Quantifying the effect of respiratory motion on lung tumour dosimetry with the aid of a breathing phantom with deforming lungs

Nioutsikou, Elena; Symonds-Tayler, J Richard N; Bedford, James L.; Webb, Steve

doi:10.1088/0031-9155/51/14/005

Cited by 62 publications

(54 citation statements)

References 23 publications

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“…This analysis confirmed the phenomenon of ''dose blurring,'' which appeared as a stretched isodose distribution in the cranio-caudal direction and as a global reduction of absorbed dose in the PTV. These observations correspond with the results of other experimental studies showing dose blurring, underdosages, and penumbral spreading of the dose distribution because of respiratory movement of the target (20,21). In our experiments, the observed CT and histopathologic findings might have been blurred because of these presumed effects.…”

Section: Issues Expected In Clinical Applicationsupporting

confidence: 92%

Converging Stereotactic Radiotherapy Using Kilovoltage X-Rays: Experimental Irradiation of Normal Rabbit Lung and Dose–Volume Analysis With Monte Carlo Simulation

Kawase

Kunieda

Deloar

et al. 2009

International Journal of Radiation Oncology*Biology*Physics

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Section: Issues Expected In Clinical Applicationsupporting

confidence: 92%

Converging Stereotactic Radiotherapy Using Kilovoltage X-Rays: Experimental Irradiation of Normal Rabbit Lung and Dose–Volume Analysis With Monte Carlo Simulation

Kawase

Kunieda

Deloar

et al. 2009

International Journal of Radiation Oncology*Biology*Physics

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“…The probe was clamped to a mechanical articulated arm, which was mounted on a three-axis of motion translational stage (Nioutsikou et al 2006). The position of the transducer was controlled by three stepper motors driven by commands from a PC.…”

Section: Experimental Set-upmentioning

confidence: 99%

Performance of ultrasound based measurement of 3D displacement using a curvilinear probe for organ motion tracking

Harris

Miller²,

Bamber³

et al. 2007

Phys. Med. Biol.

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Three-dimensional (3D) soft tissue tracking is of interest for monitoring organ motion during therapy. Our goal is to assess the tracking performance of a curvilinear 3D ultrasound probe in terms of the accuracy and precision of measured displacements. The first aim was to examine the depth dependence of the tracking performance. This is of interest because the spatial resolution varies with distance from the elevational focus and because the curvilinear geometry of the transducer Page 2 of 39 causes the spatial sampling frequency to decrease with depth. Our second aim was to assess tracking performance as a function of the spatial sampling setting (low, medium or high sampling). These settings are incorporated onto 3D ultrasound machines to allow the user to control the trade-off between spatial sampling and temporal resolution. Volume images of a speckle-producing phantom were acquired before and after the probe had been moved by a known displacement (1, 2 or 8 mm).This allowed us to assess the optimum performance of the tracking algorithm, in the absence of motion. 3D speckle tracking was performed using 3D cross-correlation and sub-voxel displacements were estimated. The tracking performance was found to be best for y displacements and poorest for z displacements. In general, the performance decreased with depth, although the nature of the depth dependence was complex.Under certain conditions, the tracking performance was sufficient to be useful for monitoring organ motion. For example, at the highest sampling setting, for a 2 mm displacement, good accuracy and precision (an error and standard deviation of <0.4mm) were observed at all depths and for all directions of displacement. The trade-off between spatial sampling, temporal resolution and size of field of view is discussed.

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“…[3][4][5][6][7][8]) or by means of planning studies making use of 4D (=3D+t) dose calculation concepts (cf. [9][10][11][12] as examples).…”

Section: Introductionmentioning

confidence: 99%

Towards accurate dose accumulation for Step-&-Shoot IMRT: Impact of weighting schemes and temporal image resolution on the estimation of dosimetric motion effects

Werner

Ehrhardt

Schmidt-Richberg

et al. 2012

Zeitschrift für Medizinische Physik

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Quantifying the effect of respiratory motion on lung tumour dosimetry with the aid of a breathing phantom with deforming lungs

Cited by 62 publications

References 23 publications

Converging Stereotactic Radiotherapy Using Kilovoltage X-Rays: Experimental Irradiation of Normal Rabbit Lung and Dose–Volume Analysis With Monte Carlo Simulation

Converging Stereotactic Radiotherapy Using Kilovoltage X-Rays: Experimental Irradiation of Normal Rabbit Lung and Dose–Volume Analysis With Monte Carlo Simulation

Performance of ultrasound based measurement of 3D displacement using a curvilinear probe for organ motion tracking

Towards accurate dose accumulation for Step-&-Shoot IMRT: Impact of weighting schemes and temporal image resolution on the estimation of dosimetric motion effects

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