roentgenoscope
简明释义
英[/ˈrɛntɡənəˌskoʊp/]美[/ˈrɛntɡənəˌskoʊp/]
n. 荧光镜,荧光检查器;伦琴射线透视机
vt. 用荧光镜检查
英英释义
A device used for viewing X-ray images in real-time, allowing the observation of internal structures of objects or bodies. | 一种用于实时查看X光图像的设备,允许观察物体或身体内部结构。 |
单词用法
同义词
反义词
| 不透明的 | 不透明的材料不允许X射线通过。 | ||
| 固体 | Solid objects are often used in construction for their strength. | 固体物体常用于建筑,因为它们的强度。 |
例句
1.The roentgenoscope allowed the surgeon to visualize the organs before making an incision.
在外科手术前,roentgenoscope帮助外科医生可视化器官。
2.The dentist employed a roentgenoscope to get a clearer view of the patient's dental structure.
牙医使用roentgenoscope更清晰地查看病人的牙齿结构。
3.In the radiology department, the roentgenoscope is an essential tool for diagnosing internal injuries.
在放射科,roentgenoscope是诊断内部伤害的必备工具。
4.The doctor used a roentgenoscope to examine the patient's bones for fractures.
医生使用roentgenoscope检查病人的骨骼是否有骨折。
5.During the health check-up, the technician utilized a roentgenoscope to screen for any hidden issues.
在健康检查中,技术人员利用roentgenoscope筛查任何隐患。
作文
The invention of the roentgenoscope marked a significant milestone in the field of medical imaging. This device, which utilizes X-rays to visualize the internal structures of the body, revolutionized how physicians diagnose and treat various ailments. Before the advent of the roentgenoscope, doctors relied heavily on physical examinations and exploratory surgeries to understand what was happening inside a patient’s body. However, with the introduction of this remarkable technology, it became possible to see bones, organs, and even soft tissues without invasive procedures.The roentgenoscope, named after Wilhelm Conrad Röntgen who discovered X-rays in 1895, allows medical professionals to observe live images of the body’s interior. This capability is crucial for diagnosing fractures, tumors, and other medical conditions. The real-time imaging provided by the roentgenoscope enables doctors to make quicker and more accurate decisions regarding treatment plans. For instance, if a patient comes in with a suspected broken bone, the doctor can use the roentgenoscope to confirm the diagnosis immediately, rather than waiting for film development as was common with earlier X-ray techniques.In addition to its diagnostic capabilities, the roentgenoscope has also played a vital role in various therapeutic procedures. For example, during certain surgeries, surgeons can use the roentgenoscope to guide their instruments precisely, ensuring that they are operating in the correct location within the body. This level of precision can significantly reduce the risk of complications and improve patient outcomes.Despite its many benefits, the use of the roentgenoscope is not without risks. Exposure to X-rays can pose health hazards, including an increased risk of cancer. Therefore, it is essential for healthcare providers to use this technology judiciously, weighing the potential benefits against the risks involved. Continuous advancements in technology have led to the development of safer imaging techniques, but the roentgenoscope remains a fundamental tool in modern medicine.Furthermore, the evolution of the roentgenoscope has paved the way for even more advanced imaging modalities, such as computed tomography (CT) scans and magnetic resonance imaging (MRI). These technologies build upon the principles established by the roentgenoscope, offering enhanced imaging capabilities and greater detail. As research continues, we can expect further innovations that will enhance our understanding of the human body and improve diagnostic accuracy.In conclusion, the roentgenoscope represents a groundbreaking advancement in medical imaging that has transformed the practice of medicine. Its ability to provide real-time images of the body has made it an indispensable tool for healthcare professionals. While there are inherent risks associated with its use, the benefits it offers in terms of diagnosis and treatment far outweigh these concerns. As technology continues to evolve, the legacy of the roentgenoscope will undoubtedly influence future developments in medical imaging, ultimately leading to better patient care and outcomes.
“roentgenoscope”(罗恩特根镜)的发明标志着医学成像领域的一个重要里程碑。该设备利用X射线可视化身体内部结构,彻底改变了医生诊断和治疗各种疾病的方式。在“roentgenoscope”问世之前,医生主要依靠体检和探查手术来了解患者体内发生的情况。然而,随着这一非凡技术的引入,能够在不进行侵入性程序的情况下看到骨骼、器官甚至软组织成为可能。“roentgenoscope”以发现X射线的威廉·康拉德·伦琴命名,他于1895年首次发现X射线,该设备允许医疗专业人员观察身体内部的实时图像。这种能力对诊断骨折、肿瘤和其他医疗条件至关重要。“roentgenoscope”提供的实时成像使医生能够更快、更准确地做出关于治疗方案的决策。例如,如果一名患者怀疑骨折,医生可以立即使用“roentgenoscope”确认诊断,而无需像早期X光技术那样等待胶卷显影。除了其诊断能力外,“roentgenoscope”在各种治疗程序中也发挥了重要作用。例如,在某些手术过程中,外科医生可以使用“roentgenoscope”精确引导其仪器,确保他们在身体的正确位置进行操作。这种精确度可以显著降低并发症风险,提高患者的治疗效果。尽管有许多好处,但“roentgenoscope”的使用并非没有风险。X射线的暴露可能会带来健康危害,包括增加癌症风险。因此,医疗提供者必须谨慎使用这项技术,权衡潜在益处与相关风险。技术的持续进步导致了更安全成像技术的发展,但“roentgenoscope”仍然是现代医学中的基本工具。此外,“roentgenoscope”的演变为更先进的成像模式铺平了道路,例如计算机断层扫描(CT)和磁共振成像(MRI)。这些技术建立在“roentgenoscope”所建立的原则之上,提供了增强的成像能力和更大的细节。随着研究的不断推进,我们可以期待进一步的创新,这将增强我们对人体的理解,并提高诊断的准确性。总之,“roentgenoscope”代表了医学成像的一项突破性进展,彻底改变了医学实践。它提供实时图像的能力使其成为医疗专业人员不可或缺的工具。虽然其使用存在固有风险,但在诊断和治疗方面所提供的好处远远超过这些顾虑。随着技术的不断发展,“roentgenoscope”的遗产无疑将影响医学成像的未来发展,最终导致更好的患者护理和结果。
