Assessing the Dosimetric Impact of Real-Time Prostate Motion During Volumetric Modulated Arc Therapy

Azcona, Juan Diego; Li, Xing; Chen, Xin; Bush, Karl; Li, Ruijiang

doi:10.1016/j.ijrobp.2013.12.015

Cited by 25 publications

(26 citation statements)

References 32 publications

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“…A simulation study performed using dose reconstruction for conventional and subvolume boost treatments for prostate showed that MLC tracking is effective at mitigating the dosimetric effects of prostate motion and allows for successful GTV and PTV dose delivery (14), as demonstrated in the present study. The dosimetric results for the without-MLC tracking delivery also corresponds closely with other observational prostate dose reconstruction studies (15,16) that have modeled the effect of intrafraction prostate motion on the dose delivery of standard non-MLC tracking treatments. The outlier fractions for which the dose distribution was improved by MLC tracking tended to be lower PTV and CTV doses, lower rectum doses, and higher bladder doses.…”

Section: Discussionsupporting

confidence: 80%

Multileaf Collimator Tracking Improves Dose Delivery for Prostate Cancer Radiation Therapy: Results of the First Clinical Trial

Colvill

Booth

O’Brien

et al. 2015

International Journal of Radiation Oncology*Biology*Physics

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Funding: This study was supported by Varian Medical Systems through partial trial funding and an equipment loan.Conflict of interest: P.J.K. is one of the inventors on an issued patent and a submitted patent application on multileaf collimator tracking. Acknowledgments:The authors thank Esben Worm and Prabhjot Juneja for their valuable help with dose reconstruction development, and Julie Baz for improving the clarity and readability of the manuscript. SummaryMultileaf collimator tracking has been implemented for the first time in a prospective prostate cancer clinical trial. Dose reconstruction was performed for 475 treatment fractions for 15 patients. Comparison of patients' original planned dose with the calculated treated dose with and without MLC tracking demonstrates that implementation of MLC tracking results in a higher agreement between delivered and planned doses. The implications are potentially improved patient outcomes and more reliable radiobiological parameter determination. AbstractPurpose: To test the hypothesis that multileaf collimator (MLC) tracking improves the consistency between the planned and delivered dose compared with the dose without MLC tracking, in the setting of a prostate cancer volumetric modulated arc therapy trial. Methods and Materials:Multileaf collimator tracking was implemented for 15 patients in a prostate cancer radiation therapy trial; in total, 513 treatment fractions were delivered. During each treatment fraction, the prostate trajectory and treatment MLC positions were collected. These data were used as input for dose reconstruction (multiple isocenter shift method) to calculate the treated dose (with MLC tracking) and the dose that would have been delivered had MLC tracking not been applied (without MLC tracking). The percentage difference from planned for target and normal tissue dose-volume points were calculated. The hypothesis was tested for each dose-volume value via analysis of variance using the F test. Results:Of the 513 fractions delivered, 475 (93%) were suitable for analysis. The mean difference and standard deviation between the planned and treated MLC tracking doses and the planned and without-MLC tracking doses for all 475 fractions were, respectively, PTV D99% -0.8% ± 1.1% versus -2.1% ± 2.7%; CTV D99% -0.6% ± 0.8% versus -0.6% ± 1.1%; rectum V65% 1.6% ± 7.9% versus -1.2% ± 18%; and bladder V65% 0.5% ± 4.4% versus -0.0% ± 9.2% (P<.001 for all dose-volume results). Conclusion:This study shows that MLC tracking improves the consistency between the planned and delivered doses compared with the modeled doses without MLC tracking. The implications of this finding are potentially improved patient outcomes, as well as more reliable dose-volume data for radiobiological parameter determination.

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Section: Discussionsupporting

confidence: 80%

Multileaf Collimator Tracking Improves Dose Delivery for Prostate Cancer Radiation Therapy: Results of the First Clinical Trial

Colvill

Booth

O’Brien

et al. 2015

International Journal of Radiation Oncology*Biology*Physics

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“…The primary concern is that interplay between tumor motion and beam modulation could result in inadvertent underdosing of the tumor or excessive dose to nearby organs at risk. The interplay effect has been extensively reported on in the setting of IMRT[14–17], VMAT[18–20], and PBS[21, 22]. These studies then paved the way for the development of mitigation strategies to minimize the potential impact of motion interplay.…”

Section: Motion and Volume Adaptation In Current Radiotherapeutic Parmentioning

confidence: 99%

The Practicality of ICRU and Considerations for Future ICRU Definitions

Shepherd

James

Rengan

2018

Seminars in Radiation Oncology

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The International Commission on Radiation Units and Measurements (ICRU) volumes are standardized volume definitions used in radiation oncology practice that have evolved over time to account for advancements in technology and radiation planning. The current definitions have strengths but also practical limitations. The main limitation is related to the process of accounting for tumor motion during treatment. As radiotherapeutic techniques become more precise, motion interplay effects and anatomical changes during treatment must be taken into account to ensure accurate and safe delivery of treatment. Adaptive replanning can help to mitigate the effect of these uncertainties and widen the therapeutic ratio by maximizing dose to the tumor and protecting critical normal structures. As adaptive replanning becomes more common, standardization of how adaptive therapy is implemented and reported will become necessary.

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“…Intrafraction prostate motion is a predominant cause for treatment delivery inaccuracies as multiple studies have shown that the prostate tends to move in an unpredictable way in approximately 50% of all patients with observed motion amplitudes up to 2 cm for certain extreme cases . The dosimetric impact of this residual intrafraction motion is nonnegligible and should be mitigated by accurate monitoring of the prostate position during treatment delivery . To this end, a wide variety of motion monitoring techniques are currently utilized in clinical practice or are under development …”

Section: Introductionmentioning

confidence: 99%

Characterization of a novel liquid fiducial marker for multimodal image guidance in stereotactic body radiotherapy of prostate cancer

et al. 2018

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This study is the first to show the compatibility of BioXmark liquid markers with multimodal image-guided radiotherapy for PCa. Compared to a solid gold marker, they had favorable results in both visibility and induced imaging artifacts. Liquid marker visibility in MRI imaging of the prostate does not solely depend on the low ρH value (not visible on T2-weighted image) but is also influenced by its relaxation times. Automated marker detection in x-ray images was feasible but better adapted marker detection algorithms are necessary for marker localization in the presence of bony edges. Hence, the liquid marker provides a minimally invasive (fine needles) and highly applicable alternative to current solid gold markers for multimodal image-guided prostate radiotherapy treatments.

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Assessing the Dosimetric Impact of Real-Time Prostate Motion During Volumetric Modulated Arc Therapy

Cited by 25 publications

References 32 publications

Multileaf Collimator Tracking Improves Dose Delivery for Prostate Cancer Radiation Therapy: Results of the First Clinical Trial

Multileaf Collimator Tracking Improves Dose Delivery for Prostate Cancer Radiation Therapy: Results of the First Clinical Trial

The Practicality of ICRU and Considerations for Future ICRU Definitions

Characterization of a novel liquid fiducial marker for multimodal image guidance in stereotactic body radiotherapy of prostate cancer

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