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- Title
Automated data abstraction for quality surveillance and outcome assessment in radiation oncology.
- Authors
Kapoor, Rishabh; Sleeman, William C.; Nalluri, Joseph J.; Turner, Paul; Bose, Priyankar; Cherevko, Andrii; Srinivasan, Sriram; Syed, Khajamoinuddin; Ghosh, Preetam; Hagan, Michael; Palta, Jatinder R.
- Abstract
Rigorous radiotherapy quality surveillance and comprehensive outcome assessment require electronic capture and automatic abstraction of clinical, radiation treatment planning, and delivery data. We present the design and implementation framework of an integrated data abstraction, aggregation, and storage, curation, and analytics software: the Health Information Gateway and Exchange (HINGE), which collates data for cancer patients receiving radiotherapy. The HINGE software abstracts structured DICOM‐RT data from the treatment planning system (TPS), treatment data from the treatment management system (TMS), and clinical data from the electronic health records (EHRs). HINGE software has disease site‐specific "Smart" templates that facilitate the entry of relevant clinical information by physicians and clinical staff in a discrete manner as part of the routine clinical documentation. Radiotherapy data abstracted from these disparate sources and the smart templates are processed for quality and outcome assessment. The predictive data analyses are done on using well‐defined clinical and dosimetry quality measures defined by disease site experts in radiation oncology. HINGE application software connects seamlessly to the local IT/medical infrastructure via interfaces and cloud services and performs data extraction and aggregation functions without human intervention. It provides tools to assess variations in radiation oncology practices and outcomes and determines gaps in radiotherapy quality delivered by each provider.
- Subjects
HEALTH information exchanges; CLOUD computing; DATA quality; ELECTRONIC health records; PHYSICIANS; RADIATION dosimetry; PUBLIC health surveillance
- Publication
Journal of Applied Clinical Medical Physics, 2021, Vol 22, Issue 7, p177
- ISSN
1526-9914
- Publication type
Article
- DOI
10.1002/acm2.13308