ROCKETSHIP: a flexible and modular software tool for the planning, processing and analysis of dynamic MRI studies

Samuel R Barnes, Thomas S C Ng, Naomi Santa-Maria, Axel Montagne, Berislav V Zlokovic, Russell E Jacobs

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

BACKGROUND: Dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) is a promising technique to characterize pathology and evaluate treatment response. However, analysis of DCE-MRI data is complex and benefits from concurrent analysis of multiple kinetic models and parameters. Few software tools are currently available that specifically focuses on DCE-MRI analysis with multiple kinetic models. Here, we developed ROCKETSHIP, an open-source, flexible and modular software for DCE-MRI analysis. ROCKETSHIP incorporates analyses with multiple kinetic models, including data-driven nested model analysis.

RESULTS: ROCKETSHIP was implemented using the MATLAB programming language. Robustness of the software to provide reliable fits using multiple kinetic models is demonstrated using simulated data. Simulations also demonstrate the utility of the data-driven nested model analysis. Applicability of ROCKETSHIP for both preclinical and clinical studies is shown using DCE-MRI studies of the human brain and a murine tumor model.

CONCLUSION: A DCE-MRI software suite was implemented and tested using simulations. Its applicability to both preclinical and clinical datasets is shown. ROCKETSHIP was designed to be easily accessible for the beginner, but flexible enough for changes or additions to be made by the advanced user as well. The availability of a flexible analysis tool will aid future studies using DCE-MRI. A public release of ROCKETSHIP is available at https://github.com/petmri/ROCKETSHIP .

Original languageEnglish
Pages (from-to)19
JournalBMC medical imaging
Volume15
DOIs
Publication statusPublished - 16 Jun 2015

Keywords / Materials (for Non-textual outputs)

  • Algorithms
  • Humans
  • Image Enhancement/methods
  • Image Interpretation, Computer-Assisted/methods
  • Information Storage and Retrieval/methods
  • Magnetic Resonance Imaging/methods
  • Reproducibility of Results
  • Sensitivity and Specificity
  • Software
  • Software Design
  • User-Computer Interface

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