imaging
简明释义
n. 成像
v. 想像,设想;料想,认为;误以为,胡乱猜想(imagine 的现在分词形式)
英英释义
单词用法
n. 成像系统 | |
磁共振成象 |
同义词
反义词
| 忽视 | 忽视数据可能导致决策不佳。 | ||
| 忽略 | 忽略成像的重要性可能会影响诊断。 |
例句
1.This makes search - and - rescue imaging a secondary concern.
这也使搜索与营救任务再一次受到关注。
2.Why learn a new imaging model?
为什么要学习一种新的绘图模型?
3.Scientists have used the latest imaging techniques to peer inside the digestive system of a python an hour after it had eaten a rat whole.
在蟒蛇吞噬了一整只老鼠一小时之后,科学家利用最新的成像技术窥视了其体内的消化系统。
4.Brain imaging reveals that it stimulates the reward centres of our brains.
大脑成像显示,利他主义会刺激我们的大脑中的奖励中心。
5.Imaging this: you wake up each morning to find your sister lying beside you.
想象一下:你每天早上醒来,都会发现你的妹妹躺在你身边。
6.Use hard drive imaging utility to replicate the entire disk.
使用硬盘驱动器映像实用程序复制整个磁盘。
7.Image via the National Institute of Biomedical Imaging and Bioengineering.
在生物医学成像和生物工程的国家研究所所取得的图像。
8.A new imaging technology could help automate this.
一种新的成象技术有助于将这个过程自动化。
9.There is thermal imaging that lets us see heat in color.
有种热像仪可以把热转化成色彩,我们就可以看到热了。
10.The new software improves the imaging 成像 quality of digital photographs.
新软件提高了数字照片的成像质量。
11.The doctor ordered an MRI for better imaging 成像 of the brain.
医生要求进行MRI扫描,以便更好地对大脑进行成像。
12.We use advanced imaging 成像 techniques in our research to study cellular structures.
我们在研究中使用先进的成像技术来研究细胞结构。
13.In the field of astronomy, imaging 成像 allows scientists to capture detailed pictures of distant galaxies.
在天文学领域,成像使科学家能够捕捉到遥远星系的详细图像。
14.3D imaging 成像 has revolutionized the way we visualize complex objects.
3D成像彻底改变了我们可视化复杂物体的方式。
作文
In recent years, the field of medicine has witnessed remarkable advancements, particularly in the area of diagnostics. One of the most significant developments is the use of advanced techniques in medical imaging (成像) that have revolutionized how healthcare professionals diagnose and treat various conditions. Medical imaging (成像) encompasses a variety of technologies, including X-rays, MRI scans, CT scans, and ultrasound, each providing unique insights into the human body. These tools allow doctors to visualize internal structures without the need for invasive procedures, thereby improving patient outcomes and enhancing the accuracy of diagnoses.The importance of imaging (成像) cannot be overstated. For instance, MRI (Magnetic Resonance Imaging) uses powerful magnets and radio waves to produce detailed images of organs and tissues. This technique is particularly useful for examining the brain, spinal cord, and joints. By utilizing MRI, doctors can identify abnormalities such as tumors, fractures, or degenerative diseases with greater precision than ever before. The ability to see inside the body in such detail allows for earlier detection of conditions, which is often critical in determining the best course of treatment.Similarly, CT (Computed Tomography) scans combine X-ray images taken from different angles and use computer processing to create cross-sectional images of bones, blood vessels, and soft tissues. This technology is invaluable in emergency situations where quick assessment is necessary. For example, in cases of trauma, a CT scan can rapidly reveal internal bleeding or organ damage, enabling timely intervention that could save a patient’s life.Ultrasound, another form of imaging (成像), employs high-frequency sound waves to create images of the inside of the body. It is widely used in obstetrics to monitor the development of a fetus during pregnancy. Ultrasound is non-invasive and poses no risk to the mother or baby, making it a preferred choice for prenatal care. Additionally, it can help detect various conditions in other areas of the body, such as gallstones or kidney issues.The evolution of imaging (成像) technology has also led to the development of innovative techniques like functional MRI (fMRI), which measures brain activity by detecting changes in blood flow. This advancement not only aids in diagnosing neurological disorders but also opens new avenues for understanding brain functions and behaviors. Researchers can now study the brain in real-time, leading to breakthroughs in fields such as psychology and neurology.Despite these advancements, the field of imaging (成像) is not without challenges. Issues such as radiation exposure from certain types of scans and the need for skilled technicians to operate complex machines must be addressed. Moreover, access to advanced imaging (成像) technologies can vary significantly depending on geographic location and healthcare infrastructure, leading to disparities in diagnosis and treatment.In conclusion, the role of imaging (成像) in modern medicine is pivotal. It enhances our ability to diagnose and treat diseases effectively, ultimately improving patient care. As technology continues to advance, we can expect even more sophisticated imaging (成像) techniques to emerge, further transforming the landscape of healthcare. The ongoing research and development in this field hold great promise for the future, ensuring that imaging (成像) remains a cornerstone of medical science.
近年来,医学领域见证了显著的进步,特别是在诊断方面。其中最重要的发展之一是医疗imaging(成像)技术的使用,这彻底改变了医疗专业人员诊断和治疗各种疾病的方式。医疗imaging(成像)包括多种技术,如X光、MRI扫描、CT扫描和超声波,每种技术都提供了对人体的独特洞察。这些工具使医生能够在不需要侵入性程序的情况下可视化内部结构,从而改善患者的结果并提高诊断的准确性。imaging(成像)的重要性不容小觑。例如,MRI(磁共振成像)利用强大的磁铁和无线电波生成器官和组织的详细图像。这项技术对于检查大脑、脊髓和关节尤其有用。通过利用MRI,医生可以更精确地识别肿瘤、骨折或退行性疾病等异常情况。能够如此详细地观察体内情况使得早期发现病症成为可能,这在确定最佳治疗方案时通常至关重要。同样,CT(计算机断层扫描)将从不同角度拍摄的X光图像结合起来,并利用计算机处理生成骨骼、血管和软组织的横截面图像。这项技术在紧急情况下尤为宝贵,因为快速评估是必要的。例如,在创伤病例中,CT扫描能够迅速揭示内部出血或器官损伤,从而使及时干预成为可能,挽救患者生命。超声波是另一种imaging(成像)形式,它利用高频声波创建体内图像。它广泛应用于产科,以监测孕期胎儿的发展。超声波是非侵入性的,对母亲和婴儿没有风险,使其成为产前护理的首选。此外,它还可以帮助检测身体其他部位的各种疾病,如胆结石或肾脏问题。imaging(成像)技术的演变也导致了创新技术的发展,如功能性MRI(fMRI),它通过检测血流变化来测量大脑活动。这一进展不仅有助于诊断神经系统疾病,还为理解大脑功能和行为开辟了新的途径。研究人员现在可以实时研究大脑,推动心理学和神经学领域的突破。尽管有这些进展,但imaging(成像)领域并非没有挑战。某些类型扫描的辐射暴露问题以及需要熟练技术人员操作复杂机器的需求必须得到解决。此外,获取先进的imaging(成像)技术的机会因地理位置和医疗基础设施而异,导致诊断和治疗的不平等。总之,imaging(成像)在现代医学中的作用至关重要。它增强了我们有效诊断和治疗疾病的能力,最终改善了患者护理。随着技术的不断进步,我们可以期待出现更复杂的imaging(成像)技术,进一步改变医疗保健的格局。该领域正在进行的研究和开发为未来带来了巨大希望,确保imaging(成像)继续成为医学科学的基石。
