MicroCT versus sTSLIM 3D Imaging of the mouse cochlea

Jan A.N. Buytaert; Shane B. Johnson; Manuel Dierick; Wasil H.M. Salih; Peter A. Santi

doi:10.1369/0022155413478613

MicroCT versus sTSLIM 3D Imaging of the mouse cochlea

Jan A.N. Buytaert, Shane B. Johnson, Manuel Dierick, Wasil H.M. Salih, Peter A. Santi

Otolaryngology

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

We made a qualitative and quantitative comparison between a state-of-the-art implementation of micro-Computed Tomography (microCT) and the scanning Thin-Sheet Laser Imaging Microscopy (sTSLIM) method, applied to mouse cochleae. Both imaging methods are non-destructive and perform optical sectioning, respectively, with X-rays and laser light. MicroCT can be used on fresh or fixed tissue samples and is primarily designed to image bone rather than soft tissues. It requires complex backprojection algorithms to produce a two-dimensional image, and it is an expensive instrument. sTSLIM requires that a specimen be chemically fixed, decalcified, and cleared; but it produces high-resolution images of soft and bony tissues with minimum image postprocessing and is less expensive than microCT. In this article, we discuss the merits and disadvantages of each method individually and when combined.

Original language	English (US)
Pages (from-to)	382-395
Number of pages	14
Journal	Journal of Histochemistry and Cytochemistry
Volume	61
Issue number	5
DOIs	https://doi.org/10.1369/0022155413478613
State	Published - 2013

Keywords

Light-sheet fluorescence microscopy
Micro-computed tomography
Mouse cochlea
Orthogonal-plane fluorescence optical sectioning microscopy
Scanning thin-sheet laser imaging microscopy

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abstract = "We made a qualitative and quantitative comparison between a state-of-the-art implementation of micro-Computed Tomography (microCT) and the scanning Thin-Sheet Laser Imaging Microscopy (sTSLIM) method, applied to mouse cochleae. Both imaging methods are non-destructive and perform optical sectioning, respectively, with X-rays and laser light. MicroCT can be used on fresh or fixed tissue samples and is primarily designed to image bone rather than soft tissues. It requires complex backprojection algorithms to produce a two-dimensional image, and it is an expensive instrument. sTSLIM requires that a specimen be chemically fixed, decalcified, and cleared; but it produces high-resolution images of soft and bony tissues with minimum image postprocessing and is less expensive than microCT. In this article, we discuss the merits and disadvantages of each method individually and when combined.",

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MicroCT versus sTSLIM 3D Imaging of the mouse cochlea

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Keywords

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