radiobiology

简明释义

英[ˌreɪdɪəʊbaɪˈɒlədʒɪ]美[ˌredɪobaɪˈɑlədʒi]

n. [生物物理] 放射生物学

英英释义

单词用法

同义词

反义词

例句

1.Radiobiology (or radiation biology) seeks answers to these questions.

放射生物学所研究的就是这些问题。

2.Taking radiotherapy of tumor stem cells as a contact point, strategy designed by radiobiology can essentially solve this problem.

将肿瘤干细胞作为放射治疗的切入点，针对其放射生物学行为制订对策，才能从根本上解决问题。

3.A degree in radiobiology can be a stepping stone to a career as a radiation oncologist, or a researcher in cancer treatment, nuclear safety, genetic engineering, and other fields.

放射生物学的学位证书是将来成为放射肿瘤学家、癌症治疗研究员、核安全从业者、基因工程师或其他相关人员的踏脚石。

4.Research on biological damages caused by various ionizing radiations is the frontier area of radiobiology and radiology. It is also the hot spot included in recent public focus.

电离辐射所致生物损伤的研究既是放射生物学和放射医学中重要的前沿领域，也是目前各方面所关心的热点问题。

5.With advancement in radiobiology, the respective molecular mechanisms underlying cell kinetics alteration and DNA damage repair is being revealed gradually and takes on many obvious similarities.

随着放射生物学研究的进展，细胞动力学改变与修复的分子基础逐渐被揭示出来，并表现出许多明显的共同点。

6.The past decade has witnessed an almost explosive growth of molecular radiobiology.

过去十年已经看到分子辐射生物迅猛发展。

7.With advancement in radiobiology, the respective molecular mechanisms underlying cell kinetics alteration and DNA damage repair is being revealed gradually and takes on many obvious similarities.

随着放射生物学研究的进展，细胞动力学改变与修复的分子基础逐渐被揭示出来，并表现出许多明显的共同点。

8.In radiobiology, scientists explore the cellular responses to ionizing radiation.放射生物学

在radiobiology中，科学家研究细胞对电离辐射的反应。放射生物学

9.Advancements in radiobiology have improved cancer treatment protocols significantly.放射生物学

在radiobiology方面的进展显著改善了癌症治疗方案。放射生物学

10.Researchers in radiobiology are investigating the long-term effects of radiation exposure.放射生物学

从事radiobiology的研究人员正在调查辐射暴露的长期影响。放射生物学

11.The study of how radiation affects living organisms is known as radiobiology.放射生物学

研究辐射如何影响生物体的学科被称为radiobiology.放射生物学

12.Understanding the principles of radiobiology is crucial for radiation safety practices.放射生物学

理解radiobiology的原理对辐射安全实践至关重要。放射生物学

作文

Radiobiology is a field of science that studies the effects of ionizing radiation on living organisms. This branch of biology combines principles from physics, biology, and medicine to understand how radiation interacts with biological systems. The significance of radiobiology (放射生物学) lies in its applications in various fields such as medicine, environmental science, and nuclear safety. In medicine, radiobiology (放射生物学) plays a crucial role in cancer treatment. Radiation therapy is a common method used to treat cancer by targeting and destroying cancerous cells. Understanding the biological effects of radiation on cells helps medical professionals optimize treatment plans and minimize damage to healthy tissues. Research in radiobiology (放射生物学) has led to advancements in techniques such as targeted radiation therapy, which focuses on delivering high doses of radiation specifically to tumor cells while sparing surrounding healthy cells. Moreover, radiobiology (放射生物学) is essential for assessing the risks associated with exposure to radiation in various environments. For instance, individuals working in nuclear power plants or radiological laboratories must be aware of the potential hazards of radiation exposure. Studies in radiobiology (放射生物学) help establish safety protocols and guidelines to protect workers and the general public from harmful effects. In addition to its medical applications, radiobiology (放射生物学) also contributes to our understanding of environmental impacts. Nuclear accidents, such as the Chernobyl disaster and Fukushima Daiichi incident, have highlighted the need for comprehensive research in this area. Scientists study the long-term effects of radiation on ecosystems, wildlife, and human health to develop strategies for remediation and recovery. By understanding how different species respond to radiation, researchers can better predict the ecological consequences of radioactive contamination. Furthermore, radiobiology (放射生物学) intersects with space exploration. As humans venture into space, they are exposed to higher levels of cosmic radiation compared to those on Earth. Research in this field aims to understand how prolonged exposure to radiation affects human physiology and to develop protective measures for astronauts. Experiments conducted on the International Space Station (ISS) often include studies on the biological effects of radiation, providing valuable insights into the challenges of long-duration space missions. In conclusion, radiobiology (放射生物学) is a vital interdisciplinary field that encompasses the study of radiation's effects on living organisms. Its implications extend beyond medicine to environmental science, nuclear safety, and space exploration. As we continue to advance our knowledge in this area, it is crucial to apply these findings to enhance human health and safety while addressing the challenges posed by radiation exposure. The ongoing research in radiobiology (放射生物学) not only improves our understanding of biological responses to radiation but also informs policies and practices that protect both people and the environment.

放射生物学是一个研究电离辐射对生物体影响的科学领域。这个生物学分支结合了物理学、生物学和医学的原理，以理解辐射如何与生物系统相互作用。放射生物学的重要性体现在其在医学、环境科学和核安全等多个领域的应用。在医学中，放射生物学发挥着关键作用，尤其是在癌症治疗方面。放射治疗是一种常用的癌症治疗方法，通过针对和破坏癌细胞来实现。理解辐射对细胞的生物效应帮助医疗专业人员优化治疗方案，并减少对健康组织的损害。放射生物学的研究促进了诸如靶向放射治疗等技术的发展，该技术专注于将高剂量的辐射专门送到肿瘤细胞，同时保护周围的健康细胞。此外，放射生物学在评估各种环境中辐射暴露的风险方面也至关重要。例如，核电厂或放射性实验室的工作人员必须了解辐射暴露的潜在危害。放射生物学的研究有助于建立安全协议和指南，以保护工人和公众免受有害影响。除了医学应用，放射生物学还帮助我们理解环境影响。切尔诺贝利灾难和福岛第一核电站事故突显了这一领域全面研究的必要性。科学家研究辐射对生态系统、野生动物和人类健康的长期影响，以制定修复和恢复的策略。通过理解不同物种对辐射的反应，研究人员可以更好地预测放射性污染的生态后果。此外，放射生物学与太空探索相交叉。随着人类进入太空，他们面临的宇宙辐射水平比地球上要高。该领域的研究旨在理解长期接触辐射如何影响人体生理，并为宇航员开发保护措施。在国际空间站（ISS）上进行的实验通常包括对辐射生物效应的研究，为长期太空任务的挑战提供有价值的见解。总之，放射生物学是一个重要的跨学科领域，涵盖了辐射对生物体影响的研究。其影响超越医学，延伸到环境科学、核安全和太空探索。随着我们继续推进这一领域的知识，应用这些发现以增强人类健康和安全，同时应对辐射暴露带来的挑战至关重要。放射生物学的持续研究不仅改善了我们对辐射生物反应的理解，还为保护人类和环境的政策和实践提供了指导。