Efficient storage of microCT data preserving bone morphometry assessment

Joan Bartrina-Rapesta; Francesc Aulí-Llinàs; Ian Blanes; Michael W. Marcellin; Victor Sanchez; Joan Serra-Sagristà

doi:10.1016/j.compeleceng.2015.06.020

Efficient storage of microCT data preserving bone morphometry assessment

Joan Bartrina-Rapesta, Francesc Aulí-Llinàs, Ian Blanes, Michael W. Marcellin, Victor Sanchez, Joan Serra-Sagristà

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

Abstract

Preclinical micro-computed tomography (microCT) images are of utility for 3D morphological bone evaluation, which is of great interest in cancer detection and treatment development. This work introduces a compression strategy for microCTs that allocates specific substances in different Volumes of Interest (VoIs). The allocation procedure is conducted by the Hounsfield scale. The VoIs are coded independently and then grouped in a single DICOM-compliant file. The proposed method permits the use of different codecs, identifies and transmit data corresponding to a particular substance in the compressed domain without decoding the volume(s), and allows the computation of the 3D morphometry without needing to store or transmit the whole image. The proposed approach reduces the transmitted data in more than 90% when the 3D morphometry evaluation is performed in high density and low density bone. This work can be easily extended to other imaging modalities and applications that work with the Hounsfield scale.

Original language	English (US)
Pages (from-to)	292-300
Number of pages	9
Journal	Computers and Electrical Engineering
Volume	53
DOIs	https://doi.org/10.1016/j.compeleceng.2015.06.020
State	Published - Jul 1 2016

Keywords

3D morphometry
DICOM
Medical image compression
Micro-CT
Tomography

ASJC Scopus subject areas

Control and Systems Engineering
General Computer Science
Electrical and Electronic Engineering

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10.1016/j.compeleceng.2015.06.020

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title = "Efficient storage of microCT data preserving bone morphometry assessment",

abstract = "Preclinical micro-computed tomography (microCT) images are of utility for 3D morphological bone evaluation, which is of great interest in cancer detection and treatment development. This work introduces a compression strategy for microCTs that allocates specific substances in different Volumes of Interest (VoIs). The allocation procedure is conducted by the Hounsfield scale. The VoIs are coded independently and then grouped in a single DICOM-compliant file. The proposed method permits the use of different codecs, identifies and transmit data corresponding to a particular substance in the compressed domain without decoding the volume(s), and allows the computation of the 3D morphometry without needing to store or transmit the whole image. The proposed approach reduces the transmitted data in more than 90% when the 3D morphometry evaluation is performed in high density and low density bone. This work can be easily extended to other imaging modalities and applications that work with the Hounsfield scale.",

keywords = "3D morphometry, DICOM, Medical image compression, Micro-CT, Tomography",

author = "Joan Bartrina-Rapesta and Francesc Aul{\'i}-Llin{\`a}s and Ian Blanes and Marcellin, {Michael W.} and Victor Sanchez and Joan Serra-Sagrist{\`a}",

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AU - Bartrina-Rapesta, Joan

AU - Aulí-Llinàs, Francesc

AU - Blanes, Ian

AU - Marcellin, Michael W.

AU - Sanchez, Victor

AU - Serra-Sagristà, Joan

PY - 2016/7/1

Y1 - 2016/7/1

N2 - Preclinical micro-computed tomography (microCT) images are of utility for 3D morphological bone evaluation, which is of great interest in cancer detection and treatment development. This work introduces a compression strategy for microCTs that allocates specific substances in different Volumes of Interest (VoIs). The allocation procedure is conducted by the Hounsfield scale. The VoIs are coded independently and then grouped in a single DICOM-compliant file. The proposed method permits the use of different codecs, identifies and transmit data corresponding to a particular substance in the compressed domain without decoding the volume(s), and allows the computation of the 3D morphometry without needing to store or transmit the whole image. The proposed approach reduces the transmitted data in more than 90% when the 3D morphometry evaluation is performed in high density and low density bone. This work can be easily extended to other imaging modalities and applications that work with the Hounsfield scale.

AB - Preclinical micro-computed tomography (microCT) images are of utility for 3D morphological bone evaluation, which is of great interest in cancer detection and treatment development. This work introduces a compression strategy for microCTs that allocates specific substances in different Volumes of Interest (VoIs). The allocation procedure is conducted by the Hounsfield scale. The VoIs are coded independently and then grouped in a single DICOM-compliant file. The proposed method permits the use of different codecs, identifies and transmit data corresponding to a particular substance in the compressed domain without decoding the volume(s), and allows the computation of the 3D morphometry without needing to store or transmit the whole image. The proposed approach reduces the transmitted data in more than 90% when the 3D morphometry evaluation is performed in high density and low density bone. This work can be easily extended to other imaging modalities and applications that work with the Hounsfield scale.

KW - 3D morphometry

KW - DICOM

KW - Medical image compression

KW - Micro-CT

KW - Tomography

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JO - Computers and Electrical Engineering

JF - Computers and Electrical Engineering

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Efficient storage of microCT data preserving bone morphometry assessment

Abstract

Keywords

ASJC Scopus subject areas

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