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相关概念视频

Physiology of Smell and Olfactory Pathway01:20

Physiology of Smell and Olfactory Pathway

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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.
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Olfaction01:25

Olfaction

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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...
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Tactile and Chemical Senses01:27

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Tactile senses encompass touch, temperature, and pain, each mediated by specific receptors. Touch receptors detect mechanical energy or pressure against the skin. Sensory fibers from these receptors enter the spinal cord and relay information to the brain stem. Here, most fibers cross over to the opposite side of the brain. The touch information then moves to the thalamus, which projects a map of the body's surface onto the somatosensory areas of the parietal lobes in the cerebral cortex.
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Synesthesia01:27

Synesthesia

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Synesthesia is a remarkable condition where stimulation of one sensory or cognitive pathway leads to automatic, involuntary experiences in a second sensory or cognitive pathway. People with synesthesia experience a blending or crossing of their senses, such as sight and sound, leading to cross-modal sensations. In this condition, the stimulation of one sense, such as hearing a number or musical note, triggers an experience of another sense, like sensing a specific color, taste, or smell. People...
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Olfactory Receptors: Location and Structure01:03

Olfactory Receptors: Location and Structure

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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...
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Introduction to Special Senses01:26

Introduction to Special Senses

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Sensory receptors play an integral part in comprehending our external and internal environments. They receive diverse stimuli, converting them into the nervous system's electrochemical signals. This conversion occurs as the stimulus alters the sensory neuron's cell membrane potential, instigating the generation of an action potential. This action potential is subsequently transmitted to the central nervous system (CNS), which integrates with other sensory data or higher cognitive...
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Constructing an Olfactometer for Rodent Olfactory Behavior Studies Near-Infrared Spectroscopy Hyperscanning Study in Psychological Counseling
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物理化学特征部分解释了嗅觉交叉模式对应.

Ryan J Ward1,2, Sophie M Wuerger3, Maliha Ashraf3

  • 1School of Computer Science and Mathematics, Liverpool John Moores University, Liverpool, L3 3AF, UK. ryan.ward@liverpool.ac.uk.

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概括

气味的物理化学特征部分解释了嗅觉交叉模式对应. 这项研究将气味特性与形状和颜色等感知联系起来,揭示了一个小但重要的联系.

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科学领域:

  • 神经科学是一个神经科学.
  • 感官科学 感官科学
  • 化学感应是一种化学感应.

背景情况:

  • 嗅觉受体识别特定的化学特征,影响交叉感知.
  • 气味的物理化学特征可以使用电子鼻子 (气体传感器阵列) 来分析.
  • 嗅觉的交叉模式对应往往被忽视,与气味属性有关.

研究的目的:

  • 研究物理化学气味特征在解释嗅觉交叉模式对应的作用.
  • 量化这些特征对跨模式感知的贡献.

主要方法:

  • 利用电子鼻子从嗅觉刺激中提取物理化学特征.
  • 分析了气味特征与各种跨模式感知 (形状,纹理,愉悦性,音调,颜色) 之间的相关性.

主要成果:

  • 在气味的感知空间和物理化学空间之间发现了49%的相似性.
  • 确定了所有探索的交叉模式对应的显著物理化学预测因素.
  • 量化了气味特征和跨模式对应之间的小但显著的联系 (6-23%).

结论:

  • 气味的物理化学特征在一定程度上有助于嗅觉交叉模式对应.
  • 这表明,气味化学与跨模式感知之间的联系有一个可衡量的,尽管很小的基础.