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Medical imaging methods

2013-2014

Leírás

Általános információk

Compulsory subject 3rd year 2nd semester

Altogether 12 hours lecture and 16 hours practice/semester which is distributed between the Department of Biophysics and Radiation Biology, the Department of Nuclear Medicine and the Department of Human Morphology and Cell Biology

Lecture: Thursday 18:00-19:30 Szent-Györgyi lecture hall

The lectures will be held on 2nd, 3rd, 4th, 5th and 6th weeks.

Practices in the Department of Biophysics and Radiation Biology:

7th, 8th and 10th weeks for groups 5, 7, 10, 13 and 17

7th, 8th and 11th weeks for groups 6, 8, 11 and 12

8th, 9th and 10th weeks for groups 3, 4 9 and 16

8th, 9th and 12th weeks for groups 1, 2, 14 and 15.

Practices in the Department of Human Morphology and Developmental Biology between 2nd and 7th weeks for all groups.For the details see the homepage of the Department of Human Morphology and Developmental Biology:

credit: 2

Tutor: Dr. István Voszka (phone: 459-1500/60211)

Előadások

Előadások

1 Digital image (parameters and properties).Histogram, contrast manipulation. Binary image analysis. Processing of three dimensional information, tomography, projection. Principles of CAT scan. (Miklós Kellermayer) 2014.02.13. 01_Introduction4_KM130220.pdf  
2 Ultrasonic imaging. Characteristics of ultrasound. Production and detection of ultrasound. Acustic impedance. Reflection and refraction. A-, B-, TM-images, 3D and 4D imaging. Doppler-method. (András Kaposi ) 2014.02.20. 2014-02-20_sonography_KAD.pdf  
3 Imaging in nuclear medicine. Basic principles of nuclear medicine. Radiopharmacons. Instruments (SPECT, PET, hybrid equipments) (Dr. István Szilvási) 2014.02.27. NM-gradual-English-Introduction4_2014.pdf  
4 Molecular imaging. Optical techniques. Functional imaging methods. Multimodal techniques. Correlation of functional and morphological information. (Dr. Domokos Máthé) 2014.03.06. Molecular_Imaging_SE.pdf  
5 NMR and MRI. Magnetic properties of the nucleus. Nuclear spin, orientation. Excitation, resonance condition. Relaxation mechanisms (T1, T2). MR imaging. Contrast in MRI. Special techniques (angiography, spectroscopy, diffusion MRI, fMRI) (Miklós Kellermayer) 2014.03.13. 02_MRI4_KM130227.pdf  

Vizsga

Vizsga

One has to write a test in both parts of the subject (anatomy and biophysics). The biophysics test will contain 30 multiple choice questions, with four possibilities of answers, one of them is correct. To pass you have to give 15 correct answers, from 19 points it will be 3, from 23 points 4, from 27 points 5. This is one part of the final grade. The other part is the result of anatomy test. The final grade is the average of this two. If the average is between two grades, the percentages are taken into account.
 
The test from biophysics part will be on May 9 (Friday) at 3:30 p.m. for groups 5-13 and at 4:10 p.m. for groups 1-4 and 14-17 in Szent-Györgyi lecture hall.