Lectures
Application and importance of imaging systems and methods in medicine. The basic division of imaging techniques in terms of physical principle, and use in diagnosis.
The basic principle of two-dimensional display, resolution, image size, the specifics of medical imaging systems and requirements. Three-dimensional visualization of biological objects - voxels.
Television scanning systems capture and evaluation issues in general images, the way you look and perception of an image, lighting conditions for the perception of an image. TV image sensors: optical, CCD image sensor. Thermal sensing cameras, opto-mechanical degradation. Videoendoskopie.
Television screens display systems for imaging systems - vacuum, the LCD displays with gas discharges, projectors, television image. Scanning, color TV.
Ultrasound technique. Physical principles of ultrasound, ultrasound waves interaction with living tissue. Generation of ultrasound waves, ultrasound, measuring principle ultrasonographic imaging.
Ultrasound, method of organization measurement cycle. Implementation of three-dimensional imaging. Scanning speed of the ultrasound beam by tissue Doppler effect. Contrast tests
X-ray technician, physical principles, sources and detectors. Principles of record. Security risks. Angiography.
Computed Tomography, Principles, implementation, detectors, development generations. Effects of X-rays in CT. Normal doses.
Infraimaging systems in medicine. Thermography, principles, importance. Pyrovidikon. Fluorescence imaging methods
Magnetic resonance imaging, MRI history, fyzkální prince, properties, magnetic MRI systems, gradient field, RF signal encoding volume element, the essence of Fourier reconstruction methods, applications. The basic arrangement for NMR facilities.
Magnetic resonance imaging. Clinical methods of display MR. Properties and construction of sensors and thrusters. safetyt.Functional MRI mapping of brain activity
Radionuclide imaging techniques positron emission tomography - PET and SPECT. Principles and methods of obtaining images.
Imaging systems in nuclear medicine. Gama imaging systems.
Two dimensional data formats (DICOM), data structures, SOP Class, Presentation of image data on a CRT, LCD monitors, and printing services DICOMu for communication over TCP / IP
Responsibilities of laboratory exercises
Practical exercises to work on imaging systems in medicine.
Practical exercises examples of two-dimensional display, vertical and horizontal resolution, image size. Three-dimensional visualization of biological objects - voxels.
Practical exercises on television sensing systems, sensing problems and evaluation of images in general, the way you look and perception of an image, lighting conditions for the perception of an image. TV image sensors: optical, CCD image sensor. Videoendoskopy.
Practical exercises with the TV display systems. Displays for Imaging Systems - Vacuum, LCD displays with gas discharges, projectors, television image. Scanning, color TV.
Practical exercises and ultrasound technology to obtain images in MATLAB. Practical verification of the physical nature of ultrasound, ultrasonic wave generation,
Practical exercises on ultrasonography, method of organization measurement cycle. Scanning speed of the ultrasound beam by tissue Doppler effect.
Visit on radiodiagnostic department in the medical workplace. X-ray technician, physical principles, sources and detectors. Principles of record. Security risks. Angiography.
Visit and excursion to the computer tomograph, principles, implementation, detectors.
Practical exercises with infra imaging systems in medicine. Thermography.
Practical demonstration of the department radiodiagnostics magnetic resonance imaging, MRI history, fyzkální the prince, properties, magnetic systems, MRI phantoms. The basic arrangement for NMR facilities.
Magnetic resonance demonstration activities. Clinical methods of display MR. Properties and construction of sensors and thrusters. Mapping brain activity.
Excursion to the workplace radionuclide imaging techniques - positron emission tomography - PET and SPECT.
Excursion to the workplace and practical demonstration of imaging systems in nuclear medicine. Gama imaging systems.
Demonstration of transmission and processing of DICOM protocol under laboratory conditions. Presentation of image data on a CRT, LCD monitors, and printing services DICOMu for communication over TCP / IP.
Application and importance of imaging systems and methods in medicine. The basic division of imaging techniques in terms of physical principle, and use in diagnosis.
The basic principle of two-dimensional display, resolution, image size, the specifics of medical imaging systems and requirements. Three-dimensional visualization of biological objects - voxels.
Television scanning systems capture and evaluation issues in general images, the way you look and perception of an image, lighting conditions for the perception of an image. TV image sensors: optical, CCD image sensor. Thermal sensing cameras, opto-mechanical degradation. Videoendoskopie.
Television screens display systems for imaging systems - vacuum, the LCD displays with gas discharges, projectors, television image. Scanning, color TV.
Ultrasound technique. Physical principles of ultrasound, ultrasound waves interaction with living tissue. Generation of ultrasound waves, ultrasound, measuring principle ultrasonographic imaging.
Ultrasound, method of organization measurement cycle. Implementation of three-dimensional imaging. Scanning speed of the ultrasound beam by tissue Doppler effect. Contrast tests
X-ray technician, physical principles, sources and detectors. Principles of record. Security risks. Angiography.
Computed Tomography, Principles, implementation, detectors, development generations. Effects of X-rays in CT. Normal doses.
Infraimaging systems in medicine. Thermography, principles, importance. Pyrovidikon. Fluorescence imaging methods
Magnetic resonance imaging, MRI history, fyzkální prince, properties, magnetic MRI systems, gradient field, RF signal encoding volume element, the essence of Fourier reconstruction methods, applications. The basic arrangement for NMR facilities.
Magnetic resonance imaging. Clinical methods of display MR. Properties and construction of sensors and thrusters. safetyt.Functional MRI mapping of brain activity
Radionuclide imaging techniques positron emission tomography - PET and SPECT. Principles and methods of obtaining images.
Imaging systems in nuclear medicine. Gama imaging systems.
Two dimensional data formats (DICOM), data structures, SOP Class, Presentation of image data on a CRT, LCD monitors, and printing services DICOMu for communication over TCP / IP
Responsibilities of laboratory exercises
Practical exercises to work on imaging systems in medicine.
Practical exercises examples of two-dimensional display, vertical and horizontal resolution, image size. Three-dimensional visualization of biological objects - voxels.
Practical exercises on television sensing systems, sensing problems and evaluation of images in general, the way you look and perception of an image, lighting conditions for the perception of an image. TV image sensors: optical, CCD image sensor. Videoendoskopy.
Practical exercises with the TV display systems. Displays for Imaging Systems - Vacuum, LCD displays with gas discharges, projectors, television image. Scanning, color TV.
Practical exercises and ultrasound technology to obtain images in MATLAB. Practical verification of the physical nature of ultrasound, ultrasonic wave generation,
Practical exercises on ultrasonography, method of organization measurement cycle. Scanning speed of the ultrasound beam by tissue Doppler effect.
Visit on radiodiagnostic department in the medical workplace. X-ray technician, physical principles, sources and detectors. Principles of record. Security risks. Angiography.
Visit and excursion to the computer tomograph, principles, implementation, detectors.
Practical exercises with infra imaging systems in medicine. Thermography.
Practical demonstration of the department radiodiagnostics magnetic resonance imaging, MRI history, fyzkální the prince, properties, magnetic systems, MRI phantoms. The basic arrangement for NMR facilities.
Magnetic resonance demonstration activities. Clinical methods of display MR. Properties and construction of sensors and thrusters. Mapping brain activity.
Excursion to the workplace radionuclide imaging techniques - positron emission tomography - PET and SPECT.
Excursion to the workplace and practical demonstration of imaging systems in nuclear medicine. Gama imaging systems.
Demonstration of transmission and processing of DICOM protocol under laboratory conditions. Presentation of image data on a CRT, LCD monitors, and printing services DICOMu for communication over TCP / IP.