2019
DOI: 10.1002/cam4.2100
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Using adaptive magnetic resonance image‐guided radiation therapy for treatment of inoperable pancreatic cancer

Abstract: Background Adaptive magnetic resonance imaging‐guided radiation therapy (MRgRT) can escalate dose to tumors while minimizing dose to normal tissue. We evaluated outcomes of inoperable pancreatic cancer patients treated using MRgRT with and without dose escalation. Methods We reviewed 44 patients with inoperable pancreatic cancer treated with MRgRT. Treatments included conventional fractionation, hypofractionation, and stereotactic body radiation therapy. Patients were s… Show more

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Cited by 288 publications
(251 citation statements)
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“…Early reports have demonstrated the successful implementation of these systems into a number of clinics world-wide. Today, also a number of retrospective outcome analyses and a smaller number of phase one and phase two prospective clinical trials suggest the clinical value of investing in this technology [5][6][7].…”
Section: Introductionmentioning
confidence: 99%
“…Early reports have demonstrated the successful implementation of these systems into a number of clinics world-wide. Today, also a number of retrospective outcome analyses and a smaller number of phase one and phase two prospective clinical trials suggest the clinical value of investing in this technology [5][6][7].…”
Section: Introductionmentioning
confidence: 99%
“…However, long-term follow-up is needed to confirm that these doses aresafe for late toxicity. More intensive dose regimens, delivering higher biological doses, may be of interest to increase response rate [10]: however due to proximity of radiosensitive critical structures, further dose escalation may expose to higher risk of adverse severe events. Moreover, initial experiences of daily imaging with cone-beam CT [22] and more recent trials implementing the use of high-definition imaging such as integrated MRI or helical CT suggest that large inter-fractional variations in shape and position occurs during the treatment course [12,13,23], thus adding further uncertainty in determining the tolerance of OARs to radiation injury, since deformation and movement may allow critical structure to approach higher dose regions [12].…”
Section: Discussionmentioning
confidence: 99%
“…Results from phase I/II trials [7] reported a cumulative local control rate of 71% at 1 year, and benefit of SBRT is currently evaluated in prospective phase III trials [8]. Moreover, irradiation up to 50 Gy in five fractions to part of the tumor has been correlated with an increase in local control and R0 resection rate, suggesting a potential interest of dose escalation to improve global outcome and disease downstaging in order to achieve surgical resectability [9,10]. However, development of more aggressive treatment schedules is limited by proximity of critical dose-limiting structures (duodenum, stomach, bowel), often resulting in a stringent tradeoff between adequate coverage of the target volume and preservation of dose constraints of the organs at risks (OARs).…”
Section: Introductionmentioning
confidence: 99%
“…A second key to future progress in SBRT is continued advancements in imaging, targeting, and adaptive therapy. These will allow for further dose escalation which has the potential to enhance the radiation therapeutic ratio, as well as enable additional treatment sites to benefit from SBRT . Deeper examination of the modality of radiation used for SBRT delivery (e.g., photon versus proton) continues .…”
Section: Rebuttalmentioning
confidence: 99%