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IMAGE QUALITY NOISE LINEARITY CROSS-FIELD UNIFORMITY IMAGE ARTIFACTS.

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Presentation on theme: "IMAGE QUALITY NOISE LINEARITY CROSS-FIELD UNIFORMITY IMAGE ARTIFACTS."— Presentation transcript:

1 IMAGE QUALITY NOISE LINEARITY CROSS-FIELD UNIFORMITY IMAGE ARTIFACTS

2 NOISE IN CT FLUCTUATION OF CT# BETWEEN POINTS IN THE IMAGE FOR A SCAN OF UNIFORM MATERIAL SUCH WATER.

3 NOISE IN CT

4 NOISE LEVEL %= STANDARD DEVIATION /CT # RANGE
PERCENTAGE OF CONTRAST OR IN CT NUMBERS NOISE LEVEL %= STANDARD DEVIATION /CT # RANGE

5 NOISE CAN BE MEASURED BY SCANNING A WATER PHANTOM AND COMPUTING THE MEAN AND STANDARD DEVIATION FOR FOR A REGION OF INTEREST. (ROI)

6

7

8

9

10 THE NOISE LEVELS FOR CT SCANNERS VARY AND DEPEND ON:
MAS SCAN TIME KVP SLICE THICKNESS OBJECT SIZE ALGORITHM

11 MAS KVP SCAN TIME SLICE T. NOISE

12 OBJECT SIZE NOISE

13 ALGORITHM vs NOISE DETAIL EDGE-ENHANCEMENT STANDARD SMOOTHING NOISE

14 NOISE IN CT IS MAINLY RELATED TO
PHOTON FLUX ( # OF DETECTED PHOTONS) MATRIX SIZE (PIXEL SIZE) SLICE THICKNESS ALGORITHM ELECTRONIC NOISE ( DETECTOR ELECTRONICS) SCATTER RADIATION

15 NOISE WIDTH OF PIXEL SLICE THICKNESS DOSE NOISE SPATIAL R.

16 LINEARITY RELATIONSHIP OF CT# TO THE LINEAR ATTENUATION COEFFICIENT

17 CROSS-FIELD UNIFORMITY
THE UNIFORMITY OF CT # THROUGHOUT THE ENTIRE SCAN FIELD OF VIEW IS ONE INDICATION THAT CT SCANNER IS PERFORMANCE IS ACCEPTABLE. IT REFERS TO THE VALUES OF THE PIXELS IN THE RECONSTRUCTED IMAGE THEY SHOULD BE CONSTANT AT ANY POINT IN THE IMAGE OF PHANTOM

18 CROSS-FIELD UNIFORMITY

19 IMAGE ARTIFACTS A DISTORTION OR ERROR IN AN IMAGE THAT IS UNRELATED TO THE SUBJECT BEING STUDIED

20 IMAGE ARTIFACTS STREAKS RING CT# DISTORTION

21 SOURCES OF ARTIFACTS PATIENT IMAGING PROCESS EQUIPMENT

22 TYPES AND CAUSES OF ARTIFACTS
STREAKS IMPROPER SAMPLING OF DATA PARTIAL VOLUME AVERAGING PATIENT MOTION METAL & BEAM HARDENING NOISE SPIRAL SCANNING MECHANICAL FAILURE

23 TYPES AND CAUSES OF ARTIFACTS
SHADING PART. VOLUME AVG. BEAM HARDENING SPIRAL SCANNING SCATTER OFF-FOCUS RADIATION INCOMPLETE PROJECTION

24 TYPES AND CAUSES OF ARTIFACTS
RINGS AND BANDS BAD DETECTOR IN III GENERATION CT

25 MOTION ARTIFACT- VOLUNTARY & INVOLUNTARY
CORRECTION: IMMOBILIZATION PROPER EXPLANATION OF PROCEDURE SHORT SCAN TIME MOTION REDUCTION SOFTWARE (SHIMADZU –MAC) I

26 MOTION

27

28

29 INCOMPLETE PROJECTION PROFILES
METAL ARTIFACTS INCOMPLETE PROJECTION PROFILES STAR SHAPED ARTIFACTS

30

31 METAL ARTIFACTS

32 METAL ARTIFACT

33

34 MAR

35 BEAM HARDENING ARTIFACT-CUPPING ARTIFACT
INCREASE IN THE MEAN ENERGY OF THE X-RAY BEAM AS IT PASSES THROUGH THE PATIENT IT CAN OCCUR WHEN RADIATION BEAMS HAVE DIFFERENT PATH LENGTHS

36 BEAM HARDENING

37 BEAM HARDENING ARTIFACT STREAKS OR BROAD DARK BANDS

38 REDUCTION OF BEAM HARDENING
BOW TIE FILTER UTILIZATION SPECIAL CORRECTION SOFTWARE

39 CORRECTED

40 PARTIAL VOLUME ARTIFACT
AVERAGE CT NUMBERS IN SLICE

41

42 CORRECTING PARTIAL VOLUME ARTIFACT
THIN SLICES

43 NOISE – PHOTON STARVATION

44 OUT OF FIELD ARTIFACT

45 EQUIPMENT INDUCED ARTIFACTS STREAK ARTIFACTS
MECHANICAL FAILURE POOR GANTRY RIGIDITY MECHANICAL ASSIGNMENT TUBE ROTOR WOBBLE POOR SAMPLING OF THE DETECTOR BAD DETECTOR-RING ARTIFACTS ( III GEN.) TUBE ARCING

46 RING ARTIFACTS- III GENERATION

47

48 CORRECTION OF RING ARTIFACT
DETECTOR RECALIBRATION BALANCING ALGORITHM UTILIZATION

49 ALIASING ARTIFACT NOT ENOUGH SAMPLES

50 CORRECTION OF ALIASING ARTIFACT
INCREASE NUMBER OF VIEWS OR RAY SAMPLES PER VIEW. CONVOLUTION FILTER (SOFTWARE METHOD)

51 ALIASING ARTIFACT

52 TUBE ARCING

53 SPIRAL ARTIFACTS WINDMILL MOTION STAIRCASE SHADING

54 WINDMILL

55 MOTION

56 MOTION

57 STAIRCASE

58

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