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相关概念视频

Vision01:24

Vision

Vision is the result of light being detected and transduced into neural signals by the retina of the eye. This information is then further analyzed and interpreted by the brain. First, light enters the front of the eye and is focused by the cornea and lens onto the retina—a thin sheet of neural tissue lining the back of the eye. Because of refraction through the convex lens of the eye, images are projected onto the retina upside-down and reversed.
Cranial Bones: Lateral View01:27

Cranial Bones: Lateral View

The lateral view of the cranium is dominated by temporal, sphenoid, and ethmoid bones.
The temporal bone forms the lower lateral side of the skull. The temporal bone is subdivided into several regions. The flattened upper portion is the squamous portion of the temporal bone. Below this area and projecting anteriorly is the zygomatic process of the temporal bone, which forms the posterior portion of the zygomatic arch. Posteriorly is the mastoid portion of the temporal bone. Projecting...
Anatomy of the Brain: Major Regions01:20

Anatomy of the Brain: Major Regions

The brain is the most complex organ in the human body. It consists of four main parts: the cerebrum, diencephalon, cerebellum, and brainstem.
The cerebrum is the largest section of the brain and divides into left and right hemispheres, separated by a deep fissure. The cerebral outer layer of grey matter — the cerebral cortex — comprises elevations called gyri and shallow groves called sulci. The inner portion of white matter includes long nerve fibers known as axons, which connect various areas...
Cerebrum: Anatomical Overview I01:26

Cerebrum: Anatomical Overview I

The main and largest component of the human brain is the cerebrum. The cerebrum consists of two main parts: the cerebral cortex, an outer layer with wrinkles or folds known as gyri and shallow grooves called sulci, and a deeper region beneath it. The cerebrum divides into two distinct hemispheres and contains five different lobes: the frontal, parietal, temporal, occipital, and insula. The central sulcus separates the frontal and parietal lobes and two functionally important gyri — the...
Cerebrum: Anatomical Overview II01:11

Cerebrum: Anatomical Overview II

Each cerebral hemisphere can be divided into three main regions. The outermost region, the cerebral cortex, is a thin layer (2 to 4 millimeters thick) made up of gray matter, consisting of neuron cell bodies, dendrites, glial cells, and blood vessels. The middle region, or white matter, is primarily composed of myelinated nerve fibers organized into three types of large tracts: association fibers, commissures, and projection fibers. Association fibers connect different areas within the same...
Cerebellum: Anatomical Regions01:17

Cerebellum: Anatomical Regions

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
Externally, the cerebellum features a highly convoluted surface with numerous folia (narrow ridges) separated by shallow sulci (grooves). The cerebellum is divided into two hemispheres by a thin median structure known as the vermis. The...

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相关实验视频

Updated: May 12, 2026

Mapping Cortical Dynamics Using Simultaneous MEG/EEG and Anatomically-constrained Minimum-norm Estimates: an Auditory Attention Example
08:45

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蝙蝠大脑中的三维头部方向编码.

Arseny Finkelstein1, Dori Derdikman2, Alon Rubin1

  • 1Department of Neurobiology, Weizmann Institute of Science, Rehovot 76100, Israel.

Nature
|December 4, 2014
PubMed
概括
此摘要是机器生成的。

哺乳动物拥有三维 (3D) 的方向感,利用头部方向细胞进行空间导航. 这项研究揭示了蝙蝠的3D头部方向机制,支持复杂的空中和陆地运动.

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科学领域:

  • 神经科学是一个神经科学.
  • 动物行为 动物行为
  • 空间导航 空间导航

背景情况:

  • 哺乳动物的导航依赖于方向感,通常归因于头部方向细胞.
  • 哺乳动物大脑中存在三维 (3D) 指南针的存在在很大程度上仍未被探索.

研究的目的:

  • 为了研究哺乳动物中3D头向细胞的存在和性质.
  • 为了确定哺乳动物的大脑是否可以在三维中表示空间定向.

主要方法:

  • 在蝙蝠的爬行和飞行行为中进行了神经记录.
  • 分析的重点是针对不同头部方向 (阿齐木斯,斜率,滚动) 的头部方向单元的调特性.

主要成果:

  • 在蝙蝠中发现了针对单个3D角度 (阿齐木斯,投球,滚球) 和它们的组合调整的头向细胞.
  • 2D到3D表示的功能-解剖学梯度被观察到在前.
  • 逆向蝙蝠的神经元调转移支持3D头部方向的圆形坐标系统 (azimuth × pitch).

结论:

  • 这项研究为哺乳动物的3D头部方向机制提供了第一个证据.
  • 这种3D指南针系统很可能在三维环境中促进复杂的空间导航.