Sébastien Jan scite author profile

In this paper, the authors' review the applicability of the open-source GATE Monte Carlo simulation platform based on the GEANT4 toolkit for radiation therapy and dosimetry applications. The many applications of GATE for state-of-the-art radiotherapy simulations are described including external beam radiotherapy, brachytherapy, intraoperative radiotherapy, hadrontherapy, molecular radiotherapy, and in vivo dose monitoring. Investigations that have been performed using GEANT4 only are also mentioned to illustrate the potential of GATE. The very practical feature of GATE making it easy to model both a treatment and an imaging acquisition within the same framework is emphasized. The computational times associated with several applications are provided to illustrate the practical feasibility of the simulations using current computing facilities.

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Comparison of Eight Methods for the Estimation of the Image-Derived Input Function in Dynamic [¹⁸F]-FDG PET Human Brain Studies

Zanotti‐Fregonara

Fadaili

Maroy

et al. 2009

J Cereb Blood Flow Metab

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The aim of this study was to compare eight methods for the estimation of the image-derived input function (IDIF) in [ 18 F]-FDG positron emission tomography (PET) dynamic brain studies. The methods were tested on two digital phantoms and on four healthy volunteers. Image-derived input functions obtained with each method were compared with the reference input functions, that is, the activity in the carotid labels of the phantoms and arterial blood samples for the volunteers, in terms of visual inspection, areas under the curve, cerebral metabolic rates of glucose (CMRglc), and individual rate constants. Blood-sample-free methods provided less reliable results as compared with those obtained using the methods that require the use of blood samples. For some of the bloodsample-free methods, CMRglc estimations considerably improved when the IDIF was calibrated with a single blood sample. Only one of the methods tested in this study, and only in phantom studies, allowed a reliable calculation of the individual rate constants. For the estimation of CMRglc values using an IDIF in [ 18 F]-FDG PET brain studies, a reliable absolute blood-sample-free procedure is not available yet.

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Advanced Monte Carlo simulations of emission tomography imaging systems with GATE

et al. 2021

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Built on top of the Geant4 toolkit, GATE is collaboratively developed for more than 15 years to design Monte Carlo simulations of nuclear-based imaging systems. It is, in particular, used by researchers and industrials to design, optimize, understand and create innovative emission tomography systems. In this paper, we reviewed the recent developments that have been proposed to simulate modern detectors and provide a comprehensive report on imaging systems that have been simulated and evaluated in GATE. Additionally, some methodological developments that are not specific for imaging but that can improve detector modeling and provide computation time gains, such as Variance Reduction Techniques and Artificial Intelligence integration, are described and discussed.

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Sébastien Jan

A review of the use and potential of the GATE Monte Carlo simulation code for radiation therapy and dosimetry applications

Comparison of Eight Methods for the Estimation of the Image-Derived Input Function in Dynamic [¹⁸F]-FDG PET Human Brain Studies

Advanced Monte Carlo simulations of emission tomography imaging systems with GATE

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Sébastien Jan

A review of the use and potential of the GATE Monte Carlo simulation code for radiation therapy and dosimetry applications

Comparison of Eight Methods for the Estimation of the Image-Derived Input Function in Dynamic [18F]-FDG PET Human Brain Studies

Advanced Monte Carlo simulations of emission tomography imaging systems with GATE

Contact Info

Product

Resources

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Comparison of Eight Methods for the Estimation of the Image-Derived Input Function in Dynamic [¹⁸F]-FDG PET Human Brain Studies