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Klaus Bratengeier

Showing results (1-10 of 35) with videos related to

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Medical Physics|February 16, 2006
2-Step IMAT and 2-Step IMRT in three dimensionsKlaus Bratengeier
Medical Physics|April 21, 2005
2-Step IMAT and 2-Step IMRT: a geometrical approachKlaus Bratengeier
Zeitschrift Fur Medizinische Physik|February 11, 2003
Homogeneous Ir-192 afterloading-flab-irradiation of plane surfacesKlaus Bratengeier, Thomas Krieger
Medical Physics|November 4, 2016
Anisotropy of dose contributions-An instrument to upgrade real time IMRT and VMAT adaptation?Klaus Bratengeier, Kostyantyn Holubyev
Radiation Oncology (London, England)|October 14, 2015
Characteristics of non-coplanar IMRT in the presence of target-embedded organs at riskKlaus Bratengeier, Kostyantyn Holubyev
Medical Physics|February 11, 2012
Methods for monitor-unit-preserving adaptation of intensity modulated arc therapy techniques to the daily target-A simple comparisonKlaus Bratengeier, Markus Oechsner, Mark Gainey
Journal of Applied Clinical Medical Physics|November 10, 2018
Steeper dose gradients resulting from reduced source to target distance-a planning system independent studyKlaus Bratengeier, Kostyantyn Holubyev, Sonja Wegener
Radiation Oncology (London, England)|November 8, 2008
Pre-segmented 2-Step IMRT with subsequent direct machine parameter optimisation - a planning studyKlaus Bratengeier, Jürgen Meyer, Michael Flentje
Radiation Oncology (London, England)|December 14, 2011
Fast IMRT by increasing the beam number and reducing the number of segmentsKlaus Bratengeier, Mark B Gainey, Michael Flentje
Medical Physics|November 30, 2018
Properties of the anisotropy of dose contributions: A planning study on prostate casesJohannes Greber, Bülent Polat, Michael Flentje, et al.
Pageof 4

Showing results (1-10 of 35) with videos related to

Sort By:
Pageof 4
Medical Physics|February 16, 2006
2-Step IMAT and 2-Step IMRT in three dimensionsKlaus Bratengeier
Medical Physics|April 21, 2005
2-Step IMAT and 2-Step IMRT: a geometrical approachKlaus Bratengeier
Zeitschrift Fur Medizinische Physik|February 11, 2003
Homogeneous Ir-192 afterloading-flab-irradiation of plane surfacesKlaus Bratengeier, Thomas Krieger
Medical Physics|November 4, 2016
Anisotropy of dose contributions-An instrument to upgrade real time IMRT and VMAT adaptation?Klaus Bratengeier, Kostyantyn Holubyev
Radiation Oncology (London, England)|October 14, 2015
Characteristics of non-coplanar IMRT in the presence of target-embedded organs at riskKlaus Bratengeier, Kostyantyn Holubyev
Medical Physics|February 11, 2012
Methods for monitor-unit-preserving adaptation of intensity modulated arc therapy techniques to the daily target-A simple comparisonKlaus Bratengeier, Markus Oechsner, Mark Gainey
Journal of Applied Clinical Medical Physics|November 10, 2018
Steeper dose gradients resulting from reduced source to target distance-a planning system independent studyKlaus Bratengeier, Kostyantyn Holubyev, Sonja Wegener
Radiation Oncology (London, England)|November 8, 2008
Pre-segmented 2-Step IMRT with subsequent direct machine parameter optimisation - a planning studyKlaus Bratengeier, Jürgen Meyer, Michael Flentje
Radiation Oncology (London, England)|December 14, 2011
Fast IMRT by increasing the beam number and reducing the number of segmentsKlaus Bratengeier, Mark B Gainey, Michael Flentje
Medical Physics|November 30, 2018
Properties of the anisotropy of dose contributions: A planning study on prostate casesJohannes Greber, Bülent Polat, Michael Flentje, et al.
Pageof 4