neuronal

简明释义

英[njʊə'rəʊnəl]美['njʊrɑnl]

adj. [解剖] 神经元的

英英释义

单词用法

同义词

反义词

例句

1.This is the website of Journal of Musculoskeletal and Neuronal Interactions.

这是骨骼肌与神经元交互作用杂志的网站。

2.Base on the model we have introduced previously, we consider the effect of temperature to neuronal action potential.

在前面介绍模型的基础上，本文考虑温度对神经元动作电位变化的影响。

3.Developed in conjunction with Texas Instruments, the Audeo USES electrodes to detect neuronal signals traveling from the brain to the vocal cords.

该公司与TexasInstruments合作开发了Audeo，它利用电极探测大脑发送到声带的神经信号。

4.The neuronal imbalance in the brain of the infant caused seizures, prompting surgeons to remove the enlarged hemisphere—a treatment that has proven successful in similar cases.

婴儿大脑的神经元失衡导致癫痫发作，促使外科医生切除了扩大的大脑半球——这种治疗在类似病例中被证明是成功的。

5.Furthermore, all the whirling electrons cannot explain why a certain neuronal configuration results in our seeing blue rather than red.

此外，所有这些涡动的电子并不能解释为什么某种神经构造造成了我们看到了蓝色而不是红色。

6.Most scientists have viewed electrical fields within the brain as the simple byproducts of neuronal activity.

大多数科学家认为大脑内的电场是神经细胞活动所产生的简单的副产品。

7.In this context it is no surprise that a decade of brain imaging has shown the same neuronal circuits to be involved in many disorders.

在这种情形下，如果十进位脑成像显示相同的神经元回路参与了多种紊乱就不再奇怪了。

8.Recent research has shown that neuronal 神经元的 activity can be influenced by environmental factors.

最近的研究表明，神经元的活动可以受到环境因素的影响。

9.In Alzheimer's disease, neuronal 神经元的 death leads to cognitive decline.

在阿尔茨海默病中，神经元的死亡导致认知能力下降。

10.The study focused on the role of neuronal 神经元的 connections in memory formation.

这项研究集中于神经元的连接在记忆形成中的作用。

11.The researchers used imaging techniques to observe neuronal 神经元的 changes in real-time.

研究人员使用成像技术实时观察神经元的变化。

12.The neuronal 神经元的 pathways are crucial for transmitting signals throughout the brain.

这些神经元的通路对于在大脑中传递信号至关重要。

作文

The human brain is an incredibly complex organ that serves as the command center for the entire body. One of the most fascinating aspects of the brain is its structure, which is composed of billions of cells known as neurons. These neurons are the building blocks of the nervous system and are responsible for transmitting information throughout the body. The term neuronal (神经元的) refers to anything related to these neurons, including their development, function, and connectivity. Understanding the neuronal (神经元的) networks in the brain is crucial for grasping how we think, learn, and remember. Neurons communicate with each other through synapses, which are specialized junctions where the transmission of signals occurs. This communication is essential for all cognitive functions, from basic reflexes to complex decision-making processes. The intricate patterns of neuronal (神经元的) connections form what is known as the connectome, a comprehensive map of neural connections in the brain. Researchers are continually studying these neuronal (神经元的) pathways to uncover how they influence behavior and mental processes.In recent years, advancements in neuroscience have shed light on various disorders that stem from neuronal (神经元的) dysfunction. Conditions such as Alzheimer's disease, Parkinson's disease, and multiple sclerosis are linked to the degeneration of neuronal (神经元的) cells or disruptions in their signaling pathways. By understanding the mechanisms behind these diseases, scientists hope to develop more effective treatments and therapies that can restore neuronal (神经元的) health.Moreover, the concept of neuroplasticity highlights the brain's remarkable ability to reorganize itself by forming new neuronal (神经元的) connections throughout life. This adaptability is vital for recovery from brain injuries and for learning new skills. For instance, when someone practices a musical instrument, their brain undergoes changes at the neuronal (神经元的) level, strengthening the connections associated with that activity. This phenomenon illustrates the dynamic nature of the brain and its capacity to evolve based on experiences.Educational approaches that incorporate knowledge about neuronal (神经元的) functioning can lead to better learning outcomes. For example, understanding how memory works at the neuronal (神经元的) level can help educators design curricula that align with how the brain learns best. Techniques such as spaced repetition and active engagement leverage neuronal (神经元的) principles to enhance retention and comprehension.In conclusion, the study of neuronal (神经元的) mechanisms is pivotal for advancing our understanding of the brain and its functions. As we continue to explore the complexities of neuronal (神经元的) networks, we unlock the potential for innovative treatments for neurological disorders and improve educational practices. The journey into the world of neuronal (神经元的) research is just beginning, and its implications for human health and cognition are vast and promising.

人脑是一个极其复杂的器官，作为整个身体的指挥中心。大脑最迷人的方面之一是它的结构，由数十亿个被称为神经元的细胞组成。这些神经元是神经系统的基本单元，负责在全身传递信息。术语neuronal（神经元的）指的是与这些神经元相关的任何事物，包括它们的发展、功能和连接。理解大脑中的neuronal（神经元的）网络对于掌握我们如何思考、学习和记忆至关重要。神经元通过突触进行相互通信，突触是信号传递发生的专门连接点。这种交流对所有认知功能至关重要，从基本的反射到复杂的决策过程。neuronal（神经元的）连接的复杂模式形成了所谓的连接组，这是大脑神经连接的全面图谱。研究人员不断研究这些neuronal（神经元的）通路，以揭示它们如何影响行为和心理过程。近年来，神经科学的进展揭示了许多源于neuronal（神经元的）功能障碍的疾病。阿尔茨海默病、帕金森病和多发性硬化症等疾病与neuronal（神经元的）细胞的退化或其信号通路的中断有关。通过理解这些疾病背后的机制，科学家希望开发出更有效的治疗方法和疗法，以恢复neuronal（神经元的）健康。此外，神经可塑性的概念突显了大脑通过在整个生命中形成新的neuronal（神经元的）连接而重新组织自身的非凡能力。这种适应性对从脑损伤中恢复和学习新技能至关重要。例如，当某人练习乐器时，他们的大脑在neuronal（神经元的）层面上发生变化，增强与该活动相关的连接。这一现象说明了大脑的动态特性及其根据经验演变的能力。结合关于neuronal（神经元的）功能的知识的教育方法可以带来更好的学习成果。例如，了解记忆在neuronal（神经元的）层面的工作原理可以帮助教育工作者设计与大脑最佳学习方式相符的课程。像间隔重复和积极参与等技术利用neuronal（神经元的）原理来增强保留和理解。总之，研究neuronal（神经元的）机制对于推进我们对大脑及其功能的理解至关重要。随着我们继续探索neuronal（神经元的）网络的复杂性，我们解锁了对神经系统疾病创新治疗的潜力，并改善教育实践。对neuronal（神经元的）研究的探索之旅才刚刚开始，其对人类健康和认知的影响是广泛而有前景的。