roentgenology

简明释义

英[/ˌrɛntɡənˈoʊlədʒi/]美[/ˌrɛntɡənˈoʊlədʒi/]

n. 放射学；放射医疗（radiology 的另一种拼法）

英英释义

单词用法

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反义词

例句

1.The full results of this study on radiofrequency ablation of kidney tumors appear in the August 2007 issue of the American Journal of Roentgenology, published by the American Roentgen Ray Society.

充分这项研究的结果，对射频消融治疗肾肿瘤，出现在2007年8月发行的美国x线学杂志刊登的由美国伦琴射线社会。

2.The full results of this study on radiofrequency ablation of kidney tumors appear in the August 2007 issue of the American Journal of Roentgenology, published by the American Roentgen Ray Society.

充分这项研究的结果，对射频消融治疗肾肿瘤，出现在2007年8月发行的美国x线学杂志刊登的由美国伦琴射线社会。

3.The field of roentgenology is essential for diagnosing various medical conditions.

放射学领域对于诊断各种医学状况至关重要。

4.In roentgenology, X-rays are used to visualize the internal structures of the body.

在放射学中，X光用于可视化身体内部结构。

5.Many hospitals have dedicated roentgenology departments to handle imaging needs.

许多医院设有专门的放射学部门来处理影像需求。

6.A career in roentgenology requires extensive training and knowledge of imaging technology.

在放射学领域的职业生涯需要广泛的培训和影像技术知识。

7.Radiologists specialize in roentgenology and interpret X-ray images for diagnosis.

放射科医生专注于放射学，并解读X光图像以进行诊断。

作文

The field of roentgenology, known as the study of X-rays and their applications in medicine, has revolutionized the way we diagnose and treat various health conditions. It is a branch of radiology that focuses specifically on the use of X-ray imaging to visualize the internal structures of the body. The term roentgenology originates from Wilhelm Conrad Röntgen, who discovered X-rays in 1895, earning him the first Nobel Prize in Physics in 1901. This groundbreaking discovery paved the way for advancements in medical diagnostics, allowing physicians to see inside the human body without invasive procedures. X-rays work by passing through the body and capturing images of bones and tissues on a film or digital sensor. This non-invasive technique provides crucial information about fractures, tumors, infections, and other abnormalities. The significance of roentgenology cannot be overstated; it has become an essential tool in modern medicine. For instance, in emergency situations, quick access to X-ray imaging can be lifesaving, enabling doctors to make rapid decisions about treatment. In addition to its diagnostic capabilities, roentgenology also plays a vital role in therapeutic interventions. Techniques such as fluoroscopy, which uses continuous X-ray imaging, allow healthcare professionals to guide instruments during procedures like catheter placements or biopsies. This integration of imaging and intervention exemplifies the versatility of roentgenology in improving patient outcomes. Despite its advantages, the use of X-rays raises concerns regarding radiation exposure. While the benefits of roentgenology often outweigh the risks, it is crucial for medical practitioners to adhere to safety protocols and limit unnecessary exposure. Advances in technology have led to the development of low-dose X-ray techniques, further minimizing risks while maintaining high-quality imaging. Education and training in roentgenology are essential for healthcare professionals. Radiologists, the specialists in this field, undergo extensive education and training to interpret X-ray images accurately. Their expertise is critical in making informed diagnoses and recommendations based on the imaging results. As technology continues to evolve, ongoing education in roentgenology ensures that radiologists stay updated on the latest advancements and best practices. In conclusion, roentgenology has significantly impacted the field of medicine, enhancing our ability to diagnose and treat various health issues. Its non-invasive nature, coupled with the ability to provide real-time imaging, makes it an indispensable tool in modern healthcare. As we continue to explore and innovate within this field, the future of roentgenology holds great promise for improving patient care and outcomes. Understanding the principles and applications of roentgenology is vital for both healthcare professionals and patients alike, as it represents a cornerstone of contemporary medical practice.

放射学（roentgenology）是研究X射线及其在医学中应用的领域，彻底改变了我们诊断和治疗各种健康状况的方式。它是放射学的一个分支，专注于使用X射线成像来可视化身体内部结构。术语roentgenology源于威尔赫姆·康拉德·伦琴（Wilhelm Conrad Röntgen），他于1895年发现了X射线，因此获得了1901年第一届诺贝尔物理学奖。这一突破性的发现为医学诊断的进步铺平了道路，使医生能够在不进行侵入性手术的情况下查看人体内部。 X射线通过身体并在胶卷或数字传感器上捕捉骨骼和组织的图像。这种非侵入性技术提供了关于骨折、肿瘤、感染和其他异常的重要信息。roentgenology的重要性不容小觑；它已成为现代医学的一个基本工具。例如，在紧急情况下，快速获取X射线成像可以挽救生命，使医生能够迅速做出治疗决策。 除了其诊断能力外，roentgenology在治疗干预中也发挥着至关重要的作用。诸如透视法等技术使用连续X射线成像，使医疗专业人员能够在导管放置或活检等程序中引导仪器。这种成像与干预的结合体现了roentgenology在改善患者结果方面的多功能性。 尽管有其优势，但使用X射线也引发了对辐射暴露的担忧。虽然roentgenology的好处通常超过风险，但医疗从业者必须遵循安全协议，限制不必要的暴露。技术的进步导致低剂量X射线技术的发展，进一步减少风险，同时保持高质量成像。 教育和培训对于医疗专业人员在roentgenology中的应用至关重要。放射科医师是这一领域的专家，他们接受广泛的教育和培训，以准确解读X射线图像。他们的专业知识对于根据成像结果做出明智的诊断和建议至关重要。随着技术的不断发展，roentgenology的持续教育确保放射科医师及时了解最新进展和最佳实践。 总之，roentgenology对医学领域产生了重大影响，提高了我们诊断和治疗各种健康问题的能力。其非侵入性特征，加上提供实时成像的能力，使其成为现代医疗保健不可或缺的工具。随着我们继续探索和创新这一领域，roentgenology的未来对改善患者护理和结果充满希望。理解roentgenology的原则和应用对于医疗专业人员和患者来说都是至关重要的，因为它代表了当代医学实践的基石。