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相关概念视频

Olfaction01:25

Olfaction

44.2K
The sense of smell is achieved through the activities of the olfactory system. It starts when an airborne odorant enters the nasal cavity and reaches olfactory epithelium (OE). The OE is protected by a thin layer of mucus, which also serves the purpose of dissolving more complex compounds into simpler chemical odorants. The size of the OE and the density of sensory neurons varies among species; in humans, the OE is only about 9-10 cm2.
The olfactory receptors are embedded in the cilia of the...
44.2K
Physiology of Smell and Olfactory Pathway01:20

Physiology of Smell and Olfactory Pathway

8.1K
Humans detect odors with the help of specialized cells located in the upper part of the nasal cavity, called olfactory receptor neurons (ORNs). ORNs possess hair-like structures called cilia, which are receptive to sensations from the inhaled air. When an odorant molecule binds to a specific receptor on the cell of the cilia, it leads to a series of events that ultimately cause the ORN to send electrical signals to the olfactory bulb in the brain through the olfactory nerves.
The olfactory...
8.1K
Olfactory Receptors: Location and Structure01:03

Olfactory Receptors: Location and Structure

8.9K
The process of olfaction, also known as the sense of smell, is a sophisticated chemical response system. The specialized sensory neurons that facilitate this process, known as olfactory receptor neurons, are situated in an upper segment of the nasal cavity, known as the olfactory epithelium. Olfactory sensory neurons are bipolar, with their dendrites extending from the epithelium's apex into the mucus that lines the nasal cavity. Airborne molecules, when inhaled, traverse the olfactory...
8.9K
Motor and Sensory Areas of the Cortex01:14

Motor and Sensory Areas of the Cortex

3.0K
The cerebral cortex, the brain's outermost layer, is pivotal in processing complex cognitive tasks, emotions, and various sensory inputs and executing voluntary motor activities. This intricate structure is divided into three primary functional areas: the motor areas, sensory areas, and association areas.
Motor Areas
The motor areas located in the frontal lobe are central to controlling voluntary movements. This region is further subdivided into the primary motor cortex and the premotor...
3.0K
Association Areas of the Cortex01:21

Association Areas of the Cortex

5.1K
Association areas are regions of the cerebral cortex that do not have a specific sensory or motor function. Instead, they integrate and interpret information from various sources to enable higher cognitive processes such as memory, learning, and decision-making. Some key association areas include the following:
Prefrontal Association Area: This area is located in the frontal lobe and is involved in planning, decision-making, and moderating social behavior. It connects with primary motor areas,...
5.1K
Somatosensory, Motor, and Association Cortex01:24

Somatosensory, Motor, and Association Cortex

427
The somatosensory cortex in the parietal lobes is crucial for interpreting sensory data such as touch, temperature, and proprioception. The somatosensory cortex, situated in the parietal lobes, plays a vital role in interpreting sensory information like touch, temperature, and proprioception—awareness of body position. This specialized brain region features an organized structure wherein neurons at the top primarily process sensations originating from the lower body. In contrast, those at...
427

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相关实验视频

Updated: Jun 11, 2025

Imaging Odor-Evoked Activities in the Mouse Olfactory Bulb using Optical Reflectance and Autofluorescence Signals
08:30

Imaging Odor-Evoked Activities in the Mouse Olfactory Bulb using Optical Reflectance and Autofluorescence Signals

Published on: October 31, 2011

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在嗅觉导航过程中,皮质皮质中的空间地图.

Cindy Poo1, Gautam Agarwal2, Niccolò Bonacchi1

  • 1Champalimaud Foundation, Lisbon, Portugal.

bioRxiv : the preprint server for biology
|October 10, 2024
PubMed
概括
此摘要是机器生成的。

传统上与气味相关的皮质皮质也创建空间地图. 这种嗅觉位置地图可以帮助动物利用气味线索在环境中进行导航.

更多相关视频

A Lateralized Odor Learning Model in Neonatal Rats for Dissecting Neural Circuitry Underpinning Memory Formation
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A Lateralized Odor Learning Model in Neonatal Rats for Dissecting Neural Circuitry Underpinning Memory Formation

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Using MazeSuite and Functional Near Infrared Spectroscopy to Study Learning in Spatial Navigation
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Using MazeSuite and Functional Near Infrared Spectroscopy to Study Learning in Spatial Navigation

Published on: October 8, 2011

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相关实验视频

Last Updated: Jun 11, 2025

Imaging Odor-Evoked Activities in the Mouse Olfactory Bulb using Optical Reflectance and Autofluorescence Signals
08:30

Imaging Odor-Evoked Activities in the Mouse Olfactory Bulb using Optical Reflectance and Autofluorescence Signals

Published on: October 31, 2011

16.0K
A Lateralized Odor Learning Model in Neonatal Rats for Dissecting Neural Circuitry Underpinning Memory Formation
10:42

A Lateralized Odor Learning Model in Neonatal Rats for Dissecting Neural Circuitry Underpinning Memory Formation

Published on: August 18, 2014

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Using MazeSuite and Functional Near Infrared Spectroscopy to Study Learning in Spatial Navigation
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Using MazeSuite and Functional Near Infrared Spectroscopy to Study Learning in Spatial Navigation

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科学领域:

  • 神经科学是一个神经科学.
  • 嗅觉系统是一种嗅觉系统.
  • 空间认知 空间认知

背景情况:

  • 主要的嗅觉皮层 (piriform皮层) 传统上被理解为处理气味认同.
  • 动物的行为,如食和导航,严重依赖于嗅觉线索.

研究的目的:

  • 为了研究皮质皮质是否具有除了嗅觉识别之外的功能.
  • 探索皮质皮质在空间绘图和导航中的作用.

主要方法:

  • 在自由移动的老鼠中进行了神经合奏记录.
  • 鼠完成了一项由气味制的空间选择任务.
  • 分析的重点是皮质皮质神经元活动及其与空间位置和气味线索的关系.

主要成果:

  • 发现后部皮质神经元含有环境的强大的空间图.
  • 这些空间地图在不同的行为环境中保持稳定,不管是嗅觉输入还是奖励.
  • 皮里形神经元的空间地图准确性与它们与海马甲节律的功能合有关.
  • 形神经元的集合同时编码了气味的身份和空间位置,创建了一个"嗅觉位置地图".

结论:

  • 皮质皮质在空间认知中扮演着重要的,以前未知的角色.
  • 这个大脑区域非常适合形成气味与地点的关联.
  • 皮质皮质很可能指导嗅觉驱动的空间导航.