neuroanatomy

简明释义

英[ˌnjʊərəʊəˈnætəmi]美[ˌnjʊroəˈnætəmi]

n. 神经解剖学

复 数 n e u r o a n a t o m i e s

英英释义

单词用法

同义词

反义词

例句

1.According to Zangfu-meridians theoretic, bioholography and neuroanatomy theoretic, elaborating indication range and mechanism of action in clinical application about Jiaji acupoints;

根据脏腑经络理论、生物全息理论及现代神经解剖学理论，阐述了夹脊穴的主治范围及临床应用的作用机理；

2.Since no two people ever have exactly the same neuroanatomy or experience, no two people ever interpret anything in exactly the same way.

由于没有两个人的神经解剖学或者经验是完全一样的，因此也没有两个人会完全一样的看待所有事情。

3.Digital brain atlas is a powerful tool in surgical planning, model driven segmentation and teaching of neuroanatomy.

数字化人脑图谱是神经外科手术计划、模型驱动分割和教学的重要工具。

4.The level of treatment is suited to increasingly shorter neuroanatomy courses for medical and allied health students.

处理水平，适合的医疗和专职医疗学生越来越短神经解剖学课程。

5.In doing so, he was an early pioneer of comparative neuroanatomy.

这样做，使他成为比较神经组织学的先驱。

6.The first thing she had to do was learn the worm's neuroanatomy, and she did so in a way only one other person has ever done.

T她先要学习蛔虫的神经解剖学，她做到了只有另一个人做过的事。

7.The subjects of study include gross anatomy, bone biology, developmental anatomy, neuroanatomy, and histology.

学习科目包括大体解剖学，骨生物学，胚胎学，神经解剖学和组织学。

8.Textbooks on neuroanatomy often include detailed diagrams of the brain.

关于神经解剖学的教科书通常包含详细的脑部图解。

9.Researchers in neuroanatomy study the connections between different brain regions.

从事神经解剖学研究的科学家研究不同脑区之间的连接。

10.The course on neuroanatomy covers the structure of the human brain.

关于神经解剖学的课程涵盖了人脑的结构。

11.A solid grasp of neuroanatomy can enhance surgical outcomes in neurosurgery.

对神经解剖学的扎实掌握可以提高神经外科手术的结果。

12.Understanding neuroanatomy is essential for diagnosing brain disorders.

理解神经解剖学对于诊断脑部疾病至关重要。

作文

The study of the human brain is a fascinating and complex field, and one of the crucial aspects of this study is neuroanatomy. 神经解剖学 refers to the structure and organization of the nervous system, particularly the brain and spinal cord. Understanding neuroanatomy is essential for anyone interested in neuroscience, psychology, or medicine because it provides the foundational knowledge necessary to explore how the brain functions and how it influences behavior and cognition.In recent years, advances in technology have allowed researchers to delve deeper into the intricacies of neuroanatomy. With tools such as MRI scans and diffusion tensor imaging, scientists can visualize the brain's structure in unprecedented detail. This has led to significant discoveries about various brain regions and their specific functions. For instance, studies have shown that the hippocampus, a critical area in the neuroanatomy of memory, plays a vital role in forming new memories and spatial navigation.Moreover, understanding neuroanatomy helps in identifying the underlying causes of neurological disorders. Conditions such as Alzheimer's disease, Parkinson's disease, and multiple sclerosis all have distinct neuroanatomical features that can be observed through imaging techniques. By studying these changes, researchers can develop better diagnostic tools and treatment strategies. For example, recognizing the atrophy of certain brain regions in Alzheimer's patients allows for earlier intervention and potentially more effective care.In the realm of education, knowledge of neuroanatomy can inform teaching methods and learning strategies. Educators who understand how different parts of the brain contribute to learning processes can create more effective curricula tailored to students' needs. For instance, understanding the role of the prefrontal cortex in decision-making and impulse control can lead to better classroom management techniques and support systems for students who struggle with these skills.Additionally, neuroanatomy intersects with various disciplines, including philosophy and ethics. As we learn more about the brain's structure and its impact on human behavior, questions arise regarding free will, moral responsibility, and the nature of consciousness. For instance, if certain behaviors can be traced back to specific neuroanatomical pathways, what does that mean for our understanding of accountability? This intersection of science and philosophy highlights the importance of neuroanatomy not only in medical fields but also in broader societal discussions.Furthermore, the implications of neuroanatomy extend to mental health. Many mental health disorders, such as depression and anxiety, are linked to alterations in brain structure. By understanding the neuroanatomy of these conditions, mental health professionals can tailor interventions that target specific brain areas, leading to more effective treatments. For instance, therapies that focus on enhancing connectivity in the prefrontal cortex may help improve emotional regulation in individuals with anxiety disorders.In conclusion, neuroanatomy is a vital field of study that encompasses the structure and organization of the nervous system. Its importance cannot be overstated, as it lays the groundwork for understanding brain function, diagnosing neurological disorders, informing educational practices, and addressing ethical dilemmas. As research in neuroanatomy continues to evolve, it promises to unlock even more secrets of the human brain, ultimately enhancing our comprehension of ourselves and our behaviors.

人脑的研究是一个迷人而复杂的领域，其中一个关键方面是神经解剖学。Neuroanatomy指的是神经系统的结构和组织，特别是大脑和脊髓。理解neuroanatomy对于任何对神经科学、心理学或医学感兴趣的人来说都是必不可少的，因为它提供了探索大脑功能及其如何影响行为和认知所需的基础知识。近年来，技术的进步使研究人员能够更深入地探讨neuroanatomy的复杂性。借助MRI扫描和扩散张量成像等工具，科学家们可以以前所未有的细节可视化大脑的结构。这导致了对各种大脑区域及其特定功能的重大发现。例如，研究表明，海马体在neuroanatomy中的记忆方面起着至关重要的作用，在形成新记忆和空间导航中发挥着重要作用。此外，理解neuroanatomy有助于识别神经系统疾病的根本原因。阿尔茨海默病、帕金森病和多发性硬化症等疾病都有明显的neuroanatomical特征，可以通过成像技术观察到。通过研究这些变化，研究人员可以开发出更好的诊断工具和治疗策略。例如，识别阿尔茨海默患者某些大脑区域的萎缩可以实现更早的干预，并可能提供更有效的护理。在教育领域，了解neuroanatomy可以为教学方法和学习策略提供信息。理解大脑不同部分如何促进学习过程的教育工作者可以制定更有效的课程，以满足学生的需求。例如，了解前额叶皮层在决策和冲动控制中的作用可以导致更好的课堂管理技巧和支持系统，以帮助那些在这些技能上挣扎的学生。此外，neuroanatomy与哲学和伦理学等多个学科交叉。随着我们对大脑结构及其对人类行为影响的了解加深，关于自由意志、道德责任和意识本质的问题也随之而来。例如，如果某些行为可以追溯到特定的neuroanatomical通路，这对我们对责任感的理解意味着什么？这种科学与哲学的交汇突显了neuroanatomy在医学领域以及更广泛的社会讨论中的重要性。此外，neuroanatomy的意义还扩展到心理健康。许多心理健康障碍，如抑郁症和焦虑症，与大脑结构的变化有关。通过理解这些状况的neuroanatomy，心理健康专业人士可以量身定制针对特定大脑区域的干预措施，从而导致更有效的治疗。例如，专注于增强前额叶皮层连接性的疗法可能有助于改善焦虑障碍个体的情绪调节。总之，neuroanatomy是一个重要的研究领域，涵盖了神经系统的结构和组织。它的重要性不容低估，因为它为理解大脑功能、诊断神经系统疾病、告知教育实践和解决伦理困境奠定了基础。随着neuroanatomy研究的不断发展，它承诺将揭示人脑的更多秘密，最终增强我们对自己和行为的理解。