Search Results - "Jaekel, O"
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MO‐E‐500‐01: Point and Counter Point Debate: The More Important Heavy Charged Particle Radiotherapy of the Future Is More Likely to Be with Heavy Ions Rather Than Protons
Published in Medical Physics (01-06-2013)“…Over the past decade there has been considerable interest and progress in the use of heavy ions such as protons and carbon in an attempt to improve the…”
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OC-0390: Inter-fractional robustness of beam angles and margins in scanned carbon treatment of pancreatic tumors
Published in Radiotherapy and oncology (2014)Get full text
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TH‐C‐144‐03: Tissue Decomposition From Dual Energy CT Data to Reduce Range Uncertainties in Proton and Carbon Radiotherapy
Published in Medical Physics (01-06-2013)“…Purpose: To reduce uncertainties in CT data conversion to stopping power ratio (SPR) and tissue composition when using single energy CT (SECT), this study…”
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High-accuracy fluence determination in ion beams using fluorescent nuclear track detectors
Published in Radiation measurements (01-09-2013)“…We present an approach to use Al2O3:C,Mg-based fluorescent nuclear track detectors (FNTDs) and confocal laser scanning microscopy as a semiautomatic tool for…”
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Journal Article Conference Proceeding -
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Intrafractional dose variation and beam configuration in carbon ion radiotherapy for esophageal cancer
Published in Radiation oncology (London, England) (15-11-2016)“…In carbon ion radiotherapy (CIR) for esophageal cancer, organ and target motion is a major challenge for treatment planning due to potential range deviations…”
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Proton and Ion Beam Radiation Therapy: A Microscopic Dosimetry System for Radiobiology and Treatment
Published in International journal of radiation oncology, biology, physics (01-11-2012)Get full text
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4D Treatment Dose Reconstruction for Scanned Ion Beam Therapy
Published in International journal of radiation oncology, biology, physics (01-10-2013)Get full text
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TU‐A‐BRB‐04: Fragmentation Analysis in Heavy Ion Therapy: A Novel Experimental Approach to Measure Lateral Distributions of Secondary Charged Particles
Published in Medical Physics (01-06-2012)“…Purpose: In carbon ion beam radiotherapy, nuclear fragmentation in tissue leads to an attenuation of the primary particle flux and the build‐up of lighter…”
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Conference Proceeding Journal Article -
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SU‐E‐T‐610: Impact of Variable Beam Spot Size on Treatment Time in Particle Therapy
Published in Medical Physics (01-06-2012)“…Purpose: The dosimetric advantage of particle therapy comes with a much higher infrastructure investment and operation costs. Increasing patient throughput is…”
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Conference Proceeding Journal Article -
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SU‐D‐BRB‐02: Investigations of Secondary Ion Distributions in Carbon Ion Therapy Using the Timepix Detector
Published in Medical Physics (01-06-2012)“…Purpose: Due to the high conformity of carbon ion therapy, unpredictable changes in the patient's geometry or deviations from the planned beam properties can…”
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Conference Proceeding Journal Article -
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MO‐A‐213AB‐11: First Experimental Test of Secondary Ion Tracking for the Assessment of Beam Range in a Patient‐Like Phantom
Published in Medical Physics (01-06-2012)“…Purpose: Radiation therapy with ion beams provides highly conformal dose distributions. Therefore, monitoring the dose delivery within the patient in a non‐…”
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Conference Proceeding Journal Article -
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SU‐E‐T‐105: The LET Dependence of Liquid Ionization Chambers (LICs) in High‐LET Beams
Published in Medical Physics (01-06-2012)“…Purpose: LICs are novel detectors for radiotherapy: the higher density of the medium allows to build them with a smaller sensitive volume, making them…”
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Conference Proceeding Journal Article -
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PD-0348 PROTON AND CARBON ION IMPT TREATMENT PLANS IN RASTER SCANNING ION BEAM THERAPY
Published in Radiotherapy and oncology (01-05-2012)Get full text
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SU‐E‐T‐334: Clinical Implementation of Gating and Dose Verification with Scanned Ion Beams at HIT
Published in Medical Physics (01-06-2012)“…Purpose: Medical physics aspects of gated irradiation to moving tumors using scanned ion beams. Methods: At our institute, more than 700 patients have been…”
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Conference Proceeding Journal Article -
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The application of amorphous track models to study cell survival in heavy ions beams
Published in Radiation protection dosimetry (01-02-2011)“…In a study of amorphous track models, in the local effect model (LEM), the Kellerer algorithm was used, which folds radial dose distributions from different…”
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SU‐FF‐T‐408: The IAEA Initiative to Standardize Nuclear Data for Heavy Charged‐Particle Radiotherapy
Published in Medical physics (Lancaster) (01-06-2007)“…Purpose: Protons and heavy ions loose energy via atomic and nuclear interaction processes. When simulating charged‐particle beam characteristics, for example…”
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Characterisation of a customised 4-chip Timepix3 module for charged-particle tracking
Published in Radiation measurements (01-04-2024)“…Ion-beam radiotherapy is a growing cancer treatment modality because it offers a superior dose distribution in the patient compared with conventional…”
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Monte Carlo simulations to support start-up and treatment planning of scanned proton and carbon ion therapy at a synchrotron-based facility
Published in Physics in medicine & biology (21-06-2012)“…Reliable treatment planning of highly conformal scanned ion beam therapy demands accurate tools for the determination and characterization of the individual…”
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