BrachyView, a novel in-body imaging system for HDR prostate brachytherapy: Experimental evaluation.

PURPOSE This paper presents initial experimental results from a prototype of high dose rate (HDR) BrachyView, a novel in-body source tracking system for HDR brachytherapy based on a multipinhole tungsten collimator and a high resolution pixellated silicon detector array. The probe and its associated position estimation algorithms are validated and a comprehensive evaluation of the accuracy of its position estimation capabilities is presented. METHODS The HDR brachytherapy source is moved through a sequence of positions in a prostate phantom, for various displacements in x, y, and z. For each position, multiple image acquisitions are performed, and source positions are reconstructed. Error estimates in each dimension are calculated at each source position and combined to calculate overall positioning errors. Gafchromic film is used to validate the accuracy of source placement within the phantom. RESULTS More than 90% of evaluated source positions were estimated with an error of less than one millimeter, with the worst-case error being 1.3 mm. Experimental results were in close agreement with previously published Monte Carlo simulation results. CONCLUSIONS The prototype of HDR BrachyView demonstrates a satisfactory level of accuracy in its source position estimation, and additional improvements are achievable with further refinement of HDR BrachyView's image processing algorithms.

[1]  M. Zaider,et al.  Radiation dose enhancement at tissue-tungsten interfaces in HDR brachytherapy , 2014, Physics in medicine and biology.

[2]  A. Rosenfeld,et al.  Measurement of Rectal Dose during HDR Brachytherapy using the new MOSkin Dosimeter , 2008 .

[3]  M Safavi-Naeini,et al.  BrachyView: proof-of-principle of a novel in-body gamma camera for low dose-rate prostate brachytherapy. , 2013, Medical physics.

[4]  M Petasecca,et al.  The evaluation of a 2D diode array in "magic phantom" for use in high dose rate brachytherapy pretreatment quality assurance. , 2015, Medical physics.

[5]  M. Petasecca,et al.  The evaluation of a 2D diode array in “magic phantom” for use in high dose rate brachytherapy pretreatment quality assurance. , 2015, Medical physics.

[6]  J. Lambert,et al.  A fibre optic dosimeter customised for brachytherapy , 2007 .

[7]  J. Duan,et al.  Real-time monitoring and verification of in vivo high dose rate brachytherapy using a pinhole camera. , 2001, Medical physics.

[8]  P. Hoskin,et al.  Brachytherapy: current status and future strategies -- can high dose rate replace low dose rate and external beam radiotherapy? , 2013, Clinical oncology (Royal College of Radiologists (Great Britain)).

[9]  M Petasecca,et al.  The feasibility study and characterization of a two-dimensional diode array in "magic phantom" for high dose rate brachytherapy quality assurance. , 2013, Medical physics.

[10]  Rafael Ballabriga,et al.  Timepix, a 65k programmable pixel readout chip for arrival time, energy and/or photon counting measurements , 2007 .

[11]  V. Cindro,et al.  Verification of High Dose Rate $^{192}$Ir Source Position During Brachytherapy Treatment Using Silicon Pixel Detectors , 2011, IEEE Transactions on Nuclear Science.

[12]  P. Pittet,et al.  Implementation of GaN based real-time source position monitoring in HDR brachytherapy , 2014 .

[13]  Marco Zaider,et al.  BrachyView: Feasibility study into the application of Timepix detectors for soft tissue thickness imaging in prostate brachytherapy treatment , 2014 .

[14]  P. Metcalfe,et al.  In vivo real-time dosimetric verification in high dose rate prostate brachytherapy. , 2011, Medical physics.

[15]  T. Pisansky,et al.  Dosimetric effect of interfractional needle displacement in prostate high-dose-rate brachytherapy. , 2009, Brachytherapy.

[16]  J. Bowsher,et al.  Tracking brachytherapy sources using emission imaging with one flat panel detector. , 2009, Medical physics.

[17]  M. Butson,et al.  Skin dosimetry with new MOSFET detectors , 2008 .

[18]  J. Lambert,et al.  In vivo dosimeters for HDR brachytherapy: a comparison of a diamond detector, MOSFET, TLD, and scintillation detector. , 2007, Medical physics.

[19]  S. Aisen,et al.  [High dose rate brachytherapy]. , 1992, Revista do Hospital das Clinicas.

[20]  Martin Ebert,et al.  A small tolerance for catheter displacement in high-dose rate prostate brachytherapy is necessary and feasible. , 2010, International journal of radiation oncology, biology, physics.

[21]  M. Petasecca,et al.  TRUS-probe integrated MOSkin detectors for rectal wall in vivo dosimetry in HDR brachytherapy: In phantom feasibility study , 2014 .

[22]  G. Morton,et al.  High-dose-rate brachytherapy boost for prostate cancer: rationale and technique , 2014, Journal of contemporary brachytherapy.

[23]  Kari Tanderup,et al.  Identifying afterloading PDR and HDR brachytherapy errors using real-time fiber-coupled Al(2)O(3):C dosimetry and a novel statistical error decision criterion. , 2011, Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology.

[24]  G. Hellawell,et al.  High dose rate prostate brachytherapy: an overview of the rationale, experience and emerging applications in the treatment of prostate cancer. , 2012, The British journal of radiology.

[25]  A. Rosenfeld,et al.  In vivo dosimetry: trends and prospects for brachytherapy. , 2014, The British journal of radiology.

[26]  Kari Tanderup,et al.  In vivo dosimetry in brachytherapy. , 2013, Medical physics.

[27]  M Safavi-Naeini,et al.  BrachyView, a novel inbody imaging system for HDR prostate brachytherapy: design and Monte Carlo feasibility study. , 2013, Medical physics.

[28]  Kari Tanderup,et al.  Stem signal suppression in fiber-coupled Al2O3:C dosimetry for 192Ir brachytherapy , 2011 .

[29]  Anatoly Rosenfeld,et al.  Verification of the plan dosimetry for high dose rate brachytherapy using metal-oxide-semiconductor field effect transistor detectors. , 2007, Medical physics.

[30]  Song Gao,et al.  High-dose-rate remote afterloaders for intraoperative radiation therapy. , 2007, AORN journal.

[31]  J. Lambert,et al.  Dose mapping of the rectal wall during brachytherapy with an array of scintillation dosimeters. , 2010, Medical physics.