stereotaxic
简明释义
英[ˌsterɪəʊˈtæksɪk]美[ˌstɪərɪoˈtæksɪk]
adj. 立体定位的
英英释义
Relating to or denoting a method for locating the precise position of a structure within the body, often used in medical procedures such as neurosurgery. | 与定位体内结构的精确位置的方法有关,通常用于神经外科等医疗程序。 |
单词用法
进行立体定向操作 | |
使用立体定向技术 | |
立体定向定位 | |
立体定向注射 | |
立体定向框架 | |
立体定向靶向 |
同义词
| 立体定向的 | stereotactic surgery is often used to target specific areas in the brain. | 立体定向手术通常用于针对大脑中的特定区域。 | |
| 立体定位的 | the stereotactic frame helps in accurately positioning the patient. | 立体定向框架有助于准确定位患者。 |
反义词
| 非立体定向的 | Non-stereotaxic techniques may lead to less precise targeting. | 非立体定向技术可能导致靶向不够精确。 | |
| 随机的 | Random sampling can introduce significant variability in results. | 随机抽样可能会在结果中引入显著的变异性。 |
例句
1.Objective To discuss the application of stereotaxic located by ct in the surgical treatment for drug addiction.
目的探讨CT定位脑立体定向术在手术治疗药物依赖中的应用价值。
2.Objective To establish brain glioma models in rats with different-volume C6 cell suspension by stereotaxic implantation and to compare the growth patterns of the intracranial tumors.
目的用不同接种体积立体定向建立大鼠C6脑胶质瘤模型,比较其生长特性。
3.After transplanting NIH-3T3-TH engineered cells into the lesioned striatum by stereotaxic technique, the rats were tested for rotational behavior induced by apomorphine.
通过脑立体定位技术,将表达TH的NIH-3T3—TH工程细胞注入模型鼠损毁侧纹状体,观察阿朴吗啡诱导的旋转行为改善情况。
4.Objective To establish brain glioma models in rats with different-volume C6 cell suspension by stereotaxic implantation and to compare the growth patterns of the intracranial tumors.
目的用不同接种体积立体定向建立大鼠C6脑胶质瘤模型,比较其生长特性。
5.Objective:To study a stereotaxic atlas of the brain stem of the Citellus dauricus.
目的:研究达乌尔黄鼠脑干立体定位图谱。
6.There are some disadvantages in present stereotaxic hemorrhage aspiration such as the difficulty of the drainage cruor and the repeat of the punctures.
目前,使用较广的立体定向抽吸术普遍存在因血肿多呈血凝固状态而不易达到引流血肿的目的,以及需多次重复穿刺的缺点。
7.Objective The present paper introduces an integrated method for stereotaxic operation on the rat brain, using three different procedures for correcting the brain targeting site.
目的介绍三种方法相结合的大鼠脑立体定位术程序书。
8.Objective To study effects of stereotaxic lesioning on abstinence symptom and ethology, and observe brain morphological changes after the lesioning in morphine-addicted rats.
目的研究脑内核团毁损对吗啡成瘾大鼠戒断症状及行为学方面的影响,以及毁损前后的脑形态学变化。
9.The IGRT equipment comprises traditional linear accelerator combinated with image system, helical tomotherapy and image- guided stereotaxic targeted therapy.
目前IGRT设备主要有传统直线加速器结合影像系统、断层放射治疗机和影像引导的立体定向治疗机。
10.A stereotaxic apparatus is used to insert the probes that record electrical activity deep within the brain cortex.
他们使用了一个立体设备探针来记录颅内的电流活动。
11.Using a stereotaxic 立体定向的 apparatus, the team was able to map neural connections with high accuracy.
通过使用stereotaxic 立体定向的设备,团队能够高精度地绘制神经连接。
12.The surgeon used a stereotaxic 立体定向的 frame to precisely target the tumor in the patient's brain.
外科医生使用了一个stereotaxic 立体定向的框架来精确定位病人脑中的肿瘤。
13.The stereotaxic 立体定向的 method allows for minimal damage to surrounding tissues during surgery.
这种stereotaxic 立体定向的方法可以在手术中最小化对周围组织的损伤。
14.In research, stereotaxic 立体定向的 techniques are essential for delivering drugs directly to specific brain regions.
在研究中,stereotaxic 立体定向的技术对于将药物直接输送到特定的大脑区域至关重要。
15.Researchers conducted a stereotaxic 立体定向的 injection of a viral vector into the rat's brain.
研究人员对大鼠的脑部进行了stereotaxic 立体定向的病毒载体注射。
作文
The field of neuroscience has made significant advancements over the past few decades, particularly with the development of various techniques that allow researchers to study the brain in greater detail. One such technique is known as stereotaxic surgery. This method involves the use of a three-dimensional coordinate system to locate specific areas within the brain, enabling precise targeting for interventions such as biopsies, electrode placements, and drug delivery systems. The importance of stereotaxic procedures cannot be overstated, as they have revolutionized our understanding of brain functions and disorders.Historically, the origins of stereotaxic surgery can be traced back to the early 20th century when scientists began to explore the intricacies of the brain's anatomy. With the advent of imaging technologies like MRI and CT scans, researchers were able to create detailed maps of the brain, which laid the groundwork for the development of stereotaxic techniques. These advancements have allowed for minimally invasive procedures that significantly reduce recovery times and improve patient outcomes.One of the most notable applications of stereotaxic surgery is in the treatment of neurological disorders such as Parkinson's disease. Deep brain stimulation (DBS) is a procedure that utilizes stereotaxic techniques to implant electrodes in specific brain regions. This intervention has been shown to alleviate symptoms in patients who do not respond well to medication. By precisely targeting the affected areas, doctors can modulate neural activity and improve the quality of life for individuals suffering from debilitating conditions.Furthermore, stereotaxic surgery has become an invaluable tool in research settings. Scientists can use this technique to manipulate specific neurons or brain circuits in animal models, allowing them to study the effects of these manipulations on behavior and cognition. This level of precision is crucial for understanding the underlying mechanisms of various brain functions and disorders, paving the way for the development of new therapeutic strategies.Despite its many benefits, stereotaxic surgery is not without risks. As with any surgical procedure, there is a potential for complications, including infection, bleeding, or damage to surrounding brain tissue. Therefore, it is essential for medical professionals to weigh the risks and benefits before proceeding with stereotaxic interventions. Additionally, ongoing research is focused on improving the safety and efficacy of these procedures, ensuring that patients receive the best possible care.In conclusion, stereotaxic surgery represents a remarkable achievement in the field of neuroscience, providing researchers and clinicians with powerful tools to explore and treat complex brain disorders. Its applications in both clinical and research settings highlight the importance of precision in modern medicine. As technology continues to advance, we can expect further innovations in stereotaxic techniques, ultimately leading to improved outcomes for patients and a deeper understanding of the human brain. The journey of discovery in neuroscience is ongoing, and stereotaxic methods will undoubtedly play a critical role in shaping its future.
神经科学领域在过去几十年中取得了显著进展,尤其是在各种技术的发展方面,这些技术使研究人员能够更详细地研究大脑。其中一种技术被称为立体定向手术。这种方法涉及使用三维坐标系统来定位大脑中的特定区域,从而实现对活检、电极放置和药物输送系统等干预的精确定位。立体定向程序的重要性不容小觑,因为它们彻底改变了我们对大脑功能和疾病的理解。历史上,立体定向手术的起源可以追溯到20世纪初,当时科学家们开始探索大脑解剖的复杂性。随着MRI和CT扫描等成像技术的出现,研究人员能够创建详细的大脑地图,这为立体定向技术的发展奠定了基础。这些进步使得微创手术成为可能,显著缩短了恢复时间并改善了患者的结果。立体定向手术最显著的应用之一是在神经疾病的治疗中,例如帕金森病。深脑刺激(DBS)是一种利用立体定向技术在特定大脑区域植入电极的程序。这种干预已被证明能减轻对药物反应不佳的患者的症状。通过精确定位受影响区域,医生可以调节神经活动,提高患有严重疾病的个体的生活质量。此外,立体定向手术在研究环境中也成为了一种不可或缺的工具。科学家可以使用这种技术在动物模型中操纵特定神经元或大脑回路,从而研究这些操纵对行为和认知的影响。这种精确度对于理解各种大脑功能和疾病的基本机制至关重要,为新治疗策略的发展铺平了道路。尽管有许多好处,立体定向手术并非没有风险。与任何外科手术一样,存在并发症的潜在风险,包括感染、出血或损伤周围脑组织。因此,医疗专业人员在进行立体定向干预之前,必须权衡风险和收益。此外,正在进行的研究集中于提高这些程序的安全性和有效性,以确保患者获得最佳护理。总之,立体定向手术代表了神经科学领域的一项显著成就,为研究人员和临床医生提供了探索和治疗复杂脑疾病的强大工具。其在临床和研究环境中的应用突显了现代医学中精确性的的重要性。随着科技的不断进步,我们可以期待立体定向技术的进一步创新,最终为患者带来更好的结果,并加深对人类大脑的理解。神经科学的发现之旅仍在继续,而立体定向方法无疑将在塑造其未来中发挥关键作用。
