L Rankine scite author profile

The purpose of this study is to describe the comprehensive commissioning process and initial clinical experience of the Mevion S250 proton therapy system, a gantry‐mounted, single‐room proton therapy platform clinically implemented in the S. Lee Kling Proton Therapy Center at Barnes‐Jewish Hospital in St. Louis, MO, USA. The Mevion S250 system integrates a compact synchrocyclotron with a C‐inner gantry, an image guidance system and a 6D robotic couch into a beam delivery platform. We present our commissioning process and initial clinical experience, including i) CT calibration; ii) beam data acquisition and machine characteristics; iii) dosimetric commissioning of the treatment planning system; iv) validation through the Imaging and Radiation Oncology Core credentialing process, including irradiations on the spine, prostate, brain, and lung phantoms; v) evaluation of localization accuracy of the image guidance system; and vi) initial clinical experience. Clinically, the system operates well and has provided an excellent platform for the treatment of diseases with protons.PACS number(s): 87.55.ne, 87.56.bd

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New Developments in Imaging Idiopathic Pulmonary Fibrosis With Hyperpolarized Xenon Magnetic Resonance Imaging

Mammarappallil

Rankine

Wild

et al. 2019

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Idiopathic pulmonary fibrosis (IPF) is a progressive pulmonary disease that is ultimately fatal. Although the diagnosis of IPF has been revolutionized by high-resolution computed tomography, this imaging modality still exhibits significant limitations, particularly in assessing disease progression and therapy response. The need for noninvasive regional assessment has become more acute in light of recently introduced novel therapies and numerous others in the pipeline. Thus, it will likely be valuable to complement 3-dimensional imaging of lung structure with 3-dimensional regional assessment of function. This challenge is well addressed by hyperpolarized (HP) 129Xe magnetic resonance imaging (MRI), exploiting the unique properties of this inert gas to image its distribution, not only in the airspaces, but also in the interstitial barrier tissues and red blood cells. This single-breath imaging exam could ultimately become the ideal, noninvasive tool to assess pulmonary gas-exchange impairment in IPF. This review article will detail the evolution of HP 129Xe MRI from its early development to its current state as a clinical research platform. It will detail the key imaging biomarkers that can be generated from the 129Xe MRI examination, as well as their potential in IPF for diagnosis, prognosis, and assessment of therapeutic response. We conclude by discussing the types of studies that must be performed for HP 129Xe MRI to be incorporated into the IPF clinical algorithm and begin to positively impact IPF disease diagnosis and management.

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L Rankine

First clinical implementation of real‐time, real anatomy tracking and radiation beam control

Hyperpolarized ¹²⁹Xe gas transfer MRI: the transition from 1.5T to 3T

Characterization of the onboard imaging unit for the first clinical magnetic resonance image guided radiation therapy system

Commissioning and initial experience with the first clinical gantry‐mounted proton therapy system

New Developments in Imaging Idiopathic Pulmonary Fibrosis With Hyperpolarized Xenon Magnetic Resonance Imaging

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L Rankine

First clinical implementation of real‐time, real anatomy tracking and radiation beam control

Hyperpolarized 129Xe gas transfer MRI: the transition from 1.5T to 3T

Characterization of the onboard imaging unit for the first clinical magnetic resonance image guided radiation therapy system

Commissioning and initial experience with the first clinical gantry‐mounted proton therapy system

New Developments in Imaging Idiopathic Pulmonary Fibrosis With Hyperpolarized Xenon Magnetic Resonance Imaging

Contact Info

Product

Resources

About

Hyperpolarized ¹²⁹Xe gas transfer MRI: the transition from 1.5T to 3T