neuroradiology
简明释义
英[ˌnjʊərəʊˌreɪdɪˈɒlədʒi]美[ˌnʊroˌrediˈɑlədʒi;ˌnjʊroˌred
n. [特医] 神经辐射学;[特医] 神经系放射学
英英释义
单词用法
神经放射学报告 | |
神经放射学影像技术 | |
诊断神经放射学 | |
介入神经放射学 |
同义词
反义词
| 放射学 | Radiology involves the use of imaging techniques to diagnose diseases. | 放射学涉及使用影像技术来诊断疾病。 | |
| 病理学 | Pathology studies the causes and effects of diseases through examination of tissues. | 病理学通过组织检查研究疾病的原因和影响。 |
例句
1.Short History of Interventional Neuroradiology What about the Future?
介入神经放射学的短暂历史——未来将向何方?
2.Objective To explore the character of clinic, EEG , histology and neuroradiology on hemimegalencephaly with intractable epilepsy, and to value the effect of hemispherectomy for hemimegalencephaly.
目的探讨儿童半侧巨脑畸形并顽固性癫癎的临床、脑电图、组织学及影像学特点,以及大脑半球切除术对其治疗的效果评估。
3.Objective To explore the character of clinic, EEG , histology and neuroradiology on hemimegalencephaly with intractable epilepsy, and to value the effect of hemispherectomy for hemimegalencephaly.
目的探讨儿童半侧巨脑畸形并顽固性癫癎的临床、脑电图、组织学及影像学特点,以及大脑半球切除术对其治疗的效果评估。
4.A fellowship in neuroradiology 神经放射学 can provide specialized training for radiologists.
在神经放射学领域的专科培训可以为放射科医生提供专业训练。
5.The neuroradiology 神经放射学 team collaborated with neurologists to develop a treatment plan.
神经放射学团队与神经科医生合作制定治疗计划。
6.In neuroradiology 神经放射学, advanced imaging techniques are used to diagnose neurological conditions.
在神经放射学中,使用先进的成像技术来诊断神经系统疾病。
7.The patient was referred to the neuroradiology 神经放射学 department for an MRI scan of the brain.
患者被转诊到神经放射学部门进行脑部MRI扫描。
8.The findings from the neuroradiology 神经放射学 report indicated a possible stroke.
来自神经放射学报告的发现表明可能发生了中风。
作文
Neuroradiology is a specialized field of medicine that focuses on the diagnosis and treatment of diseases related to the nervous system through imaging techniques. This branch of radiology plays a crucial role in identifying conditions such as brain tumors, strokes, and other neurological disorders. The importance of neuroradiology (神经放射学) cannot be overstated, as it provides essential information that helps guide treatment decisions for patients with complex neurological issues.One of the primary imaging techniques used in neuroradiology (神经放射学) is magnetic resonance imaging (MRI). MRI utilizes powerful magnets and radio waves to create detailed images of the brain and spinal cord. This non-invasive method allows doctors to visualize structures within the nervous system without exposing patients to harmful radiation. For instance, when a patient presents with symptoms of a stroke, an MRI can quickly reveal whether there is a blockage or bleeding in the brain, facilitating timely intervention.Another important tool in neuroradiology (神经放射学) is computed tomography (CT) scans. CT scans are particularly useful in emergency situations where rapid assessment is required. They provide cross-sectional images of the brain, enabling physicians to detect fractures, hemorrhages, and other acute conditions. The ability to obtain quick results from a CT scan can be life-saving, especially in cases of traumatic brain injury.In addition to MRI and CT, neuroradiology (神经放射学) also encompasses advanced imaging techniques such as functional MRI (fMRI) and positron emission tomography (PET). Functional MRI measures brain activity by detecting changes in blood flow, allowing researchers and clinicians to understand how different parts of the brain function during various tasks. PET scans, on the other hand, can help identify metabolic changes in the brain, which can be indicative of diseases like Alzheimer’s or Parkinson’s.The integration of neuroradiology (神经放射学) with other medical disciplines enhances patient care. For example, neurosurgeons rely heavily on neuroradiological imaging to plan surgical procedures. By understanding the precise location and extent of a tumor or lesion, surgeons can minimize risks and improve outcomes. Furthermore, neuroradiology (神经放射学) aids in monitoring the effectiveness of treatments, allowing for adjustments based on the patient’s response.Educating the next generation of healthcare professionals about neuroradiology (神经放射学) is vital. Medical students and residents must receive training in interpreting neuroimaging studies and understanding their implications for patient care. As technology continues to evolve, staying updated with the latest advancements in neuroradiology (神经放射学) will be essential for providing high-quality healthcare.In conclusion, neuroradiology (神经放射学) is an indispensable component of modern medicine that significantly enhances our ability to diagnose and treat neurological conditions. Through advanced imaging techniques, it provides critical insights into the workings of the nervous system, ultimately improving patient outcomes. As research and technology continue to advance, the future of neuroradiology (神经放射学) holds great promise for further enhancing our understanding and treatment of neurological diseases.
神经放射学是医学的一个专业领域,专注于通过影像技术诊断和治疗与神经系统相关的疾病。这个放射学分支在识别脑肿瘤、中风和其他神经系统疾病等病症中发挥着至关重要的作用。神经放射学的重要性不言而喻,因为它提供了基本信息,有助于指导对复杂神经病患者的治疗决策。在神经放射学中,主要使用的影像技术之一是磁共振成像(MRI)。MRI利用强大的磁场和无线电波创建大脑和脊髓的详细图像。这种非侵入性的方法使医生能够在不暴露患者于有害辐射的情况下可视化神经系统内的结构。例如,当一名患者出现中风症状时,MRI可以快速显示大脑是否存在阻塞或出血,从而促进及时干预。另一种在神经放射学中重要的工具是计算机断层扫描(CT)。CT扫描在需要快速评估的紧急情况下特别有用。它们提供大脑的横断面图像,使医生能够检测骨折、出血和其他急性病症。CT扫描能够快速获得结果,可以挽救生命,尤其是在创伤性脑损伤的情况下。除了MRI和CT外,神经放射学还包括先进的影像技术,如功能性MRI(fMRI)和正电子发射断层扫描(PET)。功能性MRI通过检测血流变化来测量大脑活动,使研究人员和临床医生了解大脑不同部分在各种任务中的功能。而PET扫描则可以帮助识别大脑中的代谢变化,这可能是阿尔茨海默病或帕金森病等疾病的指征。将神经放射学与其他医学学科整合,增强了患者护理。例如,神经外科医生在计划手术时严重依赖神经放射学影像。通过了解肿瘤或病变的确切位置和范围,外科医生可以最小化风险并改善结果。此外,神经放射学有助于监测治疗效果,根据患者的反应进行调整。教育下一代医疗专业人员关于神经放射学是至关重要的。医学生和住院医生必须接受解读神经影像研究及其对患者护理影响的培训。随着技术的不断发展,跟上神经放射学最新进展的步伐将对提供高质量的医疗保健至关重要。总之,神经放射学是现代医学中不可或缺的组成部分,显著增强了我们诊断和治疗神经系统疾病的能力。通过先进的影像技术,它提供了对神经系统运作的关键见解,最终改善患者的结果。随着研究和技术的不断进步,神经放射学的未来为进一步增强我们对神经疾病的理解和治疗带来了巨大的希望。