neurobiology

简明释义

英[ˌnjʊərəʊˌbaɪˈɒlədʒi]美[ˌnʊroʊˌbaɪˈɑːlədʒi]

n. 神经生物学

英英释义

单词用法

同义词

反义词

例句

1.The links below are online references for additional resources in the field of genetic neurobiology.

以下的连结是关于遗传神经生物学的补充网上资源。

2.Description: This is the web page of Neurobiology of Learning and Memory.

网站描述：这是《学习和记忆的神经生物学》的网页。

3.He has done graduate work in neurobiology at the University of Pennsylvania and was previously senior science writer at Red Herring magazine.

迈德在美国宾州大学完成神经生物学的研究所课程，曾经担任创投杂志《红鲱鱼》的资深科学作家。

4.International studies for animal social recognition behavior have made it a start elucidating animal learn and memory neurobiology mechanisms.

在国际上，对动物社会识别行为的研究已成为揭示动物学习和记忆的神经生物学机制的一个起点。

5.This is the web page of Neurobiology of Aging.

这是《衰老神经生物学》的网站。

6.In the fast-changing world of genetics, genetic neurobiology is at the forefront.

在快速变化的遗传世界里，遗传神经生物学处于最前沿的位置。

7.Research in neurobiology, cited by Jerome Goldstein in Lisbon last month, has served to reinforce this view.

杰罗姆·戈德斯坦上个月在里斯本举出的神经生物学的研究例子，恰好支持了这个观点。

8.Neuroscience: Introduction to Neuroscience, Mind, Brain, and Consciousness, Neurobiology of Behavior, Psychopharmacology: Drug Action in the Brain.

神经科学：介绍神经科学，心理，大脑，行为神经生物学，精神药理学：药物对于大脑的影响。

9.Courses in neurobiology often include lab work to study brain functions.

在神经生物学课程中，通常包括实验室工作以研究大脑功能。

10.Researchers in neurobiology are investigating how brain plasticity affects learning.

在神经生物学领域的研究者正在调查大脑可塑性如何影响学习。

11.Advancements in neurobiology have led to better treatments for neurological disorders.

在神经生物学方面的进展使得神经系统疾病的治疗更加有效。

12.The field of neurobiology studies the complex interactions between neurons and their networks.

领域的神经生物学研究神经元及其网络之间的复杂相互作用。

13.Understanding neurobiology is crucial for developing effective mental health therapies.

理解神经生物学对于开发有效的心理健康疗法至关重要。

作文

Neurobiology is a fascinating field that combines elements of biology, psychology, and neuroscience. It focuses on the study of the nervous system, including the brain, spinal cord, and peripheral nerves. Understanding neurobiology (神经生物学) is essential for unraveling the complexities of how our brains function and how they influence our behavior and emotions. As we delve deeper into this subject, we uncover the intricate connections between neurons, the basic building blocks of the nervous system, and how they communicate through synapses. One of the most exciting aspects of neurobiology (神经生物学) is its application in understanding various neurological disorders. Conditions such as Alzheimer’s disease, Parkinson’s disease, and multiple sclerosis are all linked to dysfunctions in the nervous system. By studying neurobiology (神经生物学), researchers can identify the underlying mechanisms of these diseases, leading to potential treatments and therapies. For example, advancements in neurobiology (神经生物学) have revealed the role of amyloid plaques in Alzheimer’s disease, paving the way for drugs that target these harmful proteins. Moreover, neurobiology (神经生物学) also plays a crucial role in understanding mental health conditions such as depression, anxiety, and schizophrenia. The brain's chemical balance, involving neurotransmitters like serotonin and dopamine, is vital for maintaining mental well-being. By exploring the principles of neurobiology (神经生物学), scientists can develop better therapeutic strategies, such as selective serotonin reuptake inhibitors (SSRIs), which are used to treat depression. In addition to its medical implications, neurobiology (神经生物学) also intersects with the fields of education and cognitive science. Understanding how the brain learns and processes information can significantly enhance teaching methods and learning experiences. Research in neurobiology (神经生物学) has shown that different parts of the brain are activated during various types of learning, whether it be visual, auditory, or kinesthetic. This knowledge allows educators to tailor their approaches to meet the diverse needs of students. Furthermore, the study of neurobiology (神经生物学) extends to the exploration of consciousness and self-awareness. Questions about what makes us who we are, how we perceive reality, and the nature of free will are all deeply rooted in neurobiology (神经生物学). Understanding the neural correlates of consciousness may one day lead to breakthroughs in artificial intelligence and robotics, as we strive to create machines that can think and feel like humans. In conclusion, neurobiology (神经生物学) is a multidisciplinary field that offers invaluable insights into the workings of the nervous system and its impact on our lives. From addressing neurological disorders to enhancing educational practices and exploring the mysteries of consciousness, neurobiology (神经生物学) is at the forefront of scientific research. As we continue to unlock the secrets of the brain, the potential for improving human health and understanding our own existence is boundless.

神经生物学是一个迷人的领域，它结合了生物学、心理学和神经科学的元素。它专注于对神经系统的研究，包括大脑、脊髓和周围神经。理解neurobiology（神经生物学）对于揭开我们大脑如何运作以及它们如何影响我们的行为和情感的复杂性至关重要。当我们深入研究这个主题时，我们发现神经元之间的复杂连接，神经元是神经系统的基本构件，以及它们如何通过突触进行交流。neurobiology（神经生物学）最令人兴奋的方面之一是它在理解各种神经系统疾病中的应用。像阿尔茨海默病、帕金森病和多发性硬化症等疾病都与神经系统的功能障碍有关。通过研究neurobiology（神经生物学），研究人员可以识别这些疾病的潜在机制，从而导致可能的治疗方法和疗法。例如，neurobiology（神经生物学）的进展揭示了淀粉样斑块在阿尔茨海默病中的作用，为针对这些有害蛋白质的药物铺平了道路。此外，neurobiology（神经生物学）在理解抑郁症、焦虑症和精神分裂症等心理健康状况中也起着至关重要的作用。大脑的化学平衡，包括神经递质如血清素和多巴胺，对于维持心理健康至关重要。通过探索neurobiology（神经生物学）的原理，科学家可以开发出更好的治疗策略，例如选择性血清素再摄取抑制剂（SSRIs），用于治疗抑郁症。除了医学意义外，neurobiology（神经生物学）还与教育和认知科学领域交叉。理解大脑如何学习和处理信息可以显著增强教学方法和学习体验。neurobiology（神经生物学）的研究表明，在不同类型的学习过程中，大脑的不同部分会被激活，无论是视觉、听觉还是动觉。这一知识使教育工作者能够根据学生的不同需求量身定制他们的方法。此外，neurobiology（神经生物学）的研究还扩展到对意识和自我意识的探索。关于是什么使我们成为我们自己、我们如何感知现实以及自由意志的本质等问题都深深植根于neurobiology（神经生物学）之中。理解意识的神经相关性可能会导致人工智能和机器人技术的突破，因为我们努力创造能够像人类一样思考和感受的机器。总之，neurobiology（神经生物学）是一个跨学科的领域，提供了对神经系统的运作及其对我们生活影响的宝贵见解。从解决神经系统疾病到增强教育实践，再到探索意识的奥秘，neurobiology（神经生物学）处于科学研究的前沿。随着我们继续揭开大脑的秘密，改善人类健康和理解我们自身存在的潜力是无穷无尽的。