radioscopy

简明释义

[ˌreɪdɪˈɒskəpɪ][ˌredɪˈɑskəpi]

n. 射线检查法, X 光透视,放射线透视

英英释义

Radioscopy is a technique of imaging that uses X-rays to view the internal structure of an object in real-time, allowing for dynamic observation and analysis.

放射照相术是一种成像技术,利用X射线实时查看物体的内部结构,从而实现动态观察和分析。

单词用法

perform radioscopy

进行放射检查

radioscopy examination

放射检查

interpret radioscopy results

解读放射检查结果

radioscopy imaging

放射成像

radioscopy techniques

放射技术

diagnostic radioscopy

诊断性放射检查

同义词

radiography

放射摄影

Radiography is commonly used for diagnosing fractures.

放射摄影通常用于诊断骨折。

fluoroscopy

荧光摄影

Fluoroscopy allows real-time imaging of the movement of internal structures.

荧光摄影可以实时成像内部结构的运动。

反义词

ultrasound

超声波

Ultrasound is commonly used in prenatal examinations.

超声波常用于产前检查。

endoscopy

内窥镜检查

Endoscopy allows doctors to view the inside of a patient's body without major surgery.

内窥镜检查使医生能够在不进行大手术的情况下查看患者体内。

例句

1.This Paper introduces the theory, architecture and implementation of the microfocus X-ray radioscopy scan-ning control and image acquisition system.

文章介绍了微焦点X射线成像扫描控制与数据获取系统的原理、软硬件结构以及实现技术。

2.This paper is about microfocus X ray radioscopy inspection system. Introduced are the image collecting and processing technology. Basic principles and image quality are also discussed.

本文主要介绍微焦点X射线实时成像检测的基本原理、图像质量分析及图像采集与图像处理技术。

3.The density measurement technology of foam material with low atomic number was established by low energy X-ray radioscopy .

采用低能X射线对低原子序数泡沫样品进行透射照相,以胶片作为记录介质,对材料密度进行测量。

4.This paper is about microfocus X-ray radioscopy inspection system. Introduced are the image collecting and processing technology.

本文主要介绍微焦点X射线实时成像检测的基本原理、图像质量分析及图像采集与图像处理技术。

5.This paper is about microfocus X ray radioscopy inspection system. Introduced are the image collecting and processing technology. Basic principles and image quality are also discussed.

本文主要介绍微焦点X射线实时成像检测的基本原理、图像质量分析及图像采集与图像处理技术。

6.In emergency cases, radioscopy can quickly assess injuries.

在紧急情况下,放射线检查可以快速评估伤情。

7.The doctor used radioscopy to examine the patient's internal organs.

医生使用放射线检查来检查病人的内部器官。

8.During the procedure, radioscopy helped identify any foreign objects in the body.

在手术过程中,放射线检查帮助识别体内的任何异物。

9.The technician explained how radioscopy provides real-time images for diagnosis.

技术员解释了放射线检查如何提供实时图像以便诊断。

10.The use of radioscopy in dentistry has improved the accuracy of treatments.

在牙科中使用放射线检查提高了治疗的准确性。

作文

Radioscopy is a fascinating branch of medical imaging that has revolutionized the way we diagnose and treat various conditions. It involves the use of X-rays to create real-time images of the internal structures of the body, allowing healthcare professionals to observe the movement of organs and the flow of blood. This technique is particularly useful in procedures such as catheter placements, where the physician needs to guide instruments through the vascular system. The ability to visualize these processes in real time makes radioscopy (放射线检查) an invaluable tool in modern medicine.The origins of radioscopy (放射线检查) can be traced back to the discovery of X-rays by Wilhelm Conrad Röntgen in 1895. Since then, advancements in technology have significantly enhanced the quality and safety of X-ray imaging. Today, radioscopy (放射线检查) utilizes digital imaging techniques that provide high-resolution images with reduced radiation exposure compared to traditional methods. This is crucial for patient safety, especially for those who require multiple imaging studies over time.One of the key advantages of radioscopy (放射线检查) is its ability to provide dynamic images rather than static ones. For instance, during a barium swallow test, a patient ingests a barium solution, which coats the esophagus and allows the physician to observe the swallowing process in real time. This can help identify issues such as strictures, tumors, or motility disorders that might not be visible on standard X-rays.Moreover, radioscopy (放射线检查) plays a critical role in interventional radiology, where minimally invasive procedures are performed under imaging guidance. For example, during a biopsy, a radiologist can use radioscopy (放射线检查) to precisely locate and sample tissue from a suspicious area, reducing the need for more invasive surgical procedures. This not only minimizes patient discomfort but also accelerates recovery times.However, it is important to recognize that while radioscopy (放射线检查) offers numerous benefits, it also comes with risks associated with radiation exposure. Healthcare providers must weigh the potential risks against the diagnostic benefits when recommending this imaging technique. To mitigate these risks, protocols are in place to ensure that radioscopy (放射线检查) is used judiciously and only when necessary. Additionally, advancements in technology continue to focus on reducing radiation doses while maintaining image quality.In conclusion, radioscopy (放射线检查) represents a significant advancement in medical imaging, providing real-time insights that enhance diagnostic capabilities and treatment options. As technology continues to evolve, we can expect even greater improvements in the safety and efficacy of this technique. Understanding the principles and applications of radioscopy (放射线检查) is essential for both healthcare professionals and patients alike, as it underscores the importance of informed decision-making in the realm of medical care.