gyral

简明释义

英[ˈdʒaɪrəl]美[ˈdʒaɪrəl]

adj. 旋转的

英英释义

单词用法

同义词

反义词

例句

1.The calculation of the gyral moment is more complicated in the design of tube-shaped vessels, especially the calculation of the gyral moment of the liquid metal remained in the vessel.

在铸造桶形浇注装置的设计中，倾转力矩的计算比较复杂，尤其是余留金属液倾转力矩的计算更为烦琐费时。

2.The calculation of the gyral moment is more complicated in the design of tube-shaped vessels, especially the calculation of the gyral moment of the liquid metal remained in the vessel.

在铸造桶形浇注装置的设计中，倾转力矩的计算比较复杂，尤其是余留金属液倾转力矩的计算更为烦琐费时。

3.Leptomeningeal metastasis appear as enhancing curvilinear segments following the gyral convolutions often with small nodular deposits on the surface of the brain.

软脑膜转移表现为紧贴于脑回的曲线样强化段，经常可以看到小结节沉着于脑表面。

4.Through the strength analysis of the main body, it verifies that blocking-wheel cylinder can bear impact loads by the gyral kilns.

通过对缸体结构的强度分析，验证了挡轮液压缸能够承受回转窑冲击载荷的作用。

5.Cortical tubers were detected in 10 cases, the patterns of cortical tubers were gyral core lesion and H-shaped lesion on MRI.

皮层或皮层下结节10例，表现为脑回核心样病灶和H型病灶。

6.The brain's surface is covered with numerous gyral 回旋的 folds that increase its surface area.

大脑表面覆盖着许多 回旋的 褶皱，以增加其表面积。

7.During the examination, the doctor noted the gyral 回旋的 patterns in the patient’s MRI scans.

在检查过程中，医生注意到患者MRI扫描中的 回旋的 图案。

8.Research shows that the gyral 回旋的 structures play a crucial role in cognitive function.

研究表明，回旋的 结构在认知功能中起着至关重要的作用。

9.The gyral 回旋的 features of the cortex are essential for understanding brain diseases.

皮层的 回旋的 特征对于理解脑部疾病至关重要。

10.In neuroanatomy, the study of gyral 回旋的 formations helps identify various brain regions.

在神经解剖学中，对 回旋的 形态的研究有助于识别不同的脑区。

作文

The human brain is a marvel of complexity and functionality, with its intricate structures playing a crucial role in our cognitive abilities. One of the most fascinating features of the brain is its surface, which is characterized by folds and grooves. These folds, known as gyri, are essential for increasing the surface area of the cerebral cortex, allowing for more neurons to be packed into a smaller volume. The term gyral refers to anything related to these gyri. Understanding the gyral structure of the brain can provide insights into how we think, learn, and remember. In recent years, advances in neuroimaging techniques have allowed scientists to explore the gyral patterns of the brain in greater detail. For instance, studies have shown that individuals with more complex gyral patterns tend to perform better on cognitive tests. This correlation suggests that the organization of the brain's surface may influence our intellectual capabilities. Moreover, researchers have discovered that certain psychiatric disorders, such as schizophrenia, are associated with abnormalities in the gyral structure. These findings underline the importance of studying the gyral aspects of the brain to understand mental health conditions better. The development of the gyral structure occurs during early brain growth. As the brain develops, it undergoes a process called gyrification, where the smooth surface begins to fold and create gyri and sulci. This process is influenced by various genetic and environmental factors, making each individual's gyral pattern unique. Interestingly, the degree of gyrification varies among species, with humans exhibiting a higher level of complexity compared to other mammals. This increased gyrification is believed to be linked to our advanced cognitive functions, setting us apart from other animals. In addition to its implications for cognitive function, the gyral structure of the brain also plays a significant role in various neurological diseases. For example, in Alzheimer's disease, researchers have observed a reduction in the volume of certain gyral areas, which correlates with memory loss and cognitive decline. Understanding these changes can help in the early diagnosis and treatment of such conditions. Furthermore, the study of the gyral structure has led to the development of new therapeutic approaches, such as targeted brain stimulation techniques that aim to restore normal function in affected areas. In conclusion, the gyral features of the brain are vital for our understanding of both normal cognitive processes and various neurological disorders. As research continues to uncover the intricacies of the gyral organization, we move closer to unraveling the mysteries of the human mind. The exploration of the gyral structure not only enhances our knowledge of brain function but also opens up new avenues for medical advancements that could improve the lives of those affected by neurological conditions. Therefore, embracing the study of gyral characteristics is essential for anyone interested in the fields of neuroscience and psychology.

人类大脑是复杂性和功能性的奇迹，其复杂的结构在我们的认知能力中发挥着至关重要的作用。大脑表面最迷人的特征之一是其由褶皱和沟槽组成的形态。这些褶皱，称为脑回，对于增加大脑皮层的表面积至关重要，使更多的神经元能够在更小的体积内聚集。术语gyral指与这些脑回相关的任何事物。理解大脑的gyral结构可以提供对我们思考、学习和记忆方式的洞察。 近年来，神经影像技术的进步使科学家们能够更详细地探索大脑的gyral模式。例如，研究表明，具有更复杂脑回模式的个体在认知测试中的表现往往更好。这种关联表明，大脑表面的组织可能会影响我们的智力能力。此外，研究人员发现，某些精神疾病，如精神分裂症，与gyral结构的异常有关。这些发现强调了研究大脑gyral方面的重要性，以更好地理解心理健康状况。 脑回结构的发展发生在早期大脑生长过程中。当大脑发育时，它经历了一种称为脑回化的过程，光滑的表面开始折叠并形成脑回和沟槽。这个过程受到各种遗传和环境因素的影响，使每个人的gyral模式都是独一无二的。有趣的是，脑回的程度在物种间有所不同，人类相较于其他哺乳动物表现出更高的复杂性。这种增加的gyral化被认为与我们先进的认知功能有关，使我们与其他动物区分开来。 除了对认知功能的影响外，大脑的gyral结构在各种神经疾病中也发挥着重要作用。例如，在阿尔茨海默病中，研究人员观察到某些脑回区域的体积减少，这与记忆丧失和认知衰退相关。理解这些变化有助于早期诊断和治疗此类疾病。此外，对gyral结构的研究促进了新治疗方法的发展，例如针对大脑刺激技术，旨在恢复受影响区域的正常功能。 总之，大脑的gyral特征对于我们理解正常认知过程和各种神经疾病至关重要。随着研究不断揭示gyral组织的复杂性，我们离解开人类思维的奥秘又近了一步。探讨gyral结构不仅增强了我们对大脑功能的知识，还开辟了医疗进步的新途径，这可能改善那些受到神经疾病影响的人的生活。因此，拥抱对gyral特征的研究对于任何对神经科学和心理学领域感兴趣的人来说都是至关重要的。