radiography

简明释义

英[ˌreɪdiˈɒɡrəfi]美[ˌreɪdiˈɑːɡrəfi]

n. [核]放射线照相术; X 光线照相术

英英释义

单词用法

同义词

反义词

例句

1.Diagnostic radiography involves the use of both ionising radiation and non-ionising radiation to create images for medical diagnoses.

放射诊断涉及两个电离辐射和非电离辐射，建立医疗诊断图像的使用。

2.Side-on radiography technology can directly demonstrate the change of perturbation amplitude on target surface.

侧向背光照相能直接反映靶表面扰动幅度的变化情况。

3.The examples of using X radiography and X ray diffraction methods.

射线照相法及X射线结构分析的应用实例；

4.The imaging system is one of key assembles of neutron radiography facility.

成像系统是中子照相装置的关键组件之一。

5.Bone and some organs (such as lungs) especially lend themselves to projection radiography.

骨和某些器官(如肺)，尤其是适合投影放射。

6.Opto-collection system is a core of X-ray Computed Radiography.

光影像仪的光采集系统是X光影像仪的核心。

7.Other modalities are used in radiography when traditional projection X-ray cannot image what doctors want to see.

其他方式使用放射时，传统投影X射线无法医生希望看到的影像。

8.Methods 10 cases of spinal teratomas were analyzed with clinical and radiography.

方法分析10例脊髓畸胎瘤的临床和影像表现。

9.Objective To discuss the applicative value of digital imaging system in bronchial radiography.

目的探讨数字成像系统在支气管造影中的应用价值。

10.The doctor ordered a radiography 放射摄影 to check for any fractures in the patient's arm.

医生要求进行一次放射摄影以检查病人手臂是否有骨折。

11.In dental clinics, radiography 放射摄影 is commonly used to detect cavities and other dental issues.

在牙科诊所，放射摄影常用于检测蛀牙和其他牙齿问题。

12.The technician explained the process of radiography 放射摄影 before taking the X-ray.

技师在拍摄X光之前解释了放射摄影的过程。

13.Advanced radiography 放射摄影 techniques can provide detailed images of soft tissues.

先进的放射摄影技术可以提供软组织的详细图像。

14.Safety precautions are essential when performing radiography 放射摄影 to protect both patients and staff.

在进行放射摄影时，采取安全预防措施对于保护患者和工作人员至关重要。

作文

Radiography is a vital tool in the field of medicine, enabling healthcare professionals to visualize the internal structures of the body without the need for invasive procedures. This technique utilizes X-rays or other forms of radiation to create images that can help diagnose various medical conditions. The importance of radiography (放射摄影) cannot be overstated, as it plays a crucial role in identifying fractures, tumors, and infections, among other health issues. In essence, radiography (放射摄影) works by passing X-rays through the body. Different tissues absorb these rays at different rates; for instance, bones, being dense, absorb more X-rays and appear white on the resulting image, while softer tissues, like muscles and organs, allow more rays to pass through and appear darker. This contrast helps doctors interpret the images accurately and make informed decisions regarding patient care. The history of radiography (放射摄影) dates back to the late 19th century when Wilhelm Conrad Roentgen discovered X-rays. His groundbreaking work revolutionized the medical field, leading to the development of various imaging techniques that are now commonplace in hospitals and clinics worldwide. Over the years, advancements in technology have improved the quality of radiography (放射摄影) images, allowing for more precise diagnoses and better treatment plans. In addition to traditional X-ray imaging, the field has expanded to include computed tomography (CT) scans and digital radiography. CT scans provide cross-sectional images of the body, offering a more detailed view than standard X-rays. Digital radiography, on the other hand, allows for immediate image processing and storage, making it easier for healthcare providers to access and share information. Despite its many benefits, radiography (放射摄影) does come with certain risks, primarily related to radiation exposure. Healthcare professionals take great care to minimize this risk by using the lowest possible doses of radiation necessary to obtain clear images. Moreover, they adhere to strict safety protocols to protect both patients and staff from unnecessary exposure. The role of radiography (放射摄影) extends beyond diagnosis; it also plays a significant part in treatment planning and monitoring. For example, oncologists rely on radiographic images to assess the size and location of tumors before proceeding with treatment such as surgery or radiation therapy. Furthermore, follow-up images are essential to evaluate the effectiveness of treatments over time. Education and training in radiography (放射摄影) are crucial for ensuring that healthcare professionals possess the necessary skills and knowledge to perform these procedures safely and effectively. Radiologic technologists undergo extensive training to learn how to operate imaging equipment, position patients correctly, and ensure high-quality images while minimizing radiation exposure. In conclusion, radiography (放射摄影) is an indispensable aspect of modern medicine, providing critical information that aids in the diagnosis and treatment of various medical conditions. As technology continues to advance, the future of radiography (放射摄影) looks promising, with potential developments that could further enhance imaging capabilities and patient safety. Understanding the significance of radiography (放射摄影) is essential for anyone involved in healthcare, as it is a cornerstone of effective medical practice and patient care.

放射摄影是医学领域中的一个重要工具，使医疗专业人员能够在不进行侵入性手术的情况下可视化身体内部结构。这种技术利用X射线或其他形式的辐射来创建图像，从而帮助诊断各种医疗状况。radiography（放射摄影）的重要性不言而喻，因为它在识别骨折、肿瘤和感染等健康问题方面发挥着关键作用。 本质上，radiography（放射摄影）通过将X射线穿过身体来工作。不同的组织以不同的速度吸收这些射线；例如，骨骼由于密度大，吸收更多的X射线，因此在结果图像上显得白色，而较软的组织如肌肉和器官则允许更多的射线通过，显得较暗。这种对比有助于医生准确解读图像，并就患者护理做出明智的决定。 radiography（放射摄影）的历史可以追溯到19世纪末，当时威廉·康拉德·伦琴发现了X射线。他的开创性工作彻底改变了医学领域，导致了现在在医院和诊所普遍使用的各种成像技术的发展。多年来，技术的进步提高了radiography（放射摄影）图像的质量，使得更精确的诊断和更好的治疗计划成为可能。 除了传统的X射线成像外，该领域还扩展到计算机断层扫描（CT扫描）和数字放射摄影。CT扫描提供身体的横截面图像，提供比标准X射线更详细的视图。另一方面，数字放射摄影允许即时图像处理和存储，使医疗提供者更容易访问和共享信息。 尽管有许多好处，radiography（放射摄影）确实存在某些风险，主要与辐射暴露有关。医疗专业人员非常小心，以最小化这种风险，通过使用获取清晰图像所需的最低辐射剂量。此外，他们遵循严格的安全协议，以保护患者和工作人员免受不必要的暴露。 radiography（放射摄影）的角色不仅限于诊断；它在治疗计划和监测中也发挥着重要作用。例如，肿瘤科医生依赖放射影像评估肿瘤的大小和位置，然后再进行手术或放疗等治疗。此外，后续图像对于评估治疗效果至关重要。 在radiography（放射摄影）方面的教育和培训对于确保医疗专业人员具备安全有效地进行这些程序所需的技能和知识至关重要。放射技师经过广泛的培训，学习如何操作成像设备、正确定位患者并确保高质量的图像，同时尽量减少辐射暴露。 总之，radiography（放射摄影）是现代医学不可或缺的一部分，提供关键的信息，有助于各种医疗条件的诊断和治疗。随着技术的不断进步，radiography（放射摄影）的未来看起来充满希望，潜在的发展可能进一步增强成像能力和患者安全。理解radiography（放射摄影）的重要性对于任何参与医疗保健的人来说都是必不可少的，因为它是有效医疗实践和患者护理的基石。