stereotactic

简明释义

英[ˌstɛr.i.oʊˈtæk.tɪk]美[ˌstɛr.i.oʊˈtæk.tɪk]

adj. 定向性测定的；趋实体性的

英英释义

单词用法

同义词

反义词

例句

1.Objective To study the indication, contraindication and clinical results of stereotactic radiotherapy (X knife) for liver cancer.

目的探讨立体定向放射治疗(X线刀)肝癌的适应症、禁忌症和近期疗效。

2.Purpose:This paper mainly introduced a stereotactic localization method for brain SPECT imaging.

目的：本文主要介绍SPECT脑显像的一种立体定位方法。

3.Objective To study the indication, contraindication and clinical results of stereotactic radiotherapy (X knife) for liver cancer.

目的探讨立体定向放射治疗(X线刀)肝癌的适应症、禁忌症和近期疗效。

4.Objective To discuss the treatment of Huntington's disease (HD) by stereotactic multi target radiofrequency derogation.

目的探讨微电极导向立体定向多靶点毁损治疗慢性进行性舞蹈病（HD）。

5.Objective To investigate the role of MRI in diagnosing gliomatosis cerebri (GC) and in stereotactic biopsy.

目的评价MRI在大脑胶质瘤病（GC）的诊断和立体定位活检中的价值。

6.Objective: To explore the value of stereotactic core needle biopsy in diagnosing breast cancer.

目的：评估立体核心活检在乳腺癌诊断中的意义。

7.The doctor recommended a stereotactic 立体定向的 biopsy to precisely target the tumor.

医生建议进行一次立体定向的活检，以精确定位肿瘤。

8.Many neurosurgeons prefer stereotactic 立体定向的 techniques for their precision and effectiveness.

许多神经外科医生更喜欢立体定向的技术，因为它们精确且有效。

9.Using stereotactic 立体定向的 radiosurgery, the team was able to destroy the brain lesion without invasive surgery.

通过使用立体定向的放射外科手术，团队能够在不进行侵入性手术的情况下摧毁脑病变。

10.The stereotactic 立体定向的 frame helps in accurately positioning the patient during the procedure.

在手术过程中，立体定向的框架有助于准确定位患者。

11.The stereotactic 立体定向的 approach minimizes damage to surrounding healthy tissue.

这种立体定向的方法最小化了对周围健康组织的损伤。

作文

In the field of medicine, particularly in neurosurgery, the term stereotactic refers to a precise method used for locating and targeting specific areas within the brain. This technique has revolutionized how surgeons approach complex brain surgeries, allowing them to minimize damage to surrounding tissues while maximizing the effectiveness of their interventions. The stereotactic method employs a three-dimensional coordinate system to guide instruments and imaging devices during surgery, ensuring that the procedure is as accurate as possible. The origins of stereotactic surgery can be traced back to the early 20th century when researchers began exploring ways to navigate the intricate structures of the brain. Traditional surgical methods often involved large incisions and significant trauma to the brain, which led to longer recovery times and increased risks of complications. With the advent of stereotactic techniques, surgeons could now perform operations with minimal invasiveness. One of the most significant applications of stereotactic surgery is in the treatment of brain tumors. By using advanced imaging technologies such as MRI or CT scans, surgeons can create a detailed map of the brain's anatomy. This allows them to identify the exact location of a tumor and plan the surgery accordingly. During the operation, the stereotactic frame is secured to the patient's head, providing a stable reference point for the surgeon. This precision is crucial, as even the slightest miscalculation could result in damaging healthy brain tissue. Additionally, stereotactic surgery is not limited to tumor removal. It is also used for other procedures, such as deep brain stimulation, which is a treatment for conditions like Parkinson's disease and essential tremors. In this case, electrodes are implanted in specific brain regions to help regulate abnormal signals. The stereotactic approach ensures that these electrodes are placed with pinpoint accuracy, significantly improving patient outcomes. Moreover, the benefits of stereotactic surgery extend beyond just improved accuracy. Because the procedures are less invasive, patients often experience shorter hospital stays, reduced pain, and quicker recoveries compared to traditional surgical methods. This advancement in surgical techniques highlights the importance of technological innovation in medicine. As we look towards the future, the role of stereotactic surgery is likely to expand even further. With advancements in robotic technology and artificial intelligence, the precision of these procedures will only improve. Researchers are already exploring how to integrate real-time imaging and navigation systems to enhance the stereotactic approach even more. This could lead to even less invasive techniques, further reducing the risks associated with brain surgery. In conclusion, the term stereotactic represents a significant advancement in neurosurgery, allowing for precise targeting of brain structures with minimal invasiveness. As technology continues to evolve, the potential applications of stereotactic techniques will likely grow, improving outcomes for countless patients suffering from neurological disorders. The journey of stereotactic surgery is a testament to the incredible progress made in medical science, showcasing how innovation can lead to better healthcare solutions.

在医学领域，特别是在神经外科，术语stereotactic指的是一种用于定位和瞄准大脑中特定区域的精确方法。这项技术彻底改变了外科医生处理复杂脑部手术的方式，使他们能够最大限度地减少对周围组织的损害，同时提高干预的有效性。stereotactic方法采用三维坐标系统来引导手术器械和成像设备，在手术过程中确保程序尽可能准确。 stereotactic手术的起源可以追溯到20世纪初，当时研究人员开始探索导航大脑复杂结构的方法。传统的外科手术通常涉及大切口和对大脑的重大创伤，这导致恢复时间更长，合并症风险增加。随着stereotactic技术的出现，外科医生现在可以以最小的侵入性进行手术。 stereotactic手术最重要的应用之一是治疗脑肿瘤。通过使用先进的成像技术，如MRI或CT扫描，外科医生可以创建大脑解剖结构的详细地图。这使他们能够识别肿瘤的确切位置并相应地规划手术。在手术过程中，stereotactic框架被固定在患者的头部，为外科医生提供一个稳定的参考点。这种精确度至关重要，因为即使是微小的计算错误也可能导致健康脑组织的损伤。 此外，stereotactic手术不仅限于肿瘤切除。它还用于其他手术，例如深脑刺激，这是治疗帕金森病和原发性震颤的一种方法。在这种情况下，电极被植入特定的大脑区域，以帮助调节异常信号。stereotactic方法确保这些电极以精确的方式放置，从而显著改善患者的结果。 此外，stereotactic手术的好处不仅仅体现在提高准确性上。由于手术的侵入性较小，患者通常经历较短的住院时间、较少的疼痛和比传统手术方法更快的恢复。这种外科技术的进步突显了技术创新在医学中的重要性。 展望未来，stereotactic手术的角色可能会进一步扩大。随着机器人技术和人工智能的进步，这些程序的精确性只会提高。研究人员已经在探索如何整合实时成像和导航系统，以进一步增强stereotactic方法。这可能导致更少的侵入性技术，进一步降低与脑外科手术相关的风险。 总之，术语stereotactic代表了神经外科的重要进展，使得能够以最小的侵入性精确定位大脑结构。随着技术的不断发展，stereotactic技术的潜在应用可能会不断增长，改善无数患有神经疾病患者的结果。stereotactic手术的历程证明了医学科学取得的令人难以置信的进步，展示了创新如何带来更好的医疗解决方案。