Clinical implementation, logistics and workflow guide for MRI image based interstitial HDR brachytherapy for gynecological cancers

Clinical implementation, logistics and workflow guide for MRI image based interstitial HDR brachytherapy for gynecological cancers

Interstitial brachytherapy (IBT) is often utilized to treat women with bulky endometrial or cervical cancers not amendable to intracavitary treatments. A modern trend in IBT is the utilization of magnetic resonance imaging (MRI) with a high dose rate (HDR) afterloader for conformal 3D image‐based tr...

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Bibliographic Details
Published in:Journal of applied clinical medical physics Vol. 20; no. 11; pp. 37 - 49
Main Authors: Zhang, Hualin, Donnelly, Eric D., Strauss, Jonathan B., Kang, Zhuang, Gopalakrishnan, Mahesh, Lee, Plato C., Khelashvili, Gocha, Nair, Chithra K., Lee, Brian H., Sathiaseelan, Vythialingam
Format: Journal Article
Language:English
Published: United States John Wiley & Sons, Inc 01-11-2019
John Wiley and Sons Inc
Subjects:
Brachytherapy - instrumentation
Brachytherapy - methods
Catheters
Endometrial cancer
Female
Genital Neoplasms, Female - radiotherapy
Gynecological cancer
Health Plan Implementation
high dose rate
Humans
Image Processing, Computer-Assisted - methods
interstitial brachytherapy
Magnetic Resonance Imaging - methods
MRI based brachytherapy
NMR
Nuclear magnetic resonance
Organs at Risk - radiation effects
Radiation Oncology Physics
Radiation therapy
Radiotherapy Dosage
Radiotherapy Planning, Computer-Assisted - methods
Radiotherapy, Image-Guided - methods
Workflow
high dose rate
MRI based brachytherapy
interstitial brachytherapy
gynecological cancer
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Summary:Interstitial brachytherapy (IBT) is often utilized to treat women with bulky endometrial or cervical cancers not amendable to intracavitary treatments. A modern trend in IBT is the utilization of magnetic resonance imaging (MRI) with a high dose rate (HDR) afterloader for conformal 3D image‐based treatments. The challenging part of this procedure is to properly complete many sequenced and co‐related physics preparations. We presented the physics preparations and clinical workflow required for implementing MRI‐based HDR IBT (MRI‐HDR‐IBT) of gynecologic cancer patients in a high‐volume brachytherapy center. The present document is designed to focus on the clinical steps required from a physicist’s standpoint. Those steps include: (a) testing IBT equipment with MRI scanner, (b) preparation of templates and catheters, (c) preparation of MRI line markers, (d) acquisition, importation and registration of MRI images, (e) development of treatment plans and (f) treatment evaluation and documentation. The checklists of imaging acquisition, registration and plan development are also presented. Based on the TG‐100 recommendations, a workflow chart, a fault tree analysis and an error‐solution table listing the speculated errors and solutions of each step are provided. Our workflow and practice indicated the MRI‐HDR‐IBT is achievable in most radiation oncology clinics if the following equipment is available: MRI scanner, CT (computed tomography) scanner, MRI/CT compatible templates and applicators, MRI line markers, HDR afterloader and a brachytherapy treatment planning system capable of utilizing MRI images. The OR/procedure room availability and anesthesiology support are also important. The techniques and approaches adopted from the GEC‐ESTRO (Groupe Européen de Curiethérapie ‐ European Society for Therapeutic Radiology and Oncology) recommendations and other publications are proven to be feasible. The MRI‐HDR‐IBT program can be developed over time and progressively validated through clinical experience, this document is expected to serve as a reference workflow guideline for implementing and performing the procedure.
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ISSN:1526-9914
1526-9914
DOI:10.1002/acm2.12736