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RU2011121036A - SIMULATOR FOR DEVELOPMENT OF INTERVENTIONAL METHODS FOR DIAGNOSTIC AND TREATMENT OF HEART VASCULAR DISEASES - Google Patents

SIMULATOR FOR DEVELOPMENT OF INTERVENTIONAL METHODS FOR DIAGNOSTIC AND TREATMENT OF HEART VASCULAR DISEASES Download PDF

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RU2011121036A
RU2011121036A RU2011121036/14A RU2011121036A RU2011121036A RU 2011121036 A RU2011121036 A RU 2011121036A RU 2011121036/14 A RU2011121036/14 A RU 2011121036/14A RU 2011121036 A RU2011121036 A RU 2011121036A RU 2011121036 A RU2011121036 A RU 2011121036A
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Russia
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unit
hardware
heart
vessels
geometric
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RU2011121036/14A
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Russian (ru)
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RU2474883C1 (en
Inventor
Евгений Иванович Артамонов
Андрей Валерьевич Балабанов
Владимир Александрович Ромакин
Константин Андреевич Савельев
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Учреждение Российской академии наук Институт проблем управления им. В.А. Трапезникова РАН
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Priority to RU2011121036/14A priority Critical patent/RU2474883C1/en
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Abstract

Тренажер для освоения интервенционных методов диагностики и лечения заболеваний сосудов сердца, характеризующийся тем, что содержит аппаратный блок (АБ) с двумя датчиками фиксации линейного перемещения катетера и тросика со сменными инструментами и программную часть с блоками: сопряжения с аппаратной частью (БС), объемной геометрической (3D) модели сосудов сердца (B3D), базы данных 3D - моделей сосудов сердца пациентов (БД), базы данных результатов компьютерной томографии сосудов сердца пациентов (БДКТ), преобразования форматов данных компьютерной томографии сосудов сердца пациентов в формат 3D - модели (БПРКТ), геометрических преобразований 3D - модели (БПРЗО) и отображения процесса проведения операции (БО), причем блок B3D по одному входу соединен через блок сопряжения БС с аппаратным блоком АБ, а по другому входу соединен с блоком БД, к которому подключен блок БДКТ через блок преобразования форматов данных БПРКТ, выход блока геометрических преобразований БПРЗО соединен с блоком БО отображения процесса проведения операции.A simulator for the development of interventional methods for diagnosing and treating heart vessel diseases, characterized in that it contains a hardware unit (AB) with two sensors for fixing the linear displacement of the catheter and cable with interchangeable instruments and a software part with blocks: interfacing with the hardware (BS), volumetric geometric (3D) models of heart vessels (B3D), a database of 3D models of patients 'heart vessels (DB), a database of computed tomography of patients' blood vessels (CT), conversion of computer data formats X-ray tomography of the patient’s blood vessels into the 3D-model format (BPRKT), 3D-model geometric transformations (BPRZO) and the operation process display (BO), moreover, the B3D unit is connected via one input via the BS interface unit to the AB hardware unit, and on the other the input is connected to the DB unit, to which the DBKT unit is connected via the BPRKT data format conversion unit, the output of the BPRZO geometric transformation unit is connected to the BO unit for displaying the operation process.

Claims (1)

Тренажер для освоения интервенционных методов диагностики и лечения заболеваний сосудов сердца, характеризующийся тем, что содержит аппаратный блок (АБ) с двумя датчиками фиксации линейного перемещения катетера и тросика со сменными инструментами и программную часть с блоками: сопряжения с аппаратной частью (БС), объемной геометрической (3D) модели сосудов сердца (B3D), базы данных 3D - моделей сосудов сердца пациентов (БД), базы данных результатов компьютерной томографии сосудов сердца пациентов (БДКТ), преобразования форматов данных компьютерной томографии сосудов сердца пациентов в формат 3D - модели (БПРКТ), геометрических преобразований 3D - модели (БПРЗО) и отображения процесса проведения операции (БО), причем блок B3D по одному входу соединен через блок сопряжения БС с аппаратным блоком АБ, а по другому входу соединен с блоком БД, к которому подключен блок БДКТ через блок преобразования форматов данных БПРКТ, выход блока геометрических преобразований БПРЗО соединен с блоком БО отображения процесса проведения операции. A simulator for the development of interventional methods for diagnosing and treating heart vessel diseases, characterized in that it contains a hardware unit (AB) with two sensors for fixing the linear displacement of the catheter and cable with interchangeable instruments and a software part with blocks: interfacing with the hardware (BS), volumetric geometric (3D) models of heart vessels (B3D), a database of 3D models of patients 'heart vessels (DB), a database of computed tomography of patients' blood vessels (CT), conversion of computer data formats X-ray tomography of the patient’s blood vessels into the 3D-model format (BPRKT), 3D-model geometric transformations (BPRZO) and the operation process display (BO), moreover, the B3D unit is connected via one input via the BS interface unit to the AB hardware unit, and on the other the input is connected to the DB unit, to which the DBKT unit is connected via the BPRKT data format conversion unit, the output of the BPRZO geometric transformation unit is connected to the BO unit for displaying the operation process.
RU2011121036/14A 2011-05-26 2011-05-26 Training apparatus for assimilation of intervention diagnostic techniques and methods of treating of cardiovascular diseases RU2474883C1 (en)

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RU2011121036/14A RU2474883C1 (en) 2011-05-26 2011-05-26 Training apparatus for assimilation of intervention diagnostic techniques and methods of treating of cardiovascular diseases

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RU2011121036/14A RU2474883C1 (en) 2011-05-26 2011-05-26 Training apparatus for assimilation of intervention diagnostic techniques and methods of treating of cardiovascular diseases

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU187284U1 (en) * 2018-03-15 2019-02-28 Александр Викторович Никольский Educational anatomical model of the human heart

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* Cited by examiner, † Cited by third party
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RU2766757C1 (en) * 2021-04-22 2022-03-15 Иван Николаевич Кулешов Medical simulator for practicing the skills of performing endovascular interventions

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JPS6131434A (en) * 1984-07-24 1986-02-13 Japan Exlan Co Ltd Emulsion for modifying inorganic molded article and preparation thereof
SU1347090A1 (en) * 1985-04-26 1987-10-23 Всесоюзный научный центр хирургии Device for simulating circulatory system of anatomical organs
DE19841248A1 (en) * 1997-09-12 1999-04-29 Fraunhofer Ges Forschung Demonstration model formed as living organism
EP1903537A3 (en) * 2005-07-20 2008-06-11 Richstone Consulting LLC A system and a method for simulating a manual interventional operation by a user in a medical procedure
US20070134637A1 (en) * 2005-12-08 2007-06-14 Simbionix Ltd. Medical simulation device with motion detector

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU187284U1 (en) * 2018-03-15 2019-02-28 Александр Викторович Никольский Educational anatomical model of the human heart

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Effective date: 20180527