fiberscope
简明释义
n. 纤维镜,纤维光学镜;纤维内窥镜;光纤视镜
英英释义
单词用法
使用纤维镜 | |
插入纤维镜 | |
用纤维镜检查 | |
医疗纤维镜 | |
光纤镜 | |
视频纤维镜 |
同义词
| 内窥镜 | The doctor used an endoscope to examine the patient's digestive tract. | 医生使用内窥镜检查病人的消化道。 | |
| 光纤镜 | Fiber optic scopes are widely used in minimally invasive surgeries. | 光纤镜在微创手术中被广泛使用。 | |
| 镜头 | 技术人员使用镜头检查机器。 |
反义词
例句
1.This paper presents a gastrointestinal fiberscope image processing system. The hardware and software needed by multimedia computing and design concept of the main program are also introduced.
本文着重介绍在胃纤维内镜图象处理系统中采用多媒体技术所需的计算机软硬件及主要程序的设计思想。
2.This paper presents a gastrointestinal fiberscope image processing system. The hardware and software needed by multimedia computing and design concept of the main program are also introduced.
本文着重介绍在胃纤维内镜图象处理系统中采用多媒体技术所需的计算机软硬件及主要程序的设计思想。
3.The maintenance team utilized a fiberscope to check for corrosion in the fuel lines.
维护团队利用纤维内窥镜检查燃油管线是否有腐蚀。
4.During the procedure, the surgeon inserted a fiberscope to get a better look at the damaged tissue.
在手术过程中,外科医生插入了一个纤维内窥镜以更好地观察受损的组织。
5.The fiberscope allows for minimally invasive surgeries by providing a clear view of internal organs.
使用纤维内窥镜可以通过提供清晰的内部器官视图来进行微创手术。
6.With the help of a fiberscope, the technician inspected the inside of the pipe for any blockages.
在技术人员的帮助下,使用纤维内窥镜检查管道内部是否有任何堵塞。
7.The doctor used a fiberscope to examine the patient's throat.
医生使用纤维内窥镜检查病人的喉咙。
作文
In the field of modern medicine, technological advancements have significantly improved diagnostic procedures and treatment options. One such innovation is the fiberscope, a versatile tool that has transformed how doctors examine internal organs. A fiberscope (光纤内窥镜) is a thin, flexible instrument that utilizes optical fibers to transmit light and images from inside the body to an external monitor. This technology allows for minimally invasive examinations, which are crucial for patient comfort and recovery. The development of the fiberscope can be traced back to the early 1950s when scientists first began experimenting with fiber optics. The ability to transmit light through thin strands of glass revolutionized endoscopic procedures. Unlike traditional rigid endoscopes, which require larger incisions, the fiberscope can navigate through smaller openings, making it ideal for various applications, including gastroenterology, pulmonology, and urology.One of the primary advantages of using a fiberscope is its flexibility. The device can bend and maneuver around corners, allowing doctors to access hard-to-reach areas within the body. For instance, in gastrointestinal examinations, a fiberscope can easily travel through the esophagus and into the stomach and intestines, providing real-time visuals that help identify abnormalities such as tumors, ulcers, or inflammation. This capability not only aids in accurate diagnosis but also facilitates therapeutic interventions, such as biopsies or the removal of polyps, during the same procedure.Furthermore, the fiberscope has enhanced the safety of medical procedures. Traditional surgeries often involve significant risks, including infection and long recovery times. In contrast, the minimally invasive nature of fiberscope examinations reduces these risks substantially. Patients can often return home the same day, experiencing less pain and faster healing.The versatility of the fiberscope extends beyond diagnostics; it is also used in various surgical procedures. Surgeons employ the fiberscope to perform delicate operations with precision, guided by the live feed from the device. This technique, known as endoscopic surgery, has become increasingly popular due to its effectiveness and reduced impact on patients’ bodies.In addition to its medical applications, the principles behind the fiberscope have found uses in other fields, such as industrial inspection and telecommunications. For example, technicians use fiber optic cables to inspect hard-to-reach areas in machinery or pipelines, ensuring optimal performance and safety. Similarly, the high-speed data transmission capabilities of fiber optics have revolutionized communication technologies worldwide.As technology continues to advance, the future of the fiberscope looks promising. Innovations such as digital imaging and artificial intelligence are being integrated into fiberscope systems, enhancing their functionality and accuracy. These developments will likely lead to even more effective diagnostic tools and treatment options, ultimately improving patient outcomes.In conclusion, the fiberscope represents a remarkable advancement in medical technology, offering numerous benefits over traditional methods. Its flexibility, safety, and versatility make it an invaluable tool for healthcare professionals. As we continue to explore the potential of this technology, we can anticipate further enhancements that will undoubtedly shape the future of medicine and beyond.
在现代医学领域,技术进步显著改善了诊断程序和治疗选择。其中一个创新是光纤内窥镜,这是一种多功能工具,改变了医生检查内部器官的方式。光纤内窥镜是一种细长、柔韧的仪器,利用光纤将体内的光线和图像传输到外部监视器。这项技术允许进行微创检查,这对患者的舒适和恢复至关重要。光纤内窥镜的发展可以追溯到20世纪50年代初,当时科学家首次开始实验光纤。通过薄玻璃丝传输光线的能力彻底改变了内窥镜程序。与传统的刚性内窥镜需要较大切口不同,光纤内窥镜可以通过较小的开口进行导航,非常适合各种应用,包括胃肠病学、肺病学和泌尿学。使用光纤内窥镜的主要优点之一是其灵活性。该设备可以弯曲并绕过拐角,使医生能够进入体内难以到达的区域。例如,在胃肠检查中,光纤内窥镜可以轻松穿过食道,进入胃和肠道,提供实时视觉图像,帮助识别肿瘤、溃疡或炎症等异常。这种能力不仅有助于准确诊断,还促进了在同一程序中进行的治疗干预,例如活检或切除息肉。此外,光纤内窥镜提高了医疗程序的安全性。传统手术往往涉及重大风险,包括感染和较长的恢复时间。相比之下,光纤内窥镜检查的微创性质显著降低了这些风险。患者通常可以在同一天回家,经历更少的疼痛和更快的愈合。光纤内窥镜的多功能性不仅限于诊断;它还用于各种外科手术中。外科医生利用光纤内窥镜进行精细手术,由设备提供的实时影像引导。这种被称为内窥镜手术的技术由于其有效性和对患者身体影响的减少而越来越受欢迎。除了在医学上的应用,光纤内窥镜背后的原理还在其他领域找到了应用,例如工业检查和电信。例如,技术人员使用光纤电缆检查机械或管道中的难以到达的区域,以确保最佳性能和安全性。同样,光纤的高速数据传输能力彻底改变了全球通信技术。随着技术的不断进步,光纤内窥镜的未来看起来充满希望。数字成像和人工智能等创新正在被整合到光纤内窥镜系统中,增强其功能和准确性。这些发展可能会导致更有效的诊断工具和治疗选择,最终改善患者的结果。总之,光纤内窥镜代表了医学技术的一项显著进步,提供了许多相对于传统方法的好处。其灵活性、安全性和多功能性使其成为医疗专业人员不可或缺的工具。随着我们继续探索这项技术的潜力,我们可以期待进一步的增强,这无疑将塑造医学及其他领域的未来。
