ImageMiner: a software system for comparative analysis of tissue microarrays using content-based image retrieval, high-performance computing, and grid technology

The design and implementation of ImageMiner, a software platform for performing comparative analysis of expression patterns in imaged microscopy specimens such as tissue microarrays (TMAs), is described. ImageMiner is a federated system of services that provides a reliable set of analytical and data...

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Bibliographic Details
Published in:Journal of the American Medical Informatics Association : JAMIA 2011-07, Vol.18 (4), p.403-415
Main Authors: Foran, David J, Yang, Lin, Chen, Wenjin, Hu, Jun, Goodell, Lauri A, Reiss, Michael, Wang, Fusheng, Kurc, Tahsin, Pan, Tony, Sharma, Ashish, Saltz, Joel H
Format: Article
Language:English
Subjects:
Data Mining - methods
Database Management Systems
Humans
Image Processing, Computer-Assisted
Information Dissemination
Research and Applications
Software Design
Tissue Array Analysis - instrumentation
United States
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Summary:The design and implementation of ImageMiner, a software platform for performing comparative analysis of expression patterns in imaged microscopy specimens such as tissue microarrays (TMAs), is described. ImageMiner is a federated system of services that provides a reliable set of analytical and data management capabilities for investigative research applications in pathology. It provides a library of image processing methods, including automated registration, segmentation, feature extraction, and classification, all of which have been tailored, in these studies, to support TMA analysis. The system is designed to leverage high-performance computing machines so that investigators can rapidly analyze large ensembles of imaged TMA specimens. To support deployment in collaborative, multi-institutional projects, ImageMiner features grid-enabled, service-based components so that multiple instances of ImageMiner can be accessed remotely and federated. The experimental evaluation shows that: (1) ImageMiner is able to support reliable detection and feature extraction of tumor regions within imaged tissues; (2) images and analysis results managed in ImageMiner can be searched for and retrieved on the basis of image-based features, classification information, and any correlated clinical data, including any metadata that have been generated to describe the specified tissue and TMA; and (3) the system is able to reduce computation time of analyses by exploiting computing clusters, which facilitates analysis of larger sets of tissue samples.
ISSN:1067-5027
1527-974X
DOI:10.1136/amiajnl-2011-000170