Search

Your search keyword '"Van De Vondel, I."' showing total 23 results
Start Over Author "Van De Vondel, I."
23 results on '"Van De Vondel, I."'

1. Geometrical Verification of Real-Time Tumor Tracking Using Fast MV Fluoroscopy On a New Generation EPID: Investigating the Influence of Pulsing Artifacts and Artifact Suppression Techniques On Fiducial Marker and Marker-Less Soft-Tissue Detection

Author

Poels, K., Verellen, D., Depuydt, T., van de Vondel, I, Burghelea, M., De Ridder, M., Faculty of Medicine and Pharmacy, Basic (bio-) Medical Sciences, Translational Radiation Oncology and Physics, Faculty of Economic and Social Sciences and Solvay Business School, Clinical sciences, and Radiation Therapy

Published
2014
Full Text
View/download PDF

2. Computer-aided analysis of star shot films for high accuracy radiation therapy treatment units

Author

Depuydt, Tom, Penne, Rudi, Verellen, Dirk, Hrbacek, J, Lang, S, Leysen, Katrien, Van De Vondel, I., Poels, Kenneth, Reynders, Truus, Gevaert, Thierry, Duchateau, Michael, Tournel, Koen, Boussaer, Marlies, Cosentino, D, Garibaldie, C, Solberg, T, De Ridder, Mark, Medical Imaging and Physical Sciences, Translational Radiation Oncology and Physics, Mathematics, Radiation Therapy, and Clinical sciences

Abstract

x

Published
2012

3. Influence of Changing Magnetron and Injector Current on the Beam Characteristics of a Tomotherapy Hi-Art SYSTEM

Author

Van De Vondel, I., Tournel, K., Duchateau, M., Reynders, T., Van Vaerenbergh, S., Boussaer, M., Leysen, K., Depuydt, T., Poels, K., Verellen, D., De Ridder, M., Radiation Therapy, Faculty of Medicine and Pharmacy, Faculty of Economic and Social Sciences and Solvay Business School, Translational Radiation Oncology and Physics, and Medical Imaging and Physical Sciences

Published
2011

4. An in-house developed MOSFET dosimeter with reset capabilities

Author

Verellen, Dirk, Van Vaerenbergh, S., Tournel, Koen, Duchateau, Michael, Linthout, Nadine, Gevaert, Thierry, Reynders, Truus, Van De Vondel, I., Coppens, L., Depuydt, Tom, Storme, Guy, Medical Imaging and Physical Sciences, Radiation Therapy, Clinical sciences, and Translational Radiation Oncology and Physics

Abstract

Background and purpose: To report the feasibility and clinical validation of an in-house developed MOSFET dosimetry system and describing an integrated non-destructive reset procedure. Material and Methods: Off-the-shelf MOSFETs are connected to a common PC using an 18bit/analogueinput and 16bit/output data acquisition card. A reading algorithm was developed defining the Zero- Temperature-Coefficient point to determine the threshold voltage. A wireless interface was established for ease-of-use. The reset procedure consists of an internal circuit generating a local heating induced by an electrical current. Sensitivity has been investigated as a function of bias voltage (0V-9V) to the gate. Dosimetric properties have been evaluated for 6MV and 15MV clinical photon beams and in vivo benchmarking was performed against TLD for conventional treatments (2 groups of 10 patients for each energy) and TBI. Results: MOSFETS were pre-irradiated with 20Gy. Sensitivity of 0.08mV/cGy can be obtained for 200cGy irradiations at 5V bias voltage. Ten consecutive measurements at 200cGy yield a SD of 2.08cGy (1.05%). Increasing dose in steps from 5cGy to 1000cGy yields a 1.00 Pearson correlation coefficient and agreement within 2.0%. Dose rate dependence (160-800cGy/min) was within 2.5%, temperature dependence within 2.0% (25-37ºC). A strong angular dependence has been observed for gantry incidences exceeding ±30º. Dose response is stable up to 50Gy (saturation occurs at approximately 90Gy), which is used as threshold dose before resetting the MOSFET. An average measured-overcalculated dose ratio within 1.05 (SD: 0.04) has been obtained in vivo. TBI midplane-dose assessed by entrance and exit dose measurements agreed within 1.9% with ionisation chamber in phantom, and within 1.0% with TLD in vivo. Conclusions: An in-house developed resettable MOSFET-based dosimetry system is proposed. The system has been validated and is currently used for in vivo entrance dose measurement in clinical routine for simple (open field) treatment configurations.

Published
2010

5. The effect of tomotherapy imaging beam output variation on dose calculation

Author

Duchateau, Michael, Tournel, Koen, Verellen, Dirk, Van De Vondel, I., Reynders, Truus, De Coninck, P., Linthout, Nadine, Gevaert, Thierry, Storme, Guy, Radiation Therapy, Medical Imaging and Physical Sciences, Clinical sciences, and Translational Radiation Oncology and Physics

Abstract

A radiotherapy treatment plan is based on an anatomical 'snapshot' of the patient acquired during the preparation stage using a kVCT (kilovolt computed tomography) scanner. Anatomical changes will occur during the treatment course, in some cases requiring a new treatment plan to deliver the prescribed dose. With the introduction of 3D volumetric on-board imaging devices, it became feasible to use the produced images for dose recalculation. However, the use of these on-board imaging devices in clinical routine for the calculation of dose depends on the stability of the images. In this study the validation of tomotherapy MVCT (megavolt computed tomography) produced images, for the purpose of dose recalculation by the Planned Adaptive software, has been performed. To investigate the validity of MVCT images for dose calculation, a treatment plan was created based on kVCT-acquired images of a solid water phantom. During a period of 4 months, MVCT images of the phantom have been acquired and were used by the planned adaptive software to recalculate the initial kVCT-based dose on the MVCT images. The influence of the adapted IVDTs (image value-to-density tables) has been investigated as well as the effect of image acquisition with or without preceding airscan. Output fluctuations and/or instabilities of the imaging beam result in MV images of different quality yielding different results when used for dose calculation. It was shown that the output of the imaging beam is not stable, leading to differences of nearly 3% between the original kV-based dose and the recalculated MV-based dose, for solid water only. MVCT images can be used for dose calculation purposes bearing in mind that the output beam is liable to fluctuations. The acquisition of an IVDT together with the MVCT image set, that is going to be used for dose calculation, is highly recommended.

Published
2010

6. A diagnostic tool for basic daily quality assurance of a Tomotherapy Hi*Art machine

Author

Van De Vondel, I., Tournel, Koen, Verellen, Dirk, Duchateau, Michael, Lelie, Steven, Storme, Guy, Radiation Therapy, Medical Imaging and Physical Sciences, and Centre for Oncology

Subjects
Radiotherapy, Computer-Assisted/instrumentation, Radiotherapy Planning, Computer-Assisted, Radiotherapy Dosage, Radiotherapy, Intensity-Modulated/methods, Tomotherapy, Radiotherapy, Intensity-Modulated/instrumentation, Quality Assurance, Health Care/methods, Tomography, Spiral Computed/methods, Humans, Tomography, Spiral Computed/instrumentation, Neoplasms/radiotherapy, Radiometry, Algorithms, RADIOTHERAPY, Neoplasms/diagnosis, Radiotherapy, Computer-Assisted/methods
Abstract

To investigate and evaluate the use of an in-house developed diagnostic software tool using the imaging detector data for a quick daily quality assurance check of the output (dose) and lateral profile (cone) of a tomotherapy Hi*Art system. The Hi*Art treatment system is a radiation therapy machine for delivering intensity modulated radiation therapy (IMRT) in a helical fashion with an integrated CT scanner used for improved patient positioning before treatment. Since the system was developed specifically for IMRT, flat fields can be obtained by modulating the beam and therefore the flattening filter could be omitted. Because of this, the field has a cone-like profile in both lateral and transversal directions. Patients are treated in a helical fashion with a tight pitch and a constant gantry rotation speed, while modulation is performed by a binary MLC. Consequently dose output per time-unit (dose rate) as well as the shape of the cone-profile are very important for correct patient treatment and should be closely monitored. However, using the company-provided initial tools and conventional dosimetry, this can be a time consuming daily procedure. The aim of this work is to develop a fast, automated method of quality assurance based on the detector signal. A software tool called "tomocheck" running on the operation station has been developed to evaluate the output (dose rate) and the lateral cone profile (energy) of the Hi*Art system, comparing actual output and cone profile with a reference (previously approved against ionization chamber measurements). This is done by using the data of the 640 on-board detector array that are directly retrieved and processed after a specific QA procedure. The detector file consists of the CT detector data and the three monitoring dose chamber readings over a time period of 200 sec. To evaluate the method, the system was benchmarked against ionization chamber measurements and classical IMRT QA methods. Action levels (final status "NOT ACCEPTED") for dose ratio as well as the cone ratio are set to +/- 2%. The QA tool was introduced for daily QA in May 2007. For the following 24 months, a total of 931 morning checks was made on both tomotherapy machines. In 42 cases the check status was "NOT ACCEPTED". In 34 cases the dose ratio (DR) was out of tolerance. The corrected cone ratio (CCR) was outside of specification tolerance in 8 cases. The tomocheck data was related to the ionization chamber measurements for the IMRT plan indicating a close relationship between the CCR and the off-axis measurements. Average dose ratio against the mean value of the on- and off-axis IC measurement indicates that this parameter is a good interpretation of the dose output. This tool makes it possible to perform an easy-to-use and fast basic daily quality assurance check featuring an output as well as an energy evaluation. Ideally this tool should offer also the combined dosimetry check of jaw width, couch speed, leaf latency, output, leaf/gantry synchrony, and lasers. This will be investigated in the future.

Published
2009

7. Applying imaging detector data for daily monitoring of dose output in helical tomotherapy

Author

Verellen, Dirk, Tournel, Koen, Linthout, Nadine, Van De Vondel, I., Duchateau, Michael, Lelie, Steven, Storme, Guy, Medical Imaging and Physical Sciences, and Radiation Therapy

Abstract

Purpose: In Tomotherapy dose is dependant on the output and shape of the beam (.cone.). Variations in these can have huge influences on IMRTtreatments and daily monitoring is required, but time consuming using conventional methods. Method and Materials: A software package was developed to run independently on the system and retrieve the integrated CT-detector and dose-chamber data. The ability to monitor daily output changes was tested by using static fields and ionization chamber(IC). To validate the link between output, cone and daily patient QA a dedicated IMRT-plan containing disjunctive targets was used and a regression model was built to check the effect variations of cone and output have on this. Results : Results show that the in-house tool can be used to monitor output and cone shape on tomotherapy in a fast and reliable way. Furthermore, the system has the ability of separating effects of output and cone in one single measurement. The static beam measurements using IC show a correspondence within 2%after elimination of the cone effect. Using a 6Dlinear regression the software can predict IMRT-ionization chamber measurements within 0.7%. Early results show that the model.s instabilities model could predict problems such as target failure prematurely. Conclusion : The in-house developed software tool based on direct detector and dose-chamber monitoring can be used to monitor output- and conevariation in 1 procedure. By using a regression the tool can also replace IMRT-QA measurements. Combined, this allows for daily QA-time reduction from 50 to 5 minutes.

Published
2008

9. Microprocessor controlled limitation system for a stand-alone freely movable treatment couch

Author

Van De Vondel, I., Coppens, L., Verellen, Dirk, Bel, A., Linthout, Nadine, De Beukeleer, M., Storme, Guy, and Medical Imaging and Physical Sciences

Subjects
Electronic Portal Imaging, computerized couch control, RADIOTHERAPY
Abstract

Because of the capability of free movement in the treatment room, we recently introduced a Hercules treatment couch on one of our linear accelerators. One of the advantages of this couch is that it allows for a more flexible way of patient setup and that it can be moved entirely out of the way to enable treatment with a hospital bed. A disadvantage, however, is that the couch can hit a wall or a cover of the accelerator accidentally. A limitation system has been developed to protect both the table and the accelerator against such collisions.

Published
1998

17. Fiducial marker and marker-less soft-tissue detection using fast MV fluoroscopy on a new generation EPID: investigating the influence of pulsing artifacts and artifact suppression techniques.

Author

Poels K, Verellen D, Van de Vondel I, El Mazghari R, Depuydt T, and De Ridder M

Subjects
Algorithms, Fourier Analysis, Humans, Lung pathology, Lung Neoplasms pathology, Motion, Phantoms, Imaging, Artifacts, Fiducial Markers, Fluoroscopy methods, Image Processing, Computer-Assisted methods
Abstract

Purpose: Because frame rates on current clinical available electronic portal imaging devices (EPID's) are limited to 7.5 Hz, a new commercially available PerkinElmer EPID (XRD 1642 AP19) with a maximum frame rate of 30 Hz and a new scintillator (Kyokko PI200) with improved sensitivity (light output) for megavolt (MV) irradiation was evaluated. In this work, the influence of MV pulse artifacts and pulsing artifact suppression techniques on fiducial marker and marker-less detection of a lung lesion was investigated, because target localization is an important component of uncertainty in geometrical verification of real-time tumor tracking., Methods: Visicoil™ markers with a diameter of 0.05 and 0.075 cm were used for MV marker tracking with a frame rate of, respectively, 7.5, 15, and 30 Hz. A 30 Hz readout of the detector was obtained by a 2 × 2 pixel binning, reducing spatial resolution. Static marker detection was conducted in function of increasing phantom thickness. Additionally, marker-less tracking was conducted and compared with the ground-truth fiducial marker motion. Performance of MV target detection was investigated by comparing the least-square sine wave fit of the detected marker positions with the predefined sine wave motion. For fiducial marker detection, a Laplacian-of-Gaussian enhancement was applied after which normalized cross correlation was used to find the most probable marker position. Marker-less detection was performed by using the scale and orientation adaptive mean shift tracking algorithm. For each MV fluoroscopy, a free running (FR-nF) (ignoring MV pulsing during readout) acquisition mode was compared with two acquisition modes intending to reduce MV pulsing artifacts, i.e., combined wavelet-FFT filtering (FR-wF) and electronic readout synchronized with respect to MV pulses., Results: A 0.05 cm Visicoil marker resulted in an unacceptable root-mean square error (RMSE) > 0.2 cm with a maximum frame rate of 30 Hz during FR-nF readout. With a 30 Hz synchronized readout (S-nF) and during 15 Hz readout (independent of readout mode), RMSE was submillimeter for a static 0.05 cm Visicoil. A dynamic 0.05 cm Visicoil was not detectable on the XRD 1642 AP19, despite a fast synchronized readout. For a 0.075 cm Visicoil, deviations of sine wave motion were submillimeter (RMSE < 0.08 cm), independent of the acquisition mode (FR, S). For marker-less tumor detection, FR-nF images resulted in RMSE > 0.3 cm, while for MV fluoroscopy in S-mode RMSE < 0.1 cm for 15 Hz and RMSE < 0.16 cm for 30 Hz. Largest consistency in target localization was experienced during 15 Hz S-nF readout., Conclusions: In general, marker contrast decreased in function of higher frame rates, which was detrimental for marker detection success. In this work, Visicoils with a thickness of 0.075 cm were showing best results for a 15 Hz frame rate, while non-MV compatible 0.05 cm Visicoil markers were not visible on the new EPID with improved sensitivity compared to EPID models based on a Kodak Lanex Fast scintillator. No noticeable influence of pulsing artifacts on the detection of a 0.075 cm Visicoil was observed, while a synchronized readout provided most reliable detection of a marker-less soft-tissue structure.

Published
2014
Full Text
View/download PDF

18. The effect of tomotherapy imaging beam output instabilities on dose calculation.

Author

Duchateau M, Tournel K, Verellen D, Van de Vondel I, Reynders T, Linthout N, Gevaert T, de Coninck P, Depuydt T, and Storme G

Subjects
Algorithms, Calibration, Dose-Response Relationship, Drug, Humans, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Phantoms, Imaging, Radiotherapy Planning, Computer-Assisted, Software, Time Factors, Water chemistry, Radiotherapy methods, Tomography methods
Abstract

A radiotherapy treatment plan is based on an anatomical 'snapshot' of the patient acquired during the preparation stage using a kVCT (kilovolt computed tomography) scanner. Anatomical changes will occur during the treatment course, in some cases requiring a new treatment plan to deliver the prescribed dose. With the introduction of 3D volumetric on-board imaging devices, it became feasible to use the produced images for dose recalculation. However, the use of these on-board imaging devices in clinical routine for the calculation of dose depends on the stability of the images. In this study the validation of tomotherapy MVCT (megavolt computed tomography) produced images, for the purpose of dose recalculation by the Planned Adaptive software, has been performed. To investigate the validity of MVCT images for dose calculation, a treatment plan was created based on kVCT-acquired images of a solid water phantom. During a period of 4 months, MVCT images of the phantom have been acquired and were used by the planned adaptive software to recalculate the initial kVCT-based dose on the MVCT images. The influence of the adapted IVDTs (image value-to-density tables) has been investigated as well as the effect of image acquisition with or without preceding airscan. Output fluctuations and/or instabilities of the imaging beam result in MV images of different quality yielding different results when used for dose calculation. It was shown that the output of the imaging beam is not stable, leading to differences of nearly 3% between the original kV-based dose and the recalculated MV-based dose, for solid water only. MVCT images can be used for dose calculation purposes bearing in mind that the output beam is liable to fluctuations. The acquisition of an IVDT together with the MVCT image set, that is going to be used for dose calculation, is highly recommended.

Published
2010
Full Text
View/download PDF

19. An in-house developed resettable MOSFET dosimeter for radiotherapy.

Author

Verellen D, Van Vaerenbergh S, Tournel K, Heuninckx K, Joris L, Duchateau M, Linthout N, Gevaert T, Reynders T, Van de Vondel I, Coppens L, Depuydt T, De Ridder M, and Storme G

Subjects
Algorithms, Calibration, Feasibility Studies, Humans, Phantoms, Imaging, Photons therapeutic use, Pilot Projects, Radiation, Ionizing, Radiometry methods, Radiotherapy Dosage, Temperature, Thermoluminescent Dosimetry, Time Factors, Water, Radiometry instrumentation, Radiotherapy instrumentation, Radiotherapy methods
Abstract

The purpose of this note is to report the feasibility and clinical validation of an in-house developed MOSFET dosimetry system and describe an integrated non-destructive reset procedure. Off-the-shelf MOSFETs are connected to a common PC using an 18 bit/analogue-input and 16 bit/output data acquisition card. A reading algorithm was developed defining the zero-temperature-coefficient point (ZTC) to determine the threshold voltage. A wireless interface was established for ease of use. The reset procedure consists of an internal circuit generating a local heating induced by an electrical current. Sensitivity has been investigated as a function of bias voltage (0-9 V) to the gate. Dosimetric properties have been evaluated for 6 MV and 15 MV clinical photon beams and in vivo benchmarking was performed against thermoluminescence dosimeters (TLD) for conventional treatments (two groups of ten patients for each energy) and total body irradiation (TBI). MOSFETS were pre-irradiated with 20 Gy. Sensitivity of 0.08 mV cGy(-1) can be obtained for 200 cGy irradiations at 5 V bias voltage. Ten consecutive measurements at 200 cGy yield a SD of 2.08 cGy (1.05%). Increasing the dose in steps from 5 cGy to 1000 cGy yields a 1.00 Pearson correlation coefficient and agreement within 2.0%. Dose rate dependence (160-800 cGy min(-1)) was within 2.5%, temperature dependence within 2.0% (25-37 degrees C). A strong angular dependence has been observed for gantry incidences exceeding +/-30 degrees C. Dose response is stable up to 50 Gy (saturation occurs at approximately 90 Gy), which is used as threshold dose before resetting the MOSFET. An average measured-over-calculated dose ratio within 1.05 (SD: 0.04) has been obtained in vivo. TBI midplane-dose assessed by entrance and exit dose measurements agreed within 1.9% with ionization chamber in phantom, and within 1.0% with TLD in vivo. An in-house developed resettable MOSFET-based dosimetry system is proposed. The system has been validated and is currently used for in vivo entrance dose measurement in clinical routine for simple (open field) treatment configurations.

Published
2010
Full Text
View/download PDF

20. Treatment delivery time optimization of respiratory gated radiation therapy by application of audio-visual feedback.

Author

Linthout N, Bral S, Van de Vondel I, Verellen D, Tournel K, Gevaert T, Duchateau M, Reynders T, and Storme G

Subjects
Dose Fractionation, Radiation, Feasibility Studies, Humans, Liver Neoplasms diagnostic imaging, Lung Neoplasms diagnostic imaging, Movement, Posture, Radiotherapy Dosage, Radiotherapy Planning, Computer-Assisted methods, Respiratory-Gated Imaging Techniques, Time Factors, Tomography, X-Ray Computed methods, Treatment Outcome, Audiovisual Aids, Feedback, Liver Neoplasms surgery, Lung Neoplasms surgery, Radiosurgery instrumentation, Radiosurgery methods, Radiotherapy, Computer-Assisted instrumentation, Radiotherapy, Computer-Assisted methods
Abstract

Purpose: The feasibility to use visually guided voluntary breath-hold with and without audio assistance to reduce the total treatment time was evaluated., Materials and Methods: Patients referred for gated SBRT received hypofractionation schedules for lung or liver treatments. The patients were treated with the Novalis system (BrainLAB AG, Feldkirchen, Germany) and IGRT was performed with ExacTrac5.0/NovalisBody allowing gated irradiation. Video glasses, used for visual feedback to guide voluntary breath-hold, allowed additional audio assistance during treatment. The technique was applied for 25 patients of whom 9 were treated in free breathing, 7 had only visual feedback and another 9 had both audio and visual feedback., Results: The delivery time of gated treatment during free breathing had an average value of 1.7 min/100 MU (SD 0.6 min/100 MU). The introduction of visual feedback reduced the average delivery time to 1.4 min/100 MU (SD 0.4 min/100 MU). The treatments with additional audio assistance indicated a significant reduction (p=0.004) of the average delivery time to 0.9 min/100 MU (SD 0.2 min/100 MU)., Conclusion: The introduction of visually guided voluntary breath-hold with audio assistance led to treatment times for gated radiation therapy approaching conformal beam delivery times, which made gated treatments applicable in conventional treatment time slots.

Published
2009
Full Text
View/download PDF

21. Assessment of the acceptability of the Elekta multileaf collimator (MLC) within the Corvus planning system for static and dynamic delivery of intensity modulated beams (IMBs).

Author

Linthout N, Verellen D, Van Acker S, Van de Vondel I, Coppens L, and Storme G

Subjects
Radiotherapy Planning, Computer-Assisted instrumentation, Radiotherapy, Conformal instrumentation, Software, Radiotherapy Planning, Computer-Assisted methods, Radiotherapy, Conformal methods
Abstract

The sliding window technique used for static and dynamic segmentation of intensity modulated beams is evaluated. Dynamic delivery is preferred since the resulting distributions correspond better with the calculated distributions, the treatment beam is used more efficiently and the delivery is less sensitive to small variations in the accuracy of the multileaf collimator (MLC).

Published
2002
Full Text
View/download PDF

22. Remote control for a stand-alone freely movable treatment couch with limitation system.

Author

Van de Vondel I, Coppens L, Verellen D, Linthout N, Van Acker S, and Storme G

Subjects
Algorithms, Biophysical Phenomena, Biophysics, Equipment Design, Particle Accelerators instrumentation, Radiotherapy instrumentation
Abstract

One of our linear accelerators is equipped with a free-movable treatment couch. An additional projects was to develop a system that first protects the free-movable couch against collisions, secondly build a remote control for moving the couch from outside the treatment room and finally implement this remote control/limitation system in an automatic position algorithm using an electronic portal image. The latter has been the subject of an on-going departmental investigation on intra-fractional correction of set-up errors. A few years ago, we developed a limitation system to protect both the table and the accelerator against collisions. In this paper we describe the second part of this project, the remote control system.

Published
2001
Full Text
View/download PDF

23. Microprocessor controlled limitation system for a stand-alone freely movable treatment couch.

Author

Van de Vondel I, Coppens L, Verellen D, Bel A, Linthout N, De Beukeleer M, Van den Berge D, and Storme G

Subjects
Algorithms, Beds, Biophysical Phenomena, Biophysics, Humans, Microcomputers, Motion, Neoplasms radiotherapy, Particle Accelerators instrumentation, Particle Accelerators statistics & numerical data
Abstract

Because of the capability of free movement in the treatment room, we recently introduced a Hercules treatment couch on one of our linear accelerators. One of the advantages of this couch is that it allows for a more flexible way of patient setup and that it can be moved entirely out of the way to enable treatment with a hospital bed. A disadvantage, however, is that the couch can hit a wall or a cover of the accelerator accidentally. A limitation system has been developed to protect both the table and the accelerator against such collisions.

Published
1998
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results