An adaptive targeting algorithm for magnetic resonance‐guided high‐intensity focused ultrasound controlled hyperthermia

Author:

Wong Suzanne M.12,Luo Phoebe1,Keunen Benjamin1,Pichardo Samuel3,Drake James M.12,Waspe Adam C.14

Affiliation:

1. Posluns Centre for Image Guided Innovation & Therapeutic Intervention Hospital for Sick Children Toronto ON Canada

2. Institute of Biomedical Engineering University of Toronto Toronto ON Canada

3. Hotchkiss Brain Institute University of Calgary Calgary AB Canada

4. Department of Medical Imaging University of Toronto Toronto ON Canada

Abstract

AbstractBackgroundMild hyperthermia has been demonstrated to improve the efficacy of chemotherapy, radiation, and immunotherapy in various cancer types. One localized, non‐invasive method of administering mild hyperthermia is magnetic resonance‐guided high‐intensity focused ultrasound (MRgHIFU). However, challenges for ultrasound such as beam deflection, refraction and coupling issues may result in a misalignment of the HIFU focus and the tumor during hyperthermia. Currently, the best option is to stop the treatment, wait for the tissue to cool, and redo the treatment planning before restarting the hyperthermia. This current workflow is both time‐consuming and unreliable.PurposeAn adaptive targeting algorithm was developed for MRgHIFU controlled hyperthermia treatments for cancer therapeutics. This algorithm executes in real time while hyperthermia is being administered to ensure that the focus is within our target region. If a mistarget is detected, the HIFU system will electronically steer the focus of the HIFU beam to the correct target. The goal of this study was to quantify the accuracy and precision of the adaptive targeting algorithm's ability to correct a purposely misplanned hyperthermia treatment in real‐time using a clinical MRgHIFU system.MethodsA gelatin phantom with acoustic properties matched to the average speed of sound in human tissue was used to test the adaptive targeting algorithm's accuracy and precision. The target was purposely offset 10 mm away from the focus at the origin, in four orthogonal directions, allowing the algorithm to correct for this mistarget. In each direction, 10 data sets were collected for a total sample size of 40. Hyperthermia was administered with a target temperature set at 42°C. The adaptive targeting algorithm was run during the hyperthermia treatment and 20 thermometry images were collected after the beam steering occurred. The location of the focus was quantified by calculating the center of heating on the MR thermometry data.ResultsThe average calculated trajectory passed to the HIFU system was 9.7 mm ± 0.4 mm where the target trajectory was 10 mm. The accuracy of the adaptive targeting algorithm after the beam steering correction was 0.9 mm and the precision was 1.6 mm.ConclusionThe adaptive targeting algorithm was implemented successfully and was able to correct the 10 mm mistargets with high accuracy and precision in gelatin phantoms. The results demonstrate the capability to correct the MRgHIFU focus location during controlled hyperthermia.

Publisher

Wiley

Subject

General Medicine

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