Difference between revisions of "2013 Project Week:WebbasedAnatomicalTeachingFramework"
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* Use 3D Slicer to generate content for training and testing | * Use 3D Slicer to generate content for training and testing | ||
* Prototype will be built on top of existing visualization infrastructure ([http://goXTK.com XTK] and [http://fetalmri.org web-based fetal atlas tool]) | * Prototype will be built on top of existing visualization infrastructure ([http://goXTK.com XTK] and [http://fetalmri.org web-based fetal atlas tool]) | ||
+ | * We envision a system somewhat like existing online quiz systems ([http://www.surveymonkey.com], [http://www.classmarker.com/], [http://dontshake.org/lms/lms_information/lms_quiz.php], [http://www.proprofs.com/quiz-school/]) but with interactive 3D content drawn from the clinical use cases. | ||
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Revision as of 16:42, 17 December 2012
Home < 2013 Project Week:WebbasedAnatomicalTeachingFrameworkKey Investigators
- Daniel Haehn, Rudolph Pienaar, Ellen Grant (Boston Children's Hospital)
- Steve Pieper (Isomics Inc.)
- Sonia Pujol (BWH)
- Randy Gollub (MGH)
Project Description
Objective
- Over the last several years, an infrastructure has been developed to integrate health records and PACS image archives to support research on large collections of data collected during delivery of healthcare (as contrasted with data collected as part of clinical trials). This resulted in the availability of the mi2b2 system. An application enabled by this technology is supported by an R01 to use clinical scans of children aged zero to six years old to build a teaching atlas.
- One goal of the mi2b2 collaborative effort is to create a web-based teaching tool for fetal and neonatal anatomy as well as a browser for quantified information. The goal of this project is to create a prototype application for this purpose which can be easily extended to other testing scenarios.
Approach, Plan
We propose the following steps to create a high-level didactic content creation tool.
- Enable switching between different testing scenarios (fetal brains, liver etc.)
- Start with the existing Liver tutorial dataset and slides from the NA-MIC training core which includes a limited number of questions and answers
- Load a visual scene linked to a question catalog from a defined file format (XML?)
- The visualization and the questions are linked so answers can be provided in a fully interactive fashion (picking of a 3D mesh.. etc.)
- Track user-specified answers and provide statistics after testing mode
- Use 3D Slicer to generate content for training and testing
- Prototype will be built on top of existing visualization infrastructure (XTK and web-based fetal atlas tool)
- We envision a system somewhat like existing online quiz systems ([1], [2], [3], [4]) but with interactive 3D content drawn from the clinical use cases.
Progress
- User interface mockups are being prepared