断程序.
  • 综述先进的成像技术和硬件修改以优化剂量.
  • 综合基于证据的建议,以尽量减少患者和工作人员的辐射剂量.

结论:

  • 在医学成像中,有效管理电离辐射风险至关重要.
  • 技术进步为减少辐射剂量提供了重要的机会.
  • 遵守严格的安全协议对于安全有效的医学成像实践至关重要.