A data management infrastructure for the integration of imaging and omics data in life sciences

Cuellar, Luis Kuhn; Friedrich, Andreas; Gabernet, Gisela; Garza, Luis de la; Fillinger, Sven; Seyboldt, Adrian; Koch, Tobias; Oven-Krockhaus, Sven zur; Wanke, Friederike; Richter, Sandra; Thaiss, Wolfgang M.; Horger, Marius; Malek, Nisar P.; Harter, Klaus; Bitzer, Michael; Nahnsen, Sven

doi:10.1186/s12859-022-04584-3

Cited by 21 publications

(15 citation statements)

References 31 publications

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“…The inefficient processes affect all aspects of research and make it hard to collaborate [41]. It also limits the development of machine learning applications, as such methods depend on repositories of large amounts of data properly annotated and easily accessible [42], which is still very challenging to maintain.…”

Section: Discussionmentioning

confidence: 99%

Web-Based Application for Biomedical Image Registry, Analysis, and Translation (BiRAT)

et al. 2022

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Imaging has become an invaluable tool in preclinical research for its capability to non-invasively detect and monitor disease and assess treatment response. With the increased use of preclinical imaging, large volumes of image data are being generated requiring critical data management tools. Due to proprietary issues and continuous technology development, preclinical images, unlike DICOM-based images, are often stored in an unstructured data file in company-specific proprietary formats. This limits the available DICOM-based image management database to be effectively used for preclinical applications. A centralized image registry and management tool is essential for advances in preclinical imaging research. Specifically, such tools may have a high impact in generating large image datasets for the evolving artificial intelligence applications and performing retrospective analyses of previously acquired images. In this study, a web-based server application is developed to address some of these issues. The application is designed to reflect the actual experimentation workflow maintaining detailed records of both individual images and experimental data relevant to specific studies and/or projects. The application also includes a web-based 3D/4D image viewer to easily and quickly view and evaluate images. This paper briefly describes the initial implementation of the web-based application.

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Section: Discussionmentioning

confidence: 99%

Web-Based Application for Biomedical Image Registry, Analysis, and Translation (BiRAT)

et al. 2022

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“…As the scale of high throughput data in life sciences increases, information systems capable of managing heterogeneous data that support FAIR principles of scientific data management ( Wilkinson et al , 2016 ) are in high demand. Relational databases provide an ideal framework for representing and utilizing large-scale genomic datasets and are widely used for biological applications ( Cuellar et al , 2022 ; Di Marsico et al , 2022 ). In large interdisciplinary projects, such as Maine-eDNA, whose goal is to collect, manipulate, store, and analyze copious amounts of information, design decisions play an important role in how the data are handled on the user side.…”

Section: Discussionmentioning

confidence: 99%

medna-metadata: an open-source data management system for tracking environmental DNA samples and metadata

et al. 2022

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Motivation Environmental DNA (eDNA), as a rapidly expanding research field, stands to benefit from shared resources including sampling protocols, study designs, discovered sequences, and taxonomic assignments to sequences. High quality community shareable eDNA resources rely heavily on comprehensive metadata documentation that captures the complex workflows covering field sampling, molecular biology lab work, and bioinformatic analyses. There are limited sources that provide documentation of database development on comprehensive metadata for eDNA and these workflows and no open-source software. Results We present medna-metadata, an open-source, modular system that aligns with Findable, Accessible, Interoperable, and Reusable (FAIR) guiding principles that support scholarly data reuse and the database and application development of a standardized metadata collection structure that encapsulates critical aspects of field data collection, wet lab processing, and bioinformatic analysis. Medna-metadata is showcased with metabarcoding data from the Gulf of Maine (Polinski et al., 2019). Availability The source code of the medna-metadata web application is hosted on GitHub (https://github.com/Maine-eDNA/medna-metadata). Medna-metadata is a docker-compose installable package. Documentation can be found at https://medna-metadata.readthedocs.io/en/latest/?badge=latest. The application is implemented in Python, PostgreSQL and PostGIS, RabbitMQ, and NGINX, with all major browsers supported. A demo can be found at https://demo.metadata.maine-edna.org/. Supplementary information Supplementary data are available at Bioinformatics online.

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“…In the next future, Biobanks will play a central role in producing metadata from large collections of high-quality well-annotated samples thus requiring AI approaches to permit efficient data management solutions [ 21 ]. In this perspective, main efforts are now dedicated to the organization of technological infrastructures able to store biosamples information, medical images and clinical data [ 22 ]. In particular, Aibibank supported by Piemonte Region is exploring the possibilities to manage biobank-metadata production by AI and Deep Learning approaches [ 23 ].…”

Section: Discussionmentioning

confidence: 99%

Identification and Assessment of Risks in Biobanking: The Case of the Cancer Institute of Bari

Palma

Bolondi²,

Tufaro

et al. 2022

Cancers

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Although research biobanks are among the most promising tools to fight disease and improve public health, there are a range of risks biobanks may face that mainly need to be assessed in an attempt to be relieved. We conducted a strategic insurance review of an institutional cancer biobank with the aim of both identifying the insurable risks of our own Biobank and gathering useful evidence of primary exposure to insurable risks. In this practical scenario, risks have been outlined and categorized into inherent and residual risks, along with their possible impact on biobank maintenance. Results at the Biobank of the Cancer Institute of Bari showed evidence of potentially significant and intrinsic risk due to highly relevant threats, along with already implemented improvements that significantly reduce risks to a range of relative acceptability.

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A data management infrastructure for the integration of imaging and omics data in life sciences

Cited by 21 publications

References 31 publications

Web-Based Application for Biomedical Image Registry, Analysis, and Translation (BiRAT)

Web-Based Application for Biomedical Image Registry, Analysis, and Translation (BiRAT)

medna-metadata: an open-source data management system for tracking environmental DNA samples and metadata

Identification and Assessment of Risks in Biobanking: The Case of the Cancer Institute of Bari

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