Biomedical data modelling system supporting pre-operational planning (Q122690): Difference between revisions

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(‎Removed claim: summary (P836): The project focuses on research and development to develop innovative software to enable doctors and biomedical engineers to visualise the health data visualisation, to convert a two-dimensional medical image in the form of DICOM collections to high quality three-dimensional objects (virtual patient models) reflecting the patient’s chosen anatomy, followed by further modelling for exports in a comprehensible format for 3D printers. The work wi...)
(‎Created claim: summary (P836): The subject of the project is to conduct research and development work aimed at developing innovative software enabling physicians and biomedical engineers to photorealistic three-dimensional visualisation of medical data, converting two-dimensional medical images in the form of DICOM sets to high-quality three-dimensional objects (virtual patient models) reflecting the patient’s chosen anatomy, and then further modelling them to export to a for...)
Property / summary
 
The subject of the project is to conduct research and development work aimed at developing innovative software enabling physicians and biomedical engineers to photorealistic three-dimensional visualisation of medical data, converting two-dimensional medical images in the form of DICOM sets to high-quality three-dimensional objects (virtual patient models) reflecting the patient’s chosen anatomy, and then further modelling them to export to a format understandable to 3D printers. The work will include research on methods of converting two-dimensional medical images into 3D objects, with particular emphasis on segmentation algorithms. Methods of three-dimensional modelling of the patient’s anatomical structures and tools for virtual planning of operations will be developed and implemented. The software will also allow the export of obtained 3D models to a form that allows them to be physically manufactured using 3D printing technology. (English)
Property / summary: The subject of the project is to conduct research and development work aimed at developing innovative software enabling physicians and biomedical engineers to photorealistic three-dimensional visualisation of medical data, converting two-dimensional medical images in the form of DICOM sets to high-quality three-dimensional objects (virtual patient models) reflecting the patient’s chosen anatomy, and then further modelling them to export to a format understandable to 3D printers. The work will include research on methods of converting two-dimensional medical images into 3D objects, with particular emphasis on segmentation algorithms. Methods of three-dimensional modelling of the patient’s anatomical structures and tools for virtual planning of operations will be developed and implemented. The software will also allow the export of obtained 3D models to a form that allows them to be physically manufactured using 3D printing technology. (English) / rank
 
Normal rank
Property / summary: The subject of the project is to conduct research and development work aimed at developing innovative software enabling physicians and biomedical engineers to photorealistic three-dimensional visualisation of medical data, converting two-dimensional medical images in the form of DICOM sets to high-quality three-dimensional objects (virtual patient models) reflecting the patient’s chosen anatomy, and then further modelling them to export to a format understandable to 3D printers. The work will include research on methods of converting two-dimensional medical images into 3D objects, with particular emphasis on segmentation algorithms. Methods of three-dimensional modelling of the patient’s anatomical structures and tools for virtual planning of operations will be developed and implemented. The software will also allow the export of obtained 3D models to a form that allows them to be physically manufactured using 3D printing technology. (English) / qualifier
 
point in time: 21 October 2020
Timestamp+2020-10-21T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 10:08, 21 October 2020

Project in Poland financed by DG Regio
Language Label Description Also known as
English
Biomedical data modelling system supporting pre-operational planning
Project in Poland financed by DG Regio

    Statements

    country
    Poland
    0 references
    EU contribution
    949,338.17 zloty
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    227,841.16 Euro
    exchange rate to Euro
    0.24 Euro
    point in time
    13 January 2020
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    budget
    1,217,861.9 zloty
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    292,286.86 Euro
    exchange rate to Euro
    0.24 Euro
    point in time
    13 January 2020
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    co-financing rate
    77.95 percent
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    start time
    1 February 2019
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    end time
    30 September 2020
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    beneficiary name (string)
    SMART LABS SPÓŁKA Z OGRANICZONĄ ODPOWIEDZIALNOŚCIĄ
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    beneficiary
    Q2531670
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    summary
    Przedmiotem projektu jest prowadzenie prac badawczo-rozwojowych mających na celu powstanie innowacyjnego oprogramowania umożliwiającego lekarzom oraz inżynierom biomedycznym fotorealistyczną trójwymiarową wizualizację danych medycznych, konwersję dwuwymiarowych obrazów medycznych w postaci zbiorów DICOM do wysokiej jakości trójwymiarowych obiektów (wirtualnych modeli pacjentów) odzwierciedlających wybraną anatomię pacjenta, a następnie ich dalsze modelowanie w celu eksportu do formatu zrozumiałego dla drukarek 3D. Prace obejmować będą badania nad metodami konwersji dwuwymiarowych obrazów medycznych do postaci obiektów 3D, ze szczególnym uwzględnieniem algorytmów segmentacji. Wypracowane i zaimplementowane zostaną metody trójwymiarowego modelowania struktur anatomicznych pacjenta oraz narzędzia do wirtualnego planowania operacji. Oprogramowanie umożliwi także eksport uzyskanych modeli 3D do postaci umożliwiającej ich fizyczne wytworzenie z wykorzystaniem technologii druku 3D. (Polish)
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    The subject of the project is to conduct research and development work aimed at developing innovative software enabling physicians and biomedical engineers to photorealistic three-dimensional visualisation of medical data, converting two-dimensional medical images in the form of DICOM sets to high-quality three-dimensional objects (virtual patient models) reflecting the patient’s chosen anatomy, and then further modelling them to export to a format understandable to 3D printers. The work will include research on methods of converting two-dimensional medical images into 3D objects, with particular emphasis on segmentation algorithms. Methods of three-dimensional modelling of the patient’s anatomical structures and tools for virtual planning of operations will be developed and implemented. The software will also allow the export of obtained 3D models to a form that allows them to be physically manufactured using 3D printing technology. (English)
    point in time
    21 October 2020
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    Identifiers

    Polish Kohesio ID
    RPSL.01.02.00-24-033E/18
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