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Medical Data Rendering in Real-Time
Lengyel, Kristián ; Havel, Jiří (referee) ; Jošth, Radovan (advisor)
This thesis deals with design and implementation of an application for medical data imaging in real-time. The first part of project is focused on methods for obtaining data in medical practice and visualization of large volume data on computer using familiar rendering approaches. Similar applications are used outside of medicine in other fields, such as chemistry to display molecular structures or microorganisms. Another part of project will focus on benefits of visualization of volumetric data using programmable hardware and new methods of parallelization of algorithms on graphics card using CUDA technology, and OpenCL. The resulting application will display the volume of medical data based on selected method accelerated by programmable shaders, and time-consuming operations will be paralleled on graphics card.
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Estimation of average doses of the population of the Czech Republic from medical sources
ŠÍPOVÁ, Aneta
The intention of my diploma thesis was estimate the effective doses from different examinations in the area of the nuclear medicine and radiodiagnosis and find out what numbers are of the examinations in the Czech republic. In the theoretical part I worked with the professional literature, the applicable legal regulations and the internet links. The diploma thesis on the topic "Estimation of average doses of the population of the Czech republic from medical sources" is partition to the two parts. The introductory part of the theoretical work is dedicated to the importance of medical radiation within radiological methods and to the brief description the whole thesis. In the other part od the thesis are summarized the informations about the ionizing radiation - about his history, species, sources, interactions with the environment and biological effects on the organism. In the other part of the thesis which is devoted to radiation protection is listed the basic czech legislation which relates on the given topic. Further are in this thesis within the radiation protection listed her objectives, conception, principles, radiation protection methods, radiation monitoring and basic monitored quantities which are important in terms of the radiation protection. In the last part of the theoretical thesis is listed the medical radiation and his possibilities of use in the medical. In this thesis were to established three objectives. The first objective was to estimate the average effective doses in various examinations in the nuclear medicine and the radiodiagnosis. For selected examinations was calculated the average effective dose for patients who underwent the selected examination in January 2022. In the framework of nuclear medicine, it was an skeletal scintigraphy (96 patients), myocardial perfusion scintigraphy (51 patients), perfusion and ventilation lung scintigraphy (166 patients) and dynamic renal scintigraphy (12 patients). The results of these examinations were compared with data listed in UNSCEAR Report 2020/2021. In the famework of the radiodiagnosis, it was an CT brain natively (226 patients), abdominal CT natively (91 patients), CT chest native (33 patients) and CT of the lumbrar spine natively (46 patients). The results of these examinations were compared with data listed in UNSCEAR Report 2020/2021 and the results listed in the document "Medical radiation assessment" released by the SÚJB in the year 2021. The second objective was to find out how are numbers of examinations mentioned above in Czech republic. For this purpose I was provided with data from ÚZIS. Within this objective were estimated the collective effective doses. The third objective was estimated the relative probability of emergence of stochastic effects (the cancer). For this purpose was used the program named X-ray risk.
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CMP (STROKE) - ALGORITHM OF EXAMINATION METHODS
MACKOVÁ, Pavlína
The bachelor thesis on CMP (stroke) - algorithm of examination methods deals with the disease of stroke, its definition, methods of examination, possible treatment and students' knowledge about this disease. The main objective of this study was to learn about the algorithm of examination methods in stroke and to find out the awareness of the respondents about this topic. The research question was: What is the awareness of the respondents about the process of examination and diagnosis of CMP? The thesis is divided into a theoretical section and a practical section. The first part focuses on the current state. Here the vascular supply to the brain, stroke, algorithm of examination methods and treatment of stroke are covered. Overall, the thesis is divided into six main chapters. The practical part deals with the questionnaire survey. The research purpose of this thesis was fulfilled by means of a questionnaire survey among Radiology Assisting students and Public Protection students with a focus on CBRNE. The questionnaire developed was the same for both groups of students. It was a standardized questionnaire with a choice of one answer each time. The resulting answers were then evaluated in clear graphs. The results of the conducted survey can offer us students' perspectives on anatomical knowledge of the brain, basic information about stroke, selected types of stroke examinations and stroke treatment. In addition, results from Radiology Assisting students and results from Public Protection students with a CBRNE focus can be compared to each other. The results can show us where students make the most mistakes and what information they know instead. Thus, the work can serve as a study material for students of all medical disciplines.
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Application of finite element method to real problems in hemodynamics.
Švihlová, Helena ; Hron, Jaroslav (advisor) ; Dolejší, Vít (referee)
The incompressible fluid flow around the geometries of cerebral artery aneurysms is studied in this thesis. The aneurysm is a local extension of a vessel. This disease is dangerous only in the case of rupture. Then the blood is released into the brain. The need of accurate computation of the velocity and pressure fields in this geometries is motivated exactly by the question which aneurysm has tendency to rupture. The finite element method (FEM) is used for the computation of the flow. A good domain discretization is one of the main step in FEM. Modern computed tomography is able to produce series of the two- dimensional images and it is necessary to create an appropriate three-dimensional model of the tissue. This thesis includes the description of the mesh generation and the ways to smooth and improve the meshes. In the theoretical part the equations of fluid flow are formulated. A suitability of a choice of boundary conditions is discussed. Weak formulation for the equations and its discretization are presented. In the practical part velocity and pressure fields are computed by the various finite elements. Wall shear stress which plays an important role in the evolution of an aneurysm is also computed on the introduced meshes. Comparison of mesh smoothing filters, used finite elements and used...
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Application of finite element method to real problems in hemodynamics.
Švihlová, Helena ; Hron, Jaroslav (advisor) ; Dolejší, Vít (referee)
The incompressible fluid flow around the geometries of cerebral artery aneurysms is studied in this thesis. The aneurysm is a local extension of a vessel. This disease is dangerous only in the case of rupture. Then the blood is released into the brain. The need of accurate computation of the velocity and pressure fields in this geometries is motivated exactly by the question which aneurysm has tendency to rupture. The finite element method (FEM) is used for the computation of the flow. A good domain discretization is one of the main step in FEM. Modern computed tomography is able to produce series of the two- dimensional images and it is necessary to create an appropriate three-dimensional model of the tissue. This thesis includes the description of the mesh generation and the ways to smooth and improve the meshes. In the theoretical part the equations of fluid flow are formulated. A suitability of a choice of boundary conditions is discussed. Weak formulation for the equations and its discretization are presented. In the practical part velocity and pressure fields are computed by the various finite elements. Wall shear stress which plays an important role in the evolution of an aneurysm is also computed on the introduced meshes. Comparison of mesh smoothing filters, used finite elements and used...
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Medical Data Rendering in Real-Time
Lengyel, Kristián ; Havel, Jiří (referee) ; Jošth, Radovan (advisor)
This thesis deals with design and implementation of an application for medical data imaging in real-time. The first part of project is focused on methods for obtaining data in medical practice and visualization of large volume data on computer using familiar rendering approaches. Similar applications are used outside of medicine in other fields, such as chemistry to display molecular structures or microorganisms. Another part of project will focus on benefits of visualization of volumetric data using programmable hardware and new methods of parallelization of algorithms on graphics card using CUDA technology, and OpenCL. The resulting application will display the volume of medical data based on selected method accelerated by programmable shaders, and time-consuming operations will be paralleled on graphics card.
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