Automatic segmentation and skeletonization of neurons from confocal microscopy images based on the 3-D wavelet transform

Author

Dima, Anca ; Scholz, Michael ; Obermayer, Klaus

Author_Institution

Technische Univ. Berlin, Germany

Volume

11

Issue

7

fYear

2002

fDate

7/1/2002 12:00:00 AM

Firstpage

790

Lastpage

801

Abstract

We focus on methods for the preprocessing of neurons from three-dimensional (3-D) confocal microscopy images, which are needed for a subsequent detailed morphologic analysis. Due to the specific image properties of confocal microscopy scans, we had to include several heuristic approaches which are based on multiscale edges to guarantee meaningful results: (1) a reliable segmentation of objects of different sizes independent of image contrast, and, based on it, (2) the computation of skeleton points along the branch central axes, and (3) the reliable detection of branching points and of problematic regions. These are preprocessing steps to gather information which is needed by the subsequent construction of a graph representing the geometry of the neuron and a final surface reconstruction.

Keywords

edge detection; image reconstruction; image segmentation; laser applications in medicine; medical image processing; neurophysiology; optical microscopy; wavelet transforms; 3D wavelet transform; automatic segmentation; automatic skeletonization; branching points detection; confocal microscopy images; graph; heuristic approaches; image contrast; image properties; medical diagnosis; morphologic analysis; multiscale edges; neuron geometry; neurons preprocessing; object segmentation; scanning laser technique; surface reconstruction; Image analysis; Image edge detection; Image segmentation; Information geometry; Microscopy; Neurons; Object detection; Skeleton; Surface morphology; Wavelet transforms;

fLanguage

English

Journal_Title

Image Processing, IEEE Transactions on

Publisher

ieee

ISSN

1057-7149

Type

jour

DOI

10.1109/TIP.2002.800888

Filename

1021085