radiobiological

简明释义

英[/ˌreɪdiəʊbaɪˈɒlədʒɪkəl/]美[/ˌreɪdiəʊbaɪˈɒlədʒɪkəl/]

放射生物学的

英英释义

单词用法

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反义词

例句

1.This review consists two parts: epidemiological studies and radiobiological studies of stimulative effects of low dose radiation and their mechanism.

本文分别从流行病学调查和放射生物学研究两大领域对低剂量辐射兴奋效应及其机制加以综述。

2.The seed irradiator designed and built is very efficient and effective and has already been used extensively in radiobiological experiments and the accuracy of dosimetry.

放射性粒子离体照射模型的设计和建立，为研究粒子辐射生物效应提供了有效和重要的方法，并已广泛用于放射生物学和剂量学的研究。

3.The seed irradiator designed and built is very efficient and effective and has already been used extensively in radiobiological experiments and the accuracy of dosimetry.

放射性粒子离体照射模型的设计和建立，为研究粒子辐射生物效应提供了有效和重要的方法，并已广泛用于放射生物学和剂量学的研究。

4.Glioma; Gamma knife; Radiobiological effect; MRI.

磁共振成像；脑；胶质瘤；伽玛刀。

5.The only proven radiobiological effect has been an increase in thyroid cancer in those who were young at the time of the accident.

唯一能够证实的放射性生物学的影响就是核爆炸发生时的年轻人的甲状腺癌的人数有所增加。

6.The radiobiological 放射生物学的 effects of high doses of radiation can lead to severe health issues.

高剂量辐射的radiobiological 放射生物学的影响可能导致严重的健康问题。

7.The radiobiological 放射生物学的 response of different cell types can vary significantly.

不同细胞类型的radiobiological 放射生物学的反应可能会有显著差异。

8.Researchers are investigating the radiobiological 放射生物学的 impact of radiation exposure in astronauts.

研究人员正在调查宇航员辐射暴露的radiobiological 放射生物学的影响。

9.Understanding radiobiological 放射生物学的 mechanisms helps in developing better radiation therapies.

理解radiobiological 放射生物学的机制有助于开发更好的放射治疗。

10.The study of radiobiological 放射生物学的 effects on human tissues is crucial for cancer treatment.

研究对人类组织的radiobiological 放射生物学的影响对癌症治疗至关重要。

作文

Radiobiology is a fascinating field of science that explores the effects of ionizing radiation on living organisms. The term radiobiological refers specifically to the biological consequences of exposure to radiation, encompassing a wide range of studies from cellular damage to the long-term effects on human health. Understanding radiobiological principles is crucial, especially in our modern world where radiation is used in medicine, industry, and even in research. In this essay, we will delve into the significance of radiobiological research, its applications, and the implications for public health and safety.One of the primary concerns in radiobiological studies is the impact of radiation on DNA. When cells are exposed to ionizing radiation, such as X-rays or gamma rays, the energy can cause breaks in the DNA strands. These breaks can lead to mutations, which may result in cancer or other serious health issues if not properly repaired. The study of these processes falls under the umbrella of radiobiological research, providing insights into how cells respond to damage and the mechanisms they employ to repair themselves.Moreover, the field of radiobiological research has significant implications for radiation therapy, a common treatment for cancer. By understanding how healthy and cancerous cells react differently to radiation, researchers can develop more effective treatment protocols that maximize damage to tumors while minimizing harm to surrounding healthy tissue. This is particularly important as cancer treatments continue to evolve, with an increasing emphasis on precision medicine. The insights gained from radiobiological studies help clinicians tailor therapies to individual patients, improving outcomes and reducing side effects.In addition to medical applications, radiobiological research is also critical in assessing the risks associated with occupational exposure to radiation. Workers in certain industries, such as nuclear power plants or medical facilities, may be exposed to higher levels of radiation. Understanding the radiobiological effects of chronic exposure helps establish safety guidelines and regulations to protect workers’ health. This research informs policy decisions and ensures that safety measures are in place to minimize the risk of radiation-related illnesses.Furthermore, radiobiological studies extend beyond human health to include environmental impacts. For instance, the aftermath of nuclear accidents, such as Chernobyl and Fukushima, has led to extensive research on the long-term effects of radiation on ecosystems. Understanding how different species respond to radiation exposure can help in assessing the overall health of the environment and guiding recovery efforts in contaminated areas.In conclusion, the field of radiobiological research plays a vital role in advancing our understanding of how radiation affects living organisms. From medical applications in cancer treatment to occupational safety and environmental assessments, the implications of radiobiological studies are far-reaching. As technology continues to advance and our use of radiation expands, ongoing research in this field will be essential in ensuring the safety and well-being of both individuals and the environment. By investing in radiobiological research, we can better prepare for the challenges posed by radiation and harness its benefits while mitigating its risks.

放射生物学是一个迷人的科学领域，探讨电离辐射对生物体的影响。术语radiobiological专门指代暴露于辐射后的生物后果，涵盖从细胞损伤到对人类健康的长期影响等广泛研究。理解radiobiological原理至关重要，尤其是在我们现代世界中，辐射在医学、工业甚至研究中被广泛使用。在这篇文章中，我们将深入探讨radiobiological研究的重要性、应用以及对公共健康和安全的影响。在radiobiological研究中的主要关注点之一是辐射对DNA的影响。当细胞暴露于电离辐射（如X射线或伽马射线）时，能量可能导致DNA链的断裂。这些断裂可能导致突变，如果没有得到适当修复，可能会导致癌症或其他严重健康问题。这些过程的研究属于radiobiological研究的范畴，提供了细胞如何应对损伤及其修复机制的见解。此外，radiobiological研究领域在放射治疗方面也具有重要意义，放射治疗是癌症的一种常见治疗方法。通过了解健康细胞和癌细胞对辐射的不同反应，研究人员可以制定更有效的治疗方案，最大限度地损害肿瘤，同时减少对周围健康组织的伤害。这一点尤为重要，因为癌症治疗不断发展，越来越强调精准医学。从radiobiological研究中获得的见解帮助临床医生为个体患者量身定制治疗方案，提高治疗效果并减少副作用。除了医学应用，radiobiological研究在评估与职业辐射暴露相关的风险方面也至关重要。在某些行业（如核电厂或医疗机构）工作的工人可能会暴露于更高水平的辐射。了解慢性暴露的radiobiological效应有助于建立安全指南和法规，以保护工人的健康。这项研究为政策决策提供了信息，并确保采取安全措施以尽量减少辐射相关疾病的风险。此外，radiobiological研究还超越了人类健康，涵盖环境影响。例如，切尔诺贝利和福岛核事故的后果导致对辐射对生态系统长期影响的广泛研究。了解不同物种对辐射暴露的反应可以帮助评估整体环境健康，并指导受污染地区的恢复工作。总之，radiobiological研究领域在推动我们理解辐射如何影响生物体方面发挥着重要作用。从癌症治疗中的医学应用到职业安全和环境评估，radiobiological研究的影响是深远的。随着技术的不断进步和我们对辐射的使用扩大，这一领域的持续研究对于确保个人和环境的安全与健康至关重要。通过投资于radiobiological研究，我们可以更好地应对辐射带来的挑战，同时利用其好处，减轻其风险。