Radiation therapy radionuclide phantom (Q84022): Difference between revisions

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(‎Removed claim: summary (P836): The project aims at the design and construction of a phantom, capable of accurate and automated determination of the geometric geometry of conventional medical linear accelerators and the medical therapeutic simulators used in cancer therapy.As a result of the project, an IT system will also be developed for the analysis of data extracted during the performance testing of the fan phantom and the design of operational tests for the sodonability...)
(‎Created claim: summary (P836): The aim of the project is to design and build a phantom, using which it will be possible to accurately and automate the geometry of conventional medical linear accelerators and medical therapeutic simulators used in cancer therapy. As a result of the project, there will also be an IT system for analysing phantom image data obtained during the performance of operational tests and for designing in-service tests with defined accuracy. The set of te...)
Property / summary
 
The aim of the project is to design and build a phantom, using which it will be possible to accurately and automate the geometry of conventional medical linear accelerators and medical therapeutic simulators used in cancer therapy. As a result of the project, there will also be an IT system for analysing phantom image data obtained during the performance of operational tests and for designing in-service tests with defined accuracy. The set of tests to be performed using phantom and information system corresponds to the scope required by applicable legislation in the field of operational testing of radiological equipment used in teleradiotherapy (Regulation of the Minister of Health, Journal of Laws, 4.12.2015, item. 2040. Using phantom and information system, it will be possible to evaluate the position of the isocentrum of the radiation field, mechanical isocentrum and isocentrum of the imaging system, with the precise and precise assumptions about the geometry of the radiological device. In addition, it will also be possible to assess the precision of therapeutic table movement, table rotation, gantress and collimator, as well as evaluation of optical elements (laser centers, light simulation field, telemeter). The project’s mechatronic phantom base will allow precise and automated positioning of the phantom in space to recalibrate individual elements of the therapeutic device and correct the mechanical systems of the radiological device. (English)
Property / summary: The aim of the project is to design and build a phantom, using which it will be possible to accurately and automate the geometry of conventional medical linear accelerators and medical therapeutic simulators used in cancer therapy. As a result of the project, there will also be an IT system for analysing phantom image data obtained during the performance of operational tests and for designing in-service tests with defined accuracy. The set of tests to be performed using phantom and information system corresponds to the scope required by applicable legislation in the field of operational testing of radiological equipment used in teleradiotherapy (Regulation of the Minister of Health, Journal of Laws, 4.12.2015, item. 2040. Using phantom and information system, it will be possible to evaluate the position of the isocentrum of the radiation field, mechanical isocentrum and isocentrum of the imaging system, with the precise and precise assumptions about the geometry of the radiological device. In addition, it will also be possible to assess the precision of therapeutic table movement, table rotation, gantress and collimator, as well as evaluation of optical elements (laser centers, light simulation field, telemeter). The project’s mechatronic phantom base will allow precise and automated positioning of the phantom in space to recalibrate individual elements of the therapeutic device and correct the mechanical systems of the radiological device. (English) / rank
 
Normal rank
Property / summary: The aim of the project is to design and build a phantom, using which it will be possible to accurately and automate the geometry of conventional medical linear accelerators and medical therapeutic simulators used in cancer therapy. As a result of the project, there will also be an IT system for analysing phantom image data obtained during the performance of operational tests and for designing in-service tests with defined accuracy. The set of tests to be performed using phantom and information system corresponds to the scope required by applicable legislation in the field of operational testing of radiological equipment used in teleradiotherapy (Regulation of the Minister of Health, Journal of Laws, 4.12.2015, item. 2040. Using phantom and information system, it will be possible to evaluate the position of the isocentrum of the radiation field, mechanical isocentrum and isocentrum of the imaging system, with the precise and precise assumptions about the geometry of the radiological device. In addition, it will also be possible to assess the precision of therapeutic table movement, table rotation, gantress and collimator, as well as evaluation of optical elements (laser centers, light simulation field, telemeter). The project’s mechatronic phantom base will allow precise and automated positioning of the phantom in space to recalibrate individual elements of the therapeutic device and correct the mechanical systems of the radiological device. (English) / qualifier
 
point in time: 14 October 2020
Timestamp+2020-10-14T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 14:27, 14 October 2020

Project in Poland financed by DG Regio
Language Label Description Also known as
English
Radiation therapy radionuclide phantom
Project in Poland financed by DG Regio

    Statements

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    2,836,336.75 zloty
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    680,720.82 Euro
    13 January 2020
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    4,578,246.0 zloty
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    1,098,779.04 Euro
    13 January 2020
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    61.95 percent
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    1 October 2017
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    30 September 2020
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    POLITECHNIKA KRAKOWSKA IM. TADEUSZA KOŚCIUSZKI - AKADEMICKI INKUBATOR PRZEDSIĘBIORCZOŚCI
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    Celem projektu jest zaprojektowanie i zbudowanie fantomu, przy użyciu którego możliwe będzie precyzyjne i zautomatyzowane określenie geometrii konwencjonalnych medycznych akceleratorów liniowych oraz medycznych symulatorów terapeutycznych stosowanych w terapii chorób nowotworowych. W wyniku realizacji projektu powstanie również system informatyczny do analizy danych obrazowych fantomu uzyskanych w trakcie przeprowadzania testów eksploatacyjnych oraz do projektowania testów eksploatacyjnych o zadanej sokładności. Zestaw testów, które będą wykonywane przy użyciu fantomu i systemu informatycznego odpowiada zakresowi wymaganemu przez obowiązujące prawodawstwo w zakresie testów eksploatacyjnych urządzeń radiologicznych stosowanych w teleradioterapii (Rozporządzeniu Ministra Zdrowia, Dziennik Ustaw, 4.12.2015, poz. 2040). Przy użyciu fantomu i systemu informatycznego możliwa będzie zautomatyzowana, precyzyjna i wolna od założeń o geometrii testowanego urządzenia radiologicznego ocena położenia izocentrum pola promieniowania, izocentrum mechanicznego oraz izocentrum układu obrazującego. Ponadto możliwa będzie również ocena precyzji przesuwu stołu terapeutycznego, obrotów stołu, gantry i kolimatora oraz ocena elementów optycznych (centratory laserowe, pole symulacji świetlnej, telemetr). Zaprojektowana w ramach projektu mechatroniczna podstawa fantomu umożliwi precyzyjne i zautomatyzowane pozycjonowanie fantomu w przestrzeni w celu rekalibracji poszczególnych elementów urządzenia terapeutycznego i korekcji układów mechanicznych urządzenia radiologicznego. (Polish)
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    The aim of the project is to design and build a phantom, using which it will be possible to accurately and automate the geometry of conventional medical linear accelerators and medical therapeutic simulators used in cancer therapy. As a result of the project, there will also be an IT system for analysing phantom image data obtained during the performance of operational tests and for designing in-service tests with defined accuracy. The set of tests to be performed using phantom and information system corresponds to the scope required by applicable legislation in the field of operational testing of radiological equipment used in teleradiotherapy (Regulation of the Minister of Health, Journal of Laws, 4.12.2015, item. 2040. Using phantom and information system, it will be possible to evaluate the position of the isocentrum of the radiation field, mechanical isocentrum and isocentrum of the imaging system, with the precise and precise assumptions about the geometry of the radiological device. In addition, it will also be possible to assess the precision of therapeutic table movement, table rotation, gantress and collimator, as well as evaluation of optical elements (laser centers, light simulation field, telemeter). The project’s mechatronic phantom base will allow precise and automated positioning of the phantom in space to recalibrate individual elements of the therapeutic device and correct the mechanical systems of the radiological device. (English)
    14 October 2020
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    Identifiers

    POIR.04.01.04-00-0014/16
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