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Molecular Imaging and Biology
Published in: Molecular Imaging and Biology 6/2019

Open Access 01-12-2019 | Research Article

Data Curation for Preclinical and Clinical Multimodal Imaging Studies

Authors: Grace Gyamfuah Yamoah, Liji Cao, Chao Wu Wu, Freek J. Beekman, Bert Vandeghinste, Julia G. Mannheim, Stefanie Rosenhain, Kevin Leonardic, Fabian Kiessling, Felix Gremse

Published in: Molecular Imaging and Biology | Issue 6/2019

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Abstract

Purpose

In biomedical research, imaging modalities help discover pathological mechanisms to develop and evaluate novel diagnostic and theranostic approaches. However, while standards for data storage in the clinical medical imaging field exist, data curation standards for biomedical research are yet to be established. This work aimed at developing a free secure file format for multimodal imaging studies, supporting common in vivo imaging modalities up to five dimensions as a step towards establishing data curation standards for biomedical research.

Procedures

Images are compressed using lossless compression algorithm. Cryptographic hashes are computed on the compressed image slices. The hashes and compressions are computed in parallel, speeding up computations depending on the number of available cores. Then, the hashed images with digitally signed timestamps are cryptographically written to file. Fields in the structure, compressed slices, hashes, and timestamps are serialized for writing and reading from files. The C++ implementation is tested on multimodal data from six imaging sites, well-documented, and integrated into a preclinical image analysis software.

Results

The format has been tested with several imaging modalities including fluorescence molecular tomography/x-ray computed tomography (CT), positron emission tomography (PET)/CT, single-photon emission computed tomography/CT, and PET/magnetic resonance imaging. To assess performance, we measured the compression rate, ratio, and time spent in compression. Additionally, the time and rate of writing and reading on a network drive were measured. Our findings demonstrate that we achieve close to 50 % reduction in storage space for μCT data. The parallelization speeds up the hash computations by a factor of 4. We achieve a compression rate of 137 MB/s for file of size 354 MB.

Conclusions

The development of this file format is a step to abstract and curate common processes involved in preclinical and clinical multimodal imaging studies in a standardized way. This work also defines better interface between multimodal imaging modalities and analysis software.
Appendix
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Metadata
Title
Data Curation for Preclinical and Clinical Multimodal Imaging Studies
Authors
Grace Gyamfuah Yamoah
Liji Cao
Chao Wu Wu
Freek J. Beekman
Bert Vandeghinste
Julia G. Mannheim
Stefanie Rosenhain
Kevin Leonardic
Fabian Kiessling
Felix Gremse
Publication date
01-12-2019
Publisher
Springer International Publishing
Published in
Molecular Imaging and Biology / Issue 6/2019
Print ISSN: 1536-1632
Electronic ISSN: 1860-2002
DOI
https://doi.org/10.1007/s11307-019-01339-0

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