Presentation is loading. Please wait.

Presentation is loading. Please wait.

Medical Image Analysis Dr. Mohammad Dawood Department of Computer Science University of Münster Germany.

Published byCameron Montgomery Modified over 9 years ago

Similar presentations

Presentation on theme: "Medical Image Analysis Dr. Mohammad Dawood Department of Computer Science University of Münster Germany."— Presentation transcript:

1 Medical Image Analysis Dr. Mohammad Dawood Department of Computer Science University of Münster Germany

2 2 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Recap

3 3 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood α decay β - decay β + decay Gamma scintigraphyPETSinogram

4 4 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Ultrasound / Sonography

5 5 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood The frequency range of sound above 20kHz is known as ultrasound Sound spectrum

6 6 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Sound wave propagation

7 7 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Ultrasound

8 8 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Ultrasound

9 9 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Ultrasound - is produced through the conversion of electrical energy into mechanical energy - is detected by the reverse process, by converting mechanical energy into electrical energy. - The transducer is a device that is both a transmitter and receiver of the ultrasound signal and it serves a dual role in pulse echo imaging.

10 10 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Inge Edler und Helmut Hertz (1954)

11 11 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Ultrasound

12 12 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood ReflexionScatterTransmission Ultrasound

13 13 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Frequency Depth Resolution Ultrasound

14 14 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Ultrasound

15 15 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Ultrasound

16 16 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Medium Speed of sound  m/s  Air331 Water1483 Tissue1540-1595 Liver1549 Blood1570 Glycerin1923 Bones (Compact)3600

17 17 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood

18 18 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Ultrasound - A mode (amplitude) - B mode (brightness) - M mode (moving)

19 19 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Ultrasound - no functional information - fast - cheap - no radiation - portable - no injection -Bone / gas -Obesity -Operator dependence

20 20 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Image Reconstruction

21 21 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Tomography

22 22 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Law of Attenuation

23 23 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Problem What is inside the object? ?

24 24 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood What can we do? Use the principle of radiation absorption in an object

25 25 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood What can we do? Use the principle of radiation absorption in an object SourceDetector S

26 26 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood What can we do? Use the principle of radiation absorption in an object SourceDetector S

27 27 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Law of Attenuation (Line integral)

28 28 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood SourcesDetectors Reconstruction Line integrals

29 29 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Parallel projections

30 30 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood ObjectSinogram Reconstruction Sinograms

31 31 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Sinogram Reconstruction What now? Object ?

32 32 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Radon Transformation

33 33 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Radon Transformation

34 34 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Radon Transformations

35 35 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Inverse Radon Transformation

36 36 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Inverse Radon Transformation Problems with Missing data and Noise!

37 37 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Filtered Back Projection

38 38 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood AB DC A+B C+D 1 A+D B+C 3 2 B A+C D Reconstruction Projections A B+D C 4

39 39 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood ?? ?? Reconstruction Back projections A+B C+D 1 A+B C+D 2 B A+C D 2A+B +C A+2B C+2D A+2C +D A+D B+C 3 3A+B +C+D A+3B +C A+C+ 3D A+B+ 3C+D A B+D C 4 4A+B +C+D A+4B +C+D A+B+ C+4D A+B+ 4C+D

40 40 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood 4A+B +C+D A+4B +C+D A+B+ C+4D A+B+ 4C+D Reconstruction Back projections 3A3B 3D3C - (A+B+C+D) =/ (n-1) = AB DC

41 41 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Filtered back projection 18 Projections36 Projections90 Projections180 Projections

42 42 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood 1=Ram-Lak (ramp), 2=Shepp-Logan, 3=Cosine, and 4=Hamming Reconstruction FBP: Commonly used filters

43 43 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Filter application to sinogram in FFT space

44 44 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Filter application to sinogram in FFT space

45 45 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood

46 46 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood

47 47 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Projections Backproject Filter 1D Filter 2D Backproject Image Reconstruction Filtered back projection 2D/3D filtering is costly

48 48 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Fourier slice theorem Take a two-dimensional function f(r), project it onto a line, and do a Fourier transform of that projection Take that same function, but do a two-dimensional Fourier transform first, and then slice it through its origin parallel to the projection line

49 49 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood Reconstruction Iterative Reconstruction Kaczmarz Method (=ART: Algebraic Reconstruction Technique) 1. Start by setting x(0) = 0 2. Compute the forward projection 3. Update the current estimate 4. Iterate steps 2,3 until the difference between new forward projection, computed in 2, and the old one is below tolerance

50 50 Medical Image Analysis, SS-2015 Dr. Mohammad Dawood

Download ppt "Medical Image Analysis Dr. Mohammad Dawood Department of Computer Science University of Münster Germany."

Similar presentations

Computed Tomography Principles

Computed Tomography Principles
Foundations of Medical Ultrasonic Imaging

Foundations of Medical Ultrasonic Imaging
Direct Fourier Reconstruction

Direct Fourier Reconstruction
Mark Mirotznik, Ph.D. Associate Professor The University of Delaware

Mark Mirotznik, Ph.D. Associate Professor The University of Delaware
Image Reconstruction T-61.182, Biomedical Image Analysis Seminar Presentation 7.4.2005 Seppo Mattila & Mika Pollari.

Image Reconstruction T , Biomedical Image Analysis Seminar Presentation Seppo Mattila & Mika Pollari.
Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.

Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.
IPIM, IST, José Bioucas, 2007 1 X-Ray Computed Tomography Radon Transform Fourier Slice Theorem Backprojection Operator Filtered Backprojection (FBP) Algorithm.

IPIM, IST, José Bioucas, X-Ray Computed Tomography Radon Transform Fourier Slice Theorem Backprojection Operator Filtered Backprojection (FBP) Algorithm.
Ultrasound Dr.mervat mostafa.

Ultrasound Dr.mervat mostafa.
Basic Physics of Ultrasound

Basic Physics of Ultrasound
ECE 501 Introduction to BME

ECE 501 Introduction to BME
Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.

Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.
Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.

Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.
Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.

Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.
Department of Computer Science

Department of Computer Science
Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.

Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.
Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.

Medical Imaging Mohammad Dawood Department of Computer Science University of Münster Germany.
BMME 560 & BME 590I Medical Imaging: X-ray, CT, and Nuclear Methods Tomography Part 3.

BMME 560 & BME 590I Medical Imaging: X-ray, CT, and Nuclear Methods Tomography Part 3.
Echoes. Reflection  The reflection of sound waves applies to frequencies above human hearing. 20 kHz is human maximum20 kHz is human maximum Bats can.

Echoes. Reflection  The reflection of sound waves applies to frequencies above human hearing. 20 kHz is human maximum20 kHz is human maximum Bats can.
Ultrasound Medical Imaging Imaging Science Fundamentals.

Ultrasound Medical Imaging Imaging Science Fundamentals.
Ultrasound Imaging Atam Dhawan.

Ultrasound Imaging Atam Dhawan.

Similar presentations

Ads by Google