fluoroscope
简明释义
英[ˈflʊərəˌskəʊp]美[ˈflʊərəˌskop]
n. 荧光镜;萤光屏
复 数 f l u o r o s c o p e s
第 三 人 称 单 数 f l u o r o s c o p e s
现 在 分 词 f l u o r o s c o p i n g
过 去 式 f l u o r o s c o p e d
过 去 分 词 f l u o r o s c o p e d
英英释义
单词用法
荧光透视检查 | |
荧光成像 | |
使用荧光透视仪 | |
荧光透视引导的程序 |
同义词
| X光机 | The X-ray machine is commonly used for diagnosing fractures. | X光机常用于诊断骨折。 | |
| 荧光透视设备 | The fluoroscopy device allows real-time imaging of the movement of internal organs. | 荧光透视设备可以实时成像内部器官的运动。 |
反义词
| 不透明的 | The glass is opaque, preventing any light from passing through. | 这块玻璃是不透明的,阻止任何光线透过。 | |
| 固体 | 固体物体不容易让X射线通过。 |
例句
1."A video X-ray device called a" fluoroscope "helps guide the cannula to the medial branch nerves in your spine." These tiny nerves carry pain signals from your facet joints to your brain.
称作透视的的X线视频设备用于帮助引导套管到达脊柱的神经内侧支,这些细小的神经将关节突关节的疼痛信号传递到大脑。
2.The tension was checked at various angles of the hip joint and the motions of the abdominal arteries were monitored in 4 unembalmed cadavers using a C-arm fluoroscope.
测量髋关节处于不同角度时血管的张力,并在C臂机屏幕上监测4具新鲜尸体的腹部动脉移动。
3."A video X-ray device called a" fluoroscope "helps guide the cannula to the medial branch nerves in your spine." These tiny nerves carry pain signals from your facet joints to your brain.
称作透视的的X线视频设备用于帮助引导套管到达脊柱的神经内侧支,这些细小的神经将关节突关节的疼痛信号传递到大脑。
4.The physician typically uses an X-ray device called "fluoroscope".
医生通常会使用一个叫“透视”的X线设备。
5.The doctor used a fluoroscope to examine the patient's digestive tract.
医生使用荧光镜检查病人的消化道。
6.Using a fluoroscope, the radiologist identified a fracture that was not visible on X-rays.
放射科医生使用荧光镜识别出在X光片上看不到的骨折。
7.A fluoroscope is essential for detecting abnormalities in the lungs.
荧光镜对于检测肺部异常是必不可少的。
8.During the procedure, the fluoroscope provided real-time images of the bones.
在手术过程中,荧光镜提供了骨骼的实时图像。
9.The technician adjusted the fluoroscope to get a clearer view of the heart.
技术员调整了荧光镜以更清晰地观察心脏。
作文
The advent of modern medical imaging has revolutionized the way we diagnose and treat various health conditions. Among the many tools available to healthcare professionals, the fluoroscope stands out as a remarkable invention that provides real-time visualization of internal structures. A fluoroscope (荧光透视仪) is an imaging device that uses X-rays to produce images of the body in motion, allowing doctors to see how organs function and to detect abnormalities that may not be visible through traditional imaging techniques.Historically, the development of the fluoroscope can be traced back to the late 19th century when X-rays were first discovered by Wilhelm Conrad Roentgen. The initial use of X-rays was primarily for identifying fractures in bones, but as technology advanced, so did the applications of this powerful tool. The fluoroscope became an essential part of diagnostic radiology, enabling physicians to observe physiological processes in real-time.One of the most significant advantages of using a fluoroscope is its ability to provide dynamic images. Unlike traditional X-ray films, which capture a single moment in time, the fluoroscope allows for continuous observation of moving parts within the body. This feature is particularly useful in procedures such as gastrointestinal studies, where doctors can watch how food moves through the digestive system or how the heart pumps blood. By utilizing a fluoroscope, physicians can make more informed decisions regarding patient care and treatment plans.The functionality of the fluoroscope relies on a combination of X-ray technology and fluorescent screens. When X-rays pass through the body, they are absorbed by different tissues to varying degrees. The fluoroscope captures these X-rays and converts them into visible light, creating a live image that can be viewed on a monitor. This process allows for immediate feedback during examinations, which is crucial for certain diagnostic procedures.However, it is important to note that the use of a fluoroscope comes with its own set of challenges and risks. Exposure to X-rays, even in small amounts, can pose health risks to both patients and medical staff. Therefore, it is critical to minimize exposure by limiting the duration of examinations and using protective equipment. Healthcare providers must weigh the benefits of using a fluoroscope against the potential risks to ensure patient safety.In conclusion, the fluoroscope (荧光透视仪) has become an indispensable tool in modern medicine, providing invaluable insights into the functioning of the human body. Its ability to visualize internal processes in real-time enhances diagnostic accuracy and improves patient outcomes. As technology continues to advance, the fluoroscope will likely evolve further, offering even more sophisticated imaging capabilities. Understanding the significance of this device is essential for both medical professionals and patients alike, as it exemplifies the intersection of innovation and healthcare in the pursuit of better health.
现代医学成像的出现彻底改变了我们诊断和治疗各种健康状况的方式。在众多可供医疗专业人士使用的工具中,fluoroscope(荧光透视仪)作为一种出色的发明,能够实时可视化内部结构,显得尤为重要。fluoroscope 是一种利用X射线产生身体运动图像的成像设备,使医生能够观察器官的功能并检测传统成像技术中可能看不到的异常。历史上,fluoroscope 的发展可以追溯到19世纪末,当时威廉·康拉德·伦琴首次发现了X射线。最初,X射线的使用主要是为了识别骨折,但随着技术的进步,这种强大工具的应用也不断扩展。fluoroscope 成为诊断放射学的重要组成部分,使医生能够实时观察生理过程。使用fluoroscope 的一个显著优势是它能够提供动态图像。与传统X光片捕捉单一瞬间不同,fluoroscope 允许对体内运动部位进行持续观察。这一特性在胃肠道研究等程序中特别有用,医生可以观察食物如何通过消化系统移动或心脏如何泵血。通过利用fluoroscope,医生可以更准确地做出有关病人护理和治疗计划的决策。fluoroscope 的功能依赖于X射线技术和荧光屏的结合。当X射线穿过身体时,它们会被不同的组织以不同的程度吸收。fluoroscope 捕获这些X射线并将其转化为可见光,创建可以在监视器上查看的实时图像。这个过程使得在检查过程中能够立即反馈,这对于某些诊断程序至关重要。然而,重要的是要注意,使用fluoroscope 也伴随一些挑战和风险。即使是小剂量的X射线暴露,也可能对患者和医务人员构成健康风险。因此,关键在于通过限制检查的持续时间和使用防护设备来尽量减少暴露。医疗提供者必须权衡使用fluoroscope 的好处与潜在风险,以确保患者安全。总之,fluoroscope(荧光透视仪)已成为现代医学中不可或缺的工具,为了解人体功能提供了宝贵的见解。其实时可视化内部过程的能力提高了诊断的准确性,改善了患者的治疗效果。随着技术的不断进步,fluoroscope 可能会进一步发展,提供更复杂的成像能力。理解这种设备的重要性对于医疗专业人士和患者都是至关重要的,因为它体现了创新与医疗在追求更好健康方面的交集。
