一种表示和计算下丘纤维树突层三维解剖结构的新方法

Proceedings of the 1991 IEEE Seventeenth Annual Northeast Bioengineering Conference Pub Date : 1991-04-04 DOI:10.1109/NEBC.1991.154607

S. Ahghari, D. Oliver

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引用次数: 0

摘要

介绍了一种图形重建和数学确定下丘层状神经元三维方向的方法。用共聚焦显微镜以离散的步骤拍摄一系列图像。这些图像由一种算法处理，该算法强调IC中央核内紧密间隔的分层树突。该方法的核心在于应用梯度(方向)、中值和低通滤波器的组合来提取层状的轮廓。将位图图像转换为向量列表，选取单层中的对象进行线性回归分析。通过连接每个部分的回归线来创建代表层的表面模型。曲面的空间方向计算为曲面中每个多边形的向量叉乘。取所有法向量的平均值来表示神经层在三维空间中的方向。

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A new method to represent and compute the 3-dimensional anatomy of fibrodendritic layers in the inferior colliculus

A method of graphically reconstructing and mathematically determining the three-dimensional orientation of the layered neurons in the inferior colliculus (IC) is introduced. A series of images is taken with a confocal microscope at discrete steps. These images are processed by an algorithm that emphasizes the closely spaced, layered dendrites within the central nucleus of the IC. The core of this approach lies in applying a combination of gradient (directional), median, and low-pass filters to extract contours of the lamina. The bit-mapped images are converted to vector lists, and the objects in a single layer are selected for linear regression analysis. A surface model that represents the layer is created by connecting the regression lines from each section. The spatial orientation of the surface is calculated as the vector cross product from each polygon in the surface. The average of all the normal vectors is taken to represent the orientation of the neural layer in 3-D space.<>

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Proceedings of the 1991 IEEE Seventeenth Annual Northeast Bioengineering Conference

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