neuroanatomical

简明释义

英[/ˌnjʊərəʊəˈnætɪkəl/]美[/ˌnʊroʊəˈnætɪkəl/]

adj. 神经解剖学的

英英释义

单词用法

同义词

反义词

例句

1.Study limitations included lack of long-term cognitive follow-up and lack of physical or neuroanatomical testing.

研究的局限性，在于缺乏长期的认知随访，以及身体或神经解剖学试验。

2.Deep brain stimulation requires placement of electrodes at specific neuroanatomical sites.

深度脑刺激疗法要求在特定神经解剖部位放置电极。

3.Objective To study the neural connections between cervical sympathetic ganglia and cervical spinal ganglia, and explore the neuroanatomical basis of the pathogenesis of cervical vertigo.

目的分析颈交感神经节和颈脊神经节之间的神经纤维联系，探讨颈性眩晕发病的神经反射基础。

4.This paper looks back the newest model and functional anatomy of working memory, the structure, function and neuroanatomical substrates of phonological loop.

本文回顾了最新的工作记忆模型及其脑功能定位，语音回路的结构、功能及其脑区分布。

5.The green fluorescence protein (GFP) gene recombinant virus labeling is a new method for the neuroanatomical studies.

绿色荧光蛋白（GFP）基因重组病毒标记技术是神经解剖研究的新方法。

6.However the neuroanatomical substrates of phonological store and the function of rehearsal in phonological loop remain underdetermined.

然而大脑中是否存在语音存储的特定部位及复述在语音回路中的作用还有很大的争论。

7.Aims at mapping the intrinsic functional topography of the brain, evaluating neuroanatomical models, and investigating neurological and psychiatric disease.

旨在绘制脑部的内在功能拓扑图、评估神经解剖模型，以及研究神经学与精神学疾病。

8.The contents of this course embodies the means and traits for neuroanatomical research, and introduces the latest accomplishments and developments about neuroanatomy.

上述内容也将体现神经解剖的研究方法和特点，并介绍现代神经解剖的最新成就和进展。

9.Objective To study the neural connections between cervical sympathetic ganglia and cervical spinal ganglia, and explore the neuroanatomical basis of the pathogenesis of cervical vertigo.

目的分析颈交感神经节和颈脊神经节之间的神经纤维联系，探讨颈性眩晕发病的神经反射基础。

10.His thesis explored the neuroanatomical changes associated with aging.

他的论文探讨了与衰老相关的神经解剖变化。

11.The study focused on the neuroanatomical structures of the brain to understand cognitive functions.

该研究集中在大脑的神经解剖结构上，以理解认知功能。

12.Understanding the neuroanatomical basis of depression can help in developing targeted therapies.

理解抑郁症的神经解剖基础可以帮助开发有针对性的治疗方法。

13.Researchers used advanced imaging techniques to map the neuroanatomical pathways involved in memory.

研究人员使用先进的成像技术来绘制与记忆相关的神经解剖通路。

14.The neuroanatomical differences between male and female brains have been a topic of extensive research.

男性和女性大脑之间的神经解剖差异一直是广泛研究的主题。

作文

The human brain is a complex organ that serves as the command center for the entire body. One of the most fascinating aspects of studying the brain is the field of neuroanatomy, which focuses on the structure of the nervous system. The term neuroanatomical refers to the anatomical structure of the nervous system, including the brain, spinal cord, and peripheral nerves. Understanding neuroanatomical structures is crucial for both medical professionals and researchers who seek to comprehend how various parts of the brain interact with one another and influence behavior, cognition, and emotions.In recent years, advancements in imaging technology have allowed scientists to explore the neuroanatomical features of the brain in unprecedented detail. Techniques such as magnetic resonance imaging (MRI) and diffusion tensor imaging (DTI) have provided insights into the intricate wiring of neural pathways. These technologies enable researchers to visualize the neuroanatomical connections between different brain regions, shedding light on how these connections may be altered in various neurological disorders.For instance, studies have shown that individuals with depression often exhibit distinct neuroanatomical changes, particularly in areas such as the prefrontal cortex and amygdala. By examining these alterations, researchers can better understand the biological underpinnings of mental health conditions. This knowledge not only contributes to our understanding of the brain but also aids in developing targeted treatments that address the specific neuroanatomical abnormalities associated with these disorders.Moreover, the study of neuroanatomical structures is essential for understanding the effects of aging on the brain. As people grow older, certain neuroanatomical regions may shrink or change in function, leading to cognitive decline. Research in this area has highlighted the importance of maintaining brain health through lifestyle choices such as regular exercise, a balanced diet, and mental stimulation. By promoting activities that support neuroanatomical integrity, individuals can potentially mitigate the impacts of aging on cognitive function.In addition to its implications for mental health and aging, the exploration of neuroanatomical structures can enhance our understanding of learning and memory. The hippocampus, a critical region for memory formation, exhibits unique neuroanatomical features that allow it to process and store information. Research has shown that engaging in activities that challenge the brain can promote neuroplasticity, the brain's ability to reorganize itself by forming new neural connections. This process is vital for learning new skills and adapting to new environments, emphasizing the importance of understanding neuroanatomical changes throughout life.In conclusion, the study of neuroanatomical structures is a critical component of neuroscience that provides valuable insights into the functioning of the brain. By examining the neuroanatomical organization of the nervous system, researchers can uncover the mechanisms underlying various psychological and neurological conditions. This knowledge not only enhances our understanding of the brain but also paves the way for innovative treatments and interventions that can improve mental health and cognitive function. As we continue to explore the complexities of the brain, the significance of neuroanatomical research will undoubtedly grow, revealing new dimensions of our understanding of human behavior and cognition.

人脑是一个复杂的器官，作为整个身体的指挥中心。研究大脑最迷人的方面之一是神经解剖学领域，专注于神经系统的结构。术语neuroanatomical指的是神经系统的解剖结构，包括大脑、脊髓和周围神经。理解neuroanatomical结构对医学专业人员和研究人员至关重要，他们试图理解大脑的不同部分如何相互作用并影响行为、认知和情感。近年来，成像技术的进步使科学家能够以前所未有的细节探索大脑的neuroanatomical特征。磁共振成像（MRI）和扩散张量成像（DTI）等技术提供了有关神经通路复杂连接的见解。这些技术使研究人员能够可视化不同大脑区域之间的neuroanatomical连接，阐明这些连接在各种神经系统疾病中的变化。例如，研究表明，抑郁症患者通常表现出明显的neuroanatomical变化，尤其是在前额叶皮层和杏仁核等区域。通过检查这些变化，研究人员可以更好地理解心理健康状况的生物学基础。这一知识不仅有助于我们理解大脑，还促进了针对与这些疾病相关的特定neuroanatomical异常的靶向治疗的发展。此外，研究neuroanatomical结构对于理解衰老对大脑的影响至关重要。随着人们年龄的增长，某些neuroanatomical区域可能会缩小或功能发生变化，导致认知能力下降。在这一领域的研究强调了通过定期锻炼、均衡饮食和心理刺激等生活方式选择来维持大脑健康的重要性。通过促进支持neuroanatomical完整性的活动，个人可以潜在减轻衰老对认知功能的影响。除了对心理健康和衰老的影响外，探索neuroanatomical结构还可以增强我们对学习和记忆的理解。海马体是记忆形成的关键区域，具有独特的neuroanatomical特征，使其能够处理和存储信息。研究表明，参与挑战大脑的活动可以促进神经可塑性，即大脑通过形成新的神经连接重新组织自身的能力。这个过程对学习新技能和适应新环境至关重要，强调了理解neuroanatomical变化在整个生命过程中的重要性。总之，研究neuroanatomical结构是神经科学的一个关键组成部分，为大脑的功能提供了宝贵的见解。通过检查神经系统的neuroanatomical组织，研究人员可以揭示各种心理和神经疾病的机制。这一知识不仅增强了我们对大脑的理解，而且为改善心理健康和认知功能的创新治疗和干预措施铺平了道路。随着我们继续探索大脑的复杂性，neuroanatomical研究的重要性无疑会增加，揭示我们对人类行为和认知理解的新维度。