电子层析成像中分割和表面模型生成的自动优化方法

Jae Hoon Jung;Joseph Szule
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引用次数: 5

摘要

电子断层扫描可用于组织切片的灰度体积重建。重建的图像提供了目前最佳的三维空间分辨率,可用于确定原位细胞器和大分子的大小、形状和关系。通常通过将感兴趣的结构从体中分割出来并根据灰度值将其呈现为表面模型来检查结构。图像分割及其表面模型对灰度重建的保真度取决于不同结构的信噪比(SNR)。目前的高保真分割方法需要繁琐的手动调整。本文介绍了一种自动优化方法,减少了人工调整,提高了信噪比,提高了分割和表面模型的保真度。该方法通过在神经肌肉连接的组织切片重建中使用经过充分研究的大分子组装来验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Automatic Optimization Method for Segmentation and Surface Model Generation in Electron Tomography
Electron tomography can be used to make grayscale volume reconstructions of tissue sections. Images derived from the reconstructions provide the best 3-D spatial resolution currently available for determining the sizes, shapes, and relationships of cellular organelles and macromolecules in situ. Structures of interest are typically examined by segmenting them from the volume and rendering them as surface models according to grayscale values. The fidelity of segmentations and their surface models to the grayscale reconstruction depend on the signal-to-noise ratio (SNR) which can vary considerably between different structures. Current methods of high-fidelity segmentations require tedious manual adjustments. Here, we introduce an automatic optimization method that reduces the manual adjustments, increases the SNR, and improves the fidelity of segmentations and surface models. The method is validated using a well-studied macromolecular assembly in the reconstructions of tissue sections from neuromuscular junctions.
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