用电压敏感染料光学成像研究晶须频率选择性的皮层表征。

IntraVital Pub Date : 2016-02-18 eCollection Date: 2016-01-01 DOI:10.1080/21659087.2016.1142637
Vassiliy Tsytsarev, Elena Pumbo, Qinggong Tang, Chao-Wei Chen, Vyacheslav Kalchenko, Yu Chen
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引用次数: 6

摘要

啮齿类动物的面部胡须就像一种高分辨率的触觉装置,使动物能够探测到环境中最细微的细节。在此基础上,利用电压敏感染料光学成像(VSDi)方法,结合不同频率的触须刺激,观察了小鼠体感觉皮层中单个触须受到不同频率刺激时的神经活动。采用动态电压敏感染料光学成像(VSDi)方法,结合不同频率的触须刺激,观察了不同频率的触须刺激对小鼠体感觉皮层神经活动的影响。研究发现,不同频率的晶须刺激会导致不同的光信号。我们的结果提供了证据,不同的神经元桶皮层有不同的频率偏好。这支持了先前的研究,即根据刺激的频率,须须偏转会引起桶状场内皮层神经元的反应。许多关于晶须频率选择性的研究都是使用单元记录进行的,但要映射空间组织,成像方法是必不可少的。在本文中描述的工作中,我们采取了使用VSDi对躯体感觉皮层进行详细功能映射的严肃步骤。据我们所知,这是第一次用光学成像方法证明桶状皮层神经元的晶须频率敏感性和选择性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Study of the cortical representation of whisker frequency selectivity using voltage-sensitive dye optical imaging.

Study of the cortical representation of whisker frequency selectivity using voltage-sensitive dye optical imaging.

Study of the cortical representation of whisker frequency selectivity using voltage-sensitive dye optical imaging.

Study of the cortical representation of whisker frequency selectivity using voltage-sensitive dye optical imaging.

The facial whiskers of rodents act as a high-resolution tactile apparatus that allow the animal to detect the finest details of its environment. Previously it was shown that whisker-sensitive neurons in the somatosensory cortex show frequency selectivity to small amplitude stimuli, An intravital voltage-sensitive dye optical imaging (VSDi) method in combination with the different frequency whisker stimulation was used in order to visualize neural activity in the mice somatosensory cortex in response to the stimulation of a single whisker by different frequencies. Using the intravital voltage-sensitive dye optical imaging (VSDi) method in combination with the different frequency whisker stimulation we visualized neural activity in the mice somatosensory cortex in response to the stimulation of a single whisker by different frequencies. We found that whisker stimuli with different frequencies led to different optical signals in the barrel field. Our results provide evidence that different neurons of the barrel cortex have different frequency preferences. This supports prior research that whisker deflections cause responses in cortical neurons within the barrel field according to the frequency of the stimulation. Many studies of the whisker frequency selectivity were performed using unit recording but to map spatial organization, imaging methods are essential. In the work described in the present paper, we take a serious step toward detailed functional mapping of the somatosensory cortex using VSDi. To our knowledge, this is the first demonstration of whisker frequency sensitivity and selectivity of barrel cortex neurons with optical imaging methods.

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