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相关概念视频

Brainstem01:19

Brainstem

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The brainstem, located inferior to the brain and superior to the spinal cord, serves as a bridge between the cerebrum and the spinal cord. It plays a vital role in relaying information and controlling critical life functions. It comprises three primary regions: the midbrain, pons, and medulla oblongata.
The Midbrain
The midbrain is located beneath the diencephalon and connects the cerebrum with the lower parts of the brain. The cerebral peduncles are prominent midbrain structures that house the...
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The Vestibular System01:29

The Vestibular System

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The vestibular system is a set of inner ear structures that provide a sense of balance and spatial orientation. This system is comprised of structures within the labyrinth of the inner ear, including the cochlea and two otolith organs—the utricle and saccule. The labyrinth also contains three semicircular canals—superior, posterior, and horizontal—that are oriented on different planes.
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Brainstem: Control Centers of Medulla01:21

Brainstem: Control Centers of Medulla

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The medulla oblongata is a crucial part of the brainstem responsible for controlling various autonomic and involuntary functions. It contains several nuclei, including the olivary, cuneate, gracile, and solitary nuclei.
Olivary Nucleus
The olivary nucleus, or inferior olivary nucleus, is located within the ventrolateral part of the medulla oblongata. It is primarily involved in motor coordination and motor learning. The olivary nucleus receives input from the spinal cord, cerebellum, and motor...
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Equilibrium and Balance01:15

Equilibrium and Balance

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The inner ear assumes dual functionalities of auditory perception and equilibrium maintenance. The vestibule is the organ responsible for balance. This organ contains mechanoreceptors, specifically hair cells, endowed with stereocilia, which aid in deciphering information regarding the position and motion of our heads. Two intrinsic components, the utricle and saccule, help perceive head position, while the semicircular canals track head movement. Neurological messages initiated in the...
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Major Somatic Sensory Pathways01:28

Major Somatic Sensory Pathways

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Sensory impulses related to touch, pressure, vibration, and proprioception from various body parts, such as the limbs, trunk, neck, and posterior head, travel to the cerebral cortex through the posterior column-medial lemniscus pathway. The pathway’s name derives from the two white-matter tracts that convey the impulses: the spinal cord's posterior column and the brainstem's medial lemniscus. First-order sensory neurons extend their axons into the spinal cord, forming the...
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Cerebellum: Anatomical Regions01:17

Cerebellum: Anatomical Regions

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The cerebellum, also known as the "little brain," is located in the posterior cranial fossa, inferior to the tentorium cerebelli and dorsal to the brainstem. It plays a significant role in motor control, coordination, and proprioception.
Cerebellar Structure
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相关实验视频

Updated: Jun 7, 2025

Assessing the Autonomic and Behavioral Effects of Passive Motion in Rats using Elevator Vertical Motion and Ferris-Wheel Rotation
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进化保存的大脑干架构使得引力引导的垂直导航成为可能.

Yunlu Zhu1, Hannah Gelnaw1, Franziska Auer1

  • 1Departments of Otolaryngology, Neuroscience & Physiology, and the Neuroscience Institute, New York University Grossman School of Medicine, New York, New York, United States of America.

PLoS biology
|November 12, 2024
PubMed
概括
此摘要是机器生成的。

幼虫斑马鱼使用重力来保持一致的航向以有效的垂直导航. 特定的神经回路将重力信号转化为持久的定向命令,这对于它们在环境中的运动至关重要.

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Stereotaxic Surgical Approach to Microinject the Caudal Brainstem and Upper Cervical Spinal Cord via the Cisterna Magna in Mice
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科学领域:

  • 神经科学是一个神经科学.
  • 感官系统 感官系统
  • 动物行为 动物行为

背景情况:

  • 引力对于空间定向和导航至关重要.
  • 将重力感应与导航指令联系起来的神经机制尚未完全理解.

研究的目的:

  • 为了确定负责斑马鱼幼虫以重力为基础的垂直导航的神经回路.
  • 了解重力信号如何转化为导航的运动指令.

主要方法:

  • 在野生型和重力盲突变幼虫斑马鱼 (Danio rerio) 中观察到垂直导航行为.
  • 利用有针对性的光移除来消除特定的神经元群体,包括上升的前庭和脊柱发射中脑神经元.
  • 评估了神经元剥离对垂直导航和方向一致性的影响.

主要成果:

  • 幼虫斑马鱼通过在上升和下降运动中保持一致的方向来垂直导航.
  • 重力盲突变体表现出受损的垂直导航与增加的方向变化和转向.
  • 上升的前体和脊柱发射中脑神经元的切除,但不是前体脊柱神经元,破坏了垂直导航.

结论:

  • 一个特定的传感运动电路,利用保存的大脑干架构,将引力输入转化为垂直导航的持续方向.
  • 这项研究阐明了前置神经元在将重力转化为导航行为的作用.
  • 这些发现为了解前置系统如何实现有效的环境导航提供了基础.