stereotaxis
简明释义
英[/ˌstɛr.i.oʊˈtæk.sɪs/]美[/ˌstɛr.i.oʊˈtæk.sɪs/]
n. [医] 趋实体性
英英释义
Stereotaxis refers to a method of performing surgery or other procedures using three-dimensional coordinates to accurately target specific areas within the body. | 立体定向术是指一种通过三维坐标精确定位身体特定区域进行手术或其他程序的方法。 |
单词用法
同义词
反义词
| 随机性 | The experiment showed a high level of randomness in the results. | 实验结果显示出很高的随机性。 | |
| 混乱 | 在混沌理论中,系统的行为可能是不可预测的。 |
例句
1.Objective To investigate the value of X-ray Knife in the stereotaxis radiotherapy of lung cancer.
目的探讨X刀立体定向在放射治疗肺癌中的价值。
2.This paper is mainly focused on detecting the space position of the object in Magnetic Stereotaxis System (MSS).
本论文主要针对磁导航手术系统(MSS)中的物体空间定位进行了研究。
3.This paper is mainly focused on detecting the space position of the object in Magnetic Stereotaxis System (MSS).
本论文主要针对磁导航手术系统(MSS)中的物体空间定位进行了研究。
4.The use of stereotaxis in neurosurgery allows for precise targeting of brain tumors.
在神经外科中使用立体定向可以精确定位脑肿瘤。
5.Doctors rely on stereotaxis to guide catheters during minimally invasive procedures.
医生依赖立体定向在微创手术中引导导管。
6.The stereotaxis system uses advanced imaging techniques to enhance surgical accuracy.
立体定向系统利用先进的成像技术提高手术的准确性。
7.In cardiology, stereotaxis helps in mapping out electrical pathways of the heart.
在心脏病学中,立体定向有助于绘制心脏的电传导路径。
8.Advancements in stereotaxis technology have improved the outcomes of radiation therapy.
在立体定向技术的进步下,放射治疗的效果得到了改善。
作文
In the field of medicine, particularly in neurosurgery, the term stereotaxis refers to a three-dimensional coordinate system used to locate specific areas within the body. This technology allows surgeons to precisely target regions in the brain or other organs, minimizing damage to surrounding tissues. The concept of stereotaxis has revolutionized surgical procedures by enabling more accurate interventions, which can lead to improved patient outcomes and reduced recovery times.The development of stereotaxis can be traced back to the early 20th century when researchers began to explore ways to navigate the complex structures of the human body. Initially, this involved the use of various imaging techniques to create detailed maps of anatomical features. Over time, advancements in technology have led to the integration of computer systems that enhance the precision of these maps, making it possible for surgeons to operate with a level of accuracy that was previously unimaginable.One of the most significant applications of stereotaxis is in the treatment of neurological disorders, such as Parkinson's disease and epilepsy. For instance, deep brain stimulation (DBS) is a procedure that utilizes stereotaxis to implant electrodes into specific areas of the brain. These electrodes deliver electrical impulses that can alleviate symptoms and improve the quality of life for patients. The ability to accurately place these electrodes is crucial, as even slight deviations can lead to ineffective treatment or adverse effects.Moreover, the use of stereotaxis extends beyond neurosurgery. It is also employed in radiation therapy, where precise targeting of tumors is essential to minimize damage to healthy tissue. By utilizing stereotaxis, oncologists can deliver higher doses of radiation to cancerous cells while sparing surrounding organs, thereby increasing the efficacy of treatment and reducing side effects.As technology continues to advance, the potential for stereotaxis in medicine is vast. Innovations such as robotic-assisted surgery and enhanced imaging techniques are expected to further refine the accuracy of stereotaxis. These developments not only promise better surgical outcomes but also open up new avenues for research and treatment in various medical fields.In conclusion, stereotaxis is a pivotal concept in modern medicine that has transformed the way surgeries are performed. Its ability to provide precise localization within the body has improved the safety and effectiveness of numerous medical procedures. As we look to the future, the continued evolution of stereotaxis technology will undoubtedly lead to even greater advancements in patient care and surgical techniques, ultimately benefiting countless individuals worldwide.
在医学领域,特别是神经外科,术语stereotaxis指的是一种三维坐标系统,用于定位身体内的特定区域。这项技术使外科医生能够精确地瞄准大脑或其他器官中的区域,从而最小化对周围组织的损伤。stereotaxis的概念通过使手术干预更加准确而彻底改变了手术程序,这可以改善患者的结果并缩短恢复时间。stereotaxis的发展可以追溯到20世纪初,当时研究人员开始探索导航人体复杂结构的方法。最初,这涉及使用各种成像技术来创建解剖特征的详细地图。随着时间的推移,技术的进步导致计算机系统的集成,增强了这些地图的精确度,使外科医生能够以以前无法想象的精确度进行手术。stereotaxis最重要的应用之一是在治疗神经系统疾病(如帕金森病和癫痫)中。例如,深脑刺激(DBS)是一种利用stereotaxis将电极植入大脑特定区域的程序。这些电极传递电冲动,可以缓解症状并改善患者的生活质量。准确放置这些电极的能力至关重要,因为即使是微小的偏差也可能导致治疗无效或不良反应。此外,stereotaxis的使用超越了神经外科。它还用于放射治疗,在这种情况下,肿瘤的精确靶向对最小化对健康组织的损害至关重要。通过利用stereotaxis,肿瘤科医生可以对癌细胞施加更高剂量的辐射,同时保护周围器官,从而提高治疗的有效性并减少副作用。随着技术的不断进步,stereotaxis在医学中的潜力是巨大的。机器人辅助手术和增强成像技术等创新预计将进一步精炼stereotaxis的准确性。这些发展不仅承诺提供更好的手术结果,而且为各个医学领域的研究和治疗开辟了新的途径。总之,stereotaxis是现代医学中一个关键的概念,已经改变了手术的执行方式。其在身体内提供精确定位的能力改善了许多医疗程序的安全性和有效性。展望未来,stereotaxis技术的持续演变无疑将导致患者护理和外科技术的更大进步,最终使全球无数人受益。
