A NOVEL SURFACE-BASED GEOMETRIC APPROACH FOR 3D DENDRITIC SPINE DETECTION FROM MULTI-PHOTON EXCITATION MICROSCOPY IMAGES

机译：一种新的基于表面的几何方法，用于多光子激发显微镜图像的三维树突脊柱检测

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Determining the relationship between the dendritic spine morphology and its functional properties is a fundamental while challenging problem in neurobiology research. In particular, how to accurately and automatically analyze meaningful structural information from a large microscopy image dataset is far away from being resolved. In this paper, we propose a novel method for the automated neuron reconstruction and spine detection from fluorescence microscopy images. After image processing, backbone of the neuron is obtained and the neuron is represented as a 3D surface. Based on the analysis of geometric features on the surface, spines are detected by a novel hybrid of two segmentation methods. Besides the automated detection of spines, our algorithm is able to extract accurate 3D structures of spines. Comparison results between our approach and the state of the art shows that our algorithm is more accurate and robust, especially for detecting and separating touching spines.

机译：确定树突状脊柱形态与其功能特征之间的关系是神经生物学研究中挑战性问题的基本。特别是，如何从大型显微镜图像数据集准确和自动分析有意义的结构信息远离被解析。本文提出了一种新的荧光显微镜图像自动神经元重建和脊柱检测的新方法。在图像处理之后，获得神经元的骨架，并且神经元表示为3D表面。基于对表面上几何特征的分析，通过两种分段方法的新型混合来检测脊髓。除了自动检测刺，我们的算法能够提取精确的刺的3D结构。我们的方法与现有技术之间的比较结果表明，我们的算法更准确且稳健，特别是用于检测和分离触摸脊柱。

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《IEEE International Symposium on Biomedical Imaging》|2009年||共4页
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Qing Li; Xiaobo Zhou; Zhigang Deng; Matthew Baron; Merilee A. Teylan; Yong Kim; Stephen T. C. Wong;
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中图分类 TP391.41-53;
关键词
Spine detection; Geometric measurement estimation; Watershed; Microscopy images;

机译：脊柱检测;几何测量估计;流域;显微镜图像;

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专利

1. A Surface-Based 3-D Dendritic Spine Detection Approach From Confocal Microscopy Images [J] . Li Q., Deng Z. Image Processing, IEEE Transactions on . 2012,第3期

机译：共聚焦显微镜图像的基于表面的3-D树突状脊柱检测方法。
2. Robust 3D reconstruction and identification of dendritic spines from optical microscopy imaging. [J] . Janoos F, Mosaliganti K, Xu X Medical image analysis . 2009,第1期

机译：稳健的3D重建和从光学显微镜成像鉴定树突棘。
3. An Automated Pipeline for Dendrite Spine Detection and Tracking of 3D Optical Microscopy Neuron Images of In Vivo Mouse Models [J] . Jing Fan, Xiaobo Zhou, Jennifer G. Dy, Neuroinformatics . 2009,第2期

机译：用于树突状体脊柱检测和体内小鼠模型的3D光学显微镜神经元图像跟踪的自动化管道。
4. A NOVEL SURFACE-BASED GEOMETRIC APPROACH FOR 3D DENDRITIC SPINE DETECTION FROM MULTI-PHOTON EXCITATION MICROSCOPY IMAGES [C] . Qing Li, Xiaobo Zhou, Zhigang Deng, IEEE International Symposium on Biomedical Imaging . 2009

机译：一种新的基于表面的几何方法，用于多光子激发显微镜图像的三维树突脊柱检测
5. Automated detection and time lapse analysis of dendritic spines in laser scanning microscopy images. [D] . Cheng, Jie. 2009

机译：在激光扫描显微镜图像中自动检测和分析树突棘。
6. A NOVEL SURFACE-BASED GEOMETRIC APPROACH FOR 3D DENDRITIC SPINE DETECTION FROM MULTI-PHOTON EXCITATION MICROSCOPY IMAGES [O] . Qing Li, Xiaobo Zhou, Zhigang Deng, -1

机译：FOR 3D树突棘检测一种新的基于表面的几何方法通过多光子激发显微镜图像
7. A NOVEL SURFACE-BASED GEOMETRIC APPROACH FOR 3D DENDRITIC SPINE DETECTION FROM MULTI-PHOTON EXCITATION MICROSCOPY IMAGES [O] . Qing Li, Xiaobo Zhou, Zhigang Deng, 2010

机译：基于新表面的多光子激发显微图像3D枝晶脊柱几何检测方法

A NOVEL SURFACE-BASED GEOMETRIC APPROACH FOR 3D DENDRITIC SPINE DETECTION FROM MULTI-PHOTON EXCITATION MICROSCOPY IMAGES

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