Robust 3D reconstruction and identification of dendritic spines from optical microscopy imaging.

Janoos F; Mosaliganti K; Xu X

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Robust 3D reconstruction and identification of dendritic spines from optical microscopy imaging.

机译：稳健的3D重建和从光学显微镜成像鉴定树突棘。

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In neurobiology, the 3D reconstruction of neurons followed by the identification of dendritic spines is essential for studying neuronal morphology, function and biophysical properties. Most existing methods suffer from problems of low reliability, poor accuracy and require much user interaction. In this paper, we present a method to reconstruct dendrites using a surface representation of the neuron. The skeleton of the dendrite is extracted by a procedure based on the medial geodesic function that is robust and topology preserving, and it is used to accurately identify spines. The sensitivity of the algorithm on the various parameters is explored in detail and the method is shown to be robust.

机译：在神经生物学中，对神经元进行3D重建，然后识别树突棘，对于研究神经元的形态，功能和生物物理特性至关重要。大多数现有方法存在可靠性低，准确性差的问题，并且需要大量用户交互。在本文中，我们提出了一种使用神经元表面表示重建树突的方法。树突的骨架是通过基于内侧测地函数的过程提取的，该内侧测地函数具有鲁棒性并保留拓扑结构，并且可用于准确识别刺。详细探讨了该算法对各种参数的敏感性，并证明了该方法的鲁棒性。

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《Medical image analysis》 |2009年第1期|共13页
作者
Janoos F; Mosaliganti K; Xu X;
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正文语种 eng
中图分类诊断学;
关键词
Algorithms; Animals; Artificial Intelligence; Cells; Cultured; Dendritic Spines; Image Enhancement; Image Interpretation; Computer-Assisted; Imaging; Three-Dimensional; Microscopy; Fluorescence; Multiphoton; Pattern Recognition; Automated; Rats; Reproducibility of Results; Sensitivity and Specificity;

机译：算法;动物;人工智能;细胞;培养;树突状棘;图像增强;图像解释;计算机辅助;成像;三维;显微镜;荧光;多光子;模式识别;自动化;等级;结果可再现性;灵敏度和特异性;

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1. 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。
2. Evaluation of semi-automatic 3D reconstruction for studying geometry of dendritic spines [J] . Abdel-Rahman Al-Absi, Heidi S?gaard Christensen, Connie Sanchez, Journal of chemical neuroanatomy . 2018,第期

机译：树木刺脊柱几何学半自动三维重建评价
3. Corrigendum: FIB/SEM technology and high-throughput 3D reconstruction of dendritic spines and synapses in GFP-labeled adult-generated neurons [J] . Carles Bosch, Albert Martínez, Nuria Masachs, Frontiers in Neuroanatomy . 2016,第4期

机译：更正：FIB / SEM技术和高通量3D重建GFP标记的成年神经元的树突棘和突触
4. A Shape Analysis Method to Detect Dendritic Spine in 3D Optical Microscopy Image [C] . Xiaoyin Xu, Jie Cheng, Witt, . 2006

机译：一种在3D光学显微镜图像中检测树突棘的形状分析方法
5. Development of optical systems and imaging analyses for hyperspectral microscopy and 3D super-resolution imaging. [D] . Liu, Sheng. 2014

机译：用于高光谱显微镜和3D超分辨率成像的光学系统和成像分析的开发。
6. Robust 3D Reconstruction and Identification of Dendritic Spines from Optical Microscopy Imaging [O] . Firdaus Janoos, Kishore Mosaliganti, Xiaoyin Xu, -1

机译：稳健的3D重建和树突棘的光学显微镜成像鉴定
7. Robust 3D reconstruction and identification of dendritic spines from optical microscopy imaging [O] . Firdaus Janoos, Kishore Mosaliganti, Xiaoyin Xu, 2009

机译：光学显微镜成像的鲁棒3D重建与树突刺的鉴定

Robust 3D reconstruction and identification of dendritic spines from optical microscopy imaging.

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