brain convolution

简明释义

脑回

英英释义

例句

1.The study of brain convolution 大脑的褶皱 helps neuroscientists understand how different regions of the brain communicate.

对大脑的褶皱的研究帮助神经科学家理解大脑不同区域如何交流。

2.Researchers are investigating how brain convolution 大脑的褶皱 affects cognitive functions.

研究人员正在调查大脑的褶皱如何影响认知功能。

3.In my psychology class, we learned that increased brain convolution 大脑的褶皱 is associated with higher intelligence.

在我的心理学课上，我们了解到增加的大脑的褶皱与更高的智力相关。

4.The complexity of brain convolution 大脑的褶皱 can indicate the evolutionary status of a species.

复杂的大脑的褶皱可以指示一个物种的进化状态。

5.The MRI scan revealed the extent of brain convolution 大脑的褶皱 in the patient's brain.

MRI扫描显示了患者大脑中大脑的褶皱的程度。

作文

The human brain is an incredibly complex organ, responsible for our thoughts, emotions, and actions. One of the key features that contribute to its complexity is the structure known as brain convolution. This term refers to the intricate folding of the cerebral cortex, which increases the surface area of the brain and allows for a greater number of neurons to be packed into a smaller volume. The process of brain convolution is essential for enhancing cognitive functions and overall brain performance.In simple terms, brain convolution can be likened to crumpling a piece of paper. If you take a flat sheet of paper and crumple it up, the surface area increases dramatically while the size remains relatively small. Similarly, the folds and grooves in the brain, known as gyri and sulci, create more surface area for neural connections without requiring additional space in the skull. This unique structure is vital for our ability to think critically, solve problems, and engage in complex tasks.Research has shown that the degree of brain convolution can vary among different species. For instance, humans have a highly convoluted brain compared to many other animals, which correlates with our advanced cognitive abilities. Studies have suggested that the level of convolution may also relate to intelligence; more convoluted brains often indicate higher levels of problem-solving skills and adaptability.Moreover, the process of brain convolution begins early in fetal development and continues into early childhood. During this time, the brain undergoes significant growth and changes, resulting in the formation of various folds and creases. This developmental phase is crucial, as it sets the foundation for future learning and cognitive capabilities.Interestingly, the study of brain convolution has implications beyond understanding human intelligence. Neuroscientists are exploring how abnormalities in brain folding may be linked to neurological disorders. Conditions like schizophrenia, autism, and epilepsy have been associated with atypical patterns of convolution, indicating that the structure of the brain may play a role in these disorders. By examining the patterns of brain convolution, researchers hope to gain insights into the underlying mechanisms of these conditions and potentially develop more effective treatments.In conclusion, brain convolution is a fundamental aspect of brain anatomy that has profound implications for our understanding of intelligence, cognitive function, and neurological health. As research continues to unfold, we are likely to uncover even more about how the intricate folds of the brain contribute to our unique human experience. Understanding brain convolution not only helps us appreciate the complexity of our own minds but also opens doors to new possibilities in the field of neuroscience and mental health. The exploration of this fascinating topic underscores the importance of the brain's physical structure in shaping who we are as individuals and as a species.

人脑是一个极其复杂的器官，负责我们的思想、情感和行为。促成其复杂性的关键特征之一是被称为脑回折的结构。这个术语指的是大脑皮层的复杂折叠，这增加了大脑的表面积，并允许更多的神经元在较小的体积中被压缩。脑回折的过程对于增强认知功能和整体大脑表现至关重要。简单来说，脑回折可以比作揉皱一张纸。如果你拿一张平坦的纸并把它揉皱，表面积会显著增加，而大小保持相对较小。类似地，大脑中的褶皱和沟壑，即回和沟，创造了更多的表面积用于神经连接，而不需要在颅骨中额外的空间。这种独特的结构对我们进行批判性思考、解决问题和参与复杂任务的能力至关重要。研究表明，不同物种之间的脑回折程度可能有所不同。例如，与许多其他动物相比，人类的大脑高度卷曲，这与我们先进的认知能力相关。研究还表明，卷曲程度可能与智力有关；更卷曲的大脑通常表明更高水平的问题解决能力和适应能力。此外，脑回折的过程始于胎儿发育早期，并持续到儿童早期。在此期间，大脑经历了显著的生长和变化，导致各种褶皱和皱折的形成。这一发展阶段至关重要，因为它为未来的学习和认知能力奠定了基础。有趣的是，研究脑回折的意义超越了对人类智力的理解。神经科学家正在探讨大脑折叠的异常如何与神经系统疾病相关联。像精神分裂症、自闭症和癫痫等疾病与非典型的卷曲模式有关，这表明大脑的结构可能在这些疾病中发挥作用。通过检查脑回折的模式，研究人员希望获得对这些病症潜在机制的见解，并可能开发出更有效的治疗方法。总之，脑回折是大脑解剖学的基本方面，对我们理解智力、认知功能和神经健康具有深远的影响。随着研究的不断展开，我们可能会发现更多关于大脑复杂折叠如何影响我们独特的人类体验的信息。理解脑回折不仅帮助我们欣赏自己思维的复杂性，还为神经科学和心理健康领域的新可能性打开了大门。对这一迷人主题的探索强调了大脑物理结构在塑造我们作为个体和作为一个物种的身份中的重要性。