Collaborative Oncology Between Radiologists and Radiation Oncologists for the Evaluation of Contoured Targets (CORRECT)
Wake Forest University Health Sciences
Summary
This clinical trial tests a new way to share radiation therapy plans using the Collaborative Oncology between Radiologists and Radiation oncologists for the Evaluation of Contoured Targets (CORRECT) workflow to improve communication and collaboration between radiation oncologists (ROs) and radiologists when determining cancer targets for radiation treatment. Systemic barriers limit critical communication between radiation oncologists and radiologists and can lead to both under and overdosing of radiation therapy (RT) tumor targets and failures to properly interpret post-treatment imaging. The limited formal diagnostic radiology training of many providers can make differentiating normal from disease imaging findings during target determination difficult, especially in complex disease sites like the lung, head, and neck. Inaccurate target determination may result in cancer return, excess toxicity, or both. Likewise, radiologists who cannot access prior RT plans may mistake expected RT changes for recurrent cancer or overlook true progression. The CORRECT workflow was developed by ROs and radiologists to address RO-radiology communication barriers by facilitating sharing of comprehensive RT target contours during RT planning. The CORRECT workflow begins with the normal process of RO target contouring. Computed tomography (CT) images are then fused with RT targets and pushed to a pre-designated Picture Archiving and Communications System (PACS) software folder accessible by the radiology department. The radiologist can then review the fused images at their chosen time and annotate images to indicate potential deviations (e.g., not avoiding normal tissue or not including all tumor). The RO reviews the annotated images and decides if any changes to treatment targets are needed for the final treatment plan. Through this independent, asynchronous review of high-quality images, CORRECT overcomes many of the limitations of existing communication methods between RO-radiologist, fostering a more collaborative, efficient, and precise approach to cancer treatment planning.
Description
PRIMARY OBJECTIVE: To determine the feasibility of the CORRECT workflow, defined as the return of radiology feedback via CORRECT within 2 business days from receipt of initial RT targets. SECONDARY OBJECTIVES: I. To further assess the feasibility of the CORRECT workflow as measured by 1) time (in business days) required to install the information technology (IT) application at each practice, 2) the number and proportion of cases per practice with reports of technical issues requiring centralized IT or CORRECT study team assistance, 3) percentage of approached patients who declined consent.…
Eligibility
- Age range
- 18+ years
- Sex
- All
- Healthy volunteers
- Yes
Inclusion Criteria: * PRACTICE: Must provide radiation therapy for ≥ 3 patients per month with lung cancer or head \& neck cancer * PRACTICE: At least one radiation oncologist and one radiologist (in house, contracted, etc.) at the practice willing to participate, but may have multiple participants at the practice * PRACTICE: Radiation oncologist/radiologist team must use Picture Archiving and Communication System (PACS) software at this practice * RADIATION ONCOLOGIST (NON-PATIENT): Must have been in independent practice (i.e., performing duties without preceptor oversight) for a minimum of…
Interventions
- BehavioralTraining and Education
Receive training and practice cases on CORRECT workflow
- OtherCommunication Intervention
Use CORRECT workflow
- OtherSurvey Administration
Ancillary studies
- OtherInterview
Ancillary studies
- OtherElectronic Health Record Review
Ancillary studies
Location
- Wake Forest NCORP Research BaseWinston-Salem, North Carolina