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MRSRL Journal Club 08/13/10

Susceptibility Weighted Imaging E.M. Haacke, Y. Xu, Y. N. Cheng, J. R.Reichenbach. Susceptibility Weighted Imaging (SWI) . MRM 52:612-618 (2004). MRSRL Journal Club 08/13/10. Background & Motivation for SWI. MRI often relies on magnitude images (clinic).

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MRSRL Journal Club 08/13/10

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  1. Susceptibility Weighted ImagingE.M. Haacke, Y. Xu, Y. N. Cheng, J. R.Reichenbach. Susceptibility Weighted Imaging (SWI). MRM 52:612-618 (2004). MRSRL Journal Club 08/13/10

  2. Background & Motivation for SWI • MRI often relies on magnitude images (clinic). • Phase images contain information about local susceptibility changes between tissues. • Susceptibility differences can be used as a new type of contrast ~ T1, T2, T2*, PD. E.M. Haacke, Y. Xu, Y. N. Cheng, J. R.Reichenbach. Susceptibility Weighted Imaging (SWI). MRM 52:612-618 (2004).

  3. Applications of SWI • SWI offers information about tissues with different susceptibilities from surrounding tissues. • deoxygenated blood, hemosiderin, ferritin, calcium • Numerous Clinical applications • Hemorrhages • Cerebrovascular and ischemic brain diseases • Traumatic brain injuries • Arteriovenous malformations • Neurodegenerative diseases • Breast microcalcifications

  4. Current Scanners • Packaged SWI technique available on Siemens Medical Systems. • SWAN on GE scanner: T2 Star Weighted Angiography. (multi-echo GRE) uses echoes. c/o Catherine Moran

  5. Magnetic Susceptibility • When an object is placed in an external magnetic field H, magnetization is induced in the object. • Magnetic susceptibility is the magnetic response of a material when it is placed in a magnetic field. • M = χH • χ = susceptibility (ppm) • M = induced magnetization • H = applied field • If diamagnetic, like Ca3(PO)4, χ < 0 • If paramagnetic, like deoxygenated blood, χ > 0 E.M. Haacke et. Al. Susceptibility-Weighted Imaging: Technical Aspects and Clinical Applications, Part 1. AJNR Am J Neuroradiol 30:19-30. Jan 2009.

  6. Susceptibility and Phase Relations • MRI equations • ω=γB0 • ψ=ωt • Δψ=Δω*TE • Relating to susceptibility, • Since Δω=γΔBand ΔB=g*Δχ*B0 • Δψ=-γΔB*TE [6] • And so, Δψ=-γgΔχB0*TE [7]

  7. Effect of sample shape, orientation and susceptibility Schenck, JF. The role of magnetic susceptibility in magnetic resonance imaging: MRI magnetic compatibility of the first and second kinds. Med Phys. 1996 Jun;23(6):815-50

  8. Geometric Effects • Distortion manifests as change in phase • For example, a blood vessel can be modeled as a cylinder at an angle θ to B0, • ΔBin=ginΔχB0, where gin=(3cos2θ-1)/6 • ΔBout=ΔχB0sin2θcos(2ϕ)a2/(2r2)

  9. Outline of SWI Processing • Acquire high-res 3D fGRE. • Apply HPF to phase image to obtain “SWI filtered phase data.” • Create “phase” mask depending on sign. • Multiply phase mask by original magnitude image to obtain “merged SWI magnitude data.”

  10. Step 1: Acquisition Magnitude c/o Samantha Holdsworth

  11. Step 2: Creating HPF • Uses 64x64 low-pass filter divided into the original phase image to create a HP-filter effect. • Method • Truncate original image ρ(r) to central n x n complex image ρn(r). • Zero-fill elements outside central n x n elements • Complex divide ρ(r) by ρn(r) to obtain a new image, ρ’(r) = ρ(r)/ρn(r)

  12. Step 2: Phase Images Raw phase image HP-filtered (32x32) HP-filtered (64x64) Fig. 3 Haacke Review 1

  13. Step 3: Phase Mask f(x) • Negative Phase Mask • 0 <  <  : phase mask filter = 1 • - <  < 0: phase mask filter linearly scaled between 0 and 1 • Positive Phase Mask •  >  > 0 : phase mask filter = 1 • 0 >  > - : phase mask filter linearly scaled between 0 and 1. 1 -π π (x) 1 f(x) -π (x) π E.M. Haacke et. al. Susceptibility Weighted Imaging. MRM 52:612-618 (2004).

  14. Step 3: Phase Masking Process Profile of mask created from A Phase profile in filtered phase image Fig. 6 Haacke Review 1

  15. Step 4: Simulated images with phase mask multiplication • ρ(x)new= fm(x)ρ(x) m=1 m=4 m=8 m=16 Best CNR Fig. 1 Haacke

  16. Visibility as Function of Multiplication M=4 gives peak CNR(m). Visibility V = CNR(m)*p*sqrt(π); p = radius Fig. 2

  17. Overview: SWI Processing Magnitude image (phase mask)m SWI image SWI minIP X ≥4 images Phase image c/o Samantha Holdsworth

  18. Clinical Examples • Neuroimaging • Breast microcalcifications

  19. Fat/Water Contrast Phase; Fat π out of phase with water Magnitude SWI m=2 SWI m=1 Fig. 4

  20. GM/WM Contrast • T1w magn. image TE=5ms • SWI, m=4 using phase mask from TE=40ms data Fig. 5

  21. mIP of images • mIP of the original magnitude images. • b. Modified mIP of SWI using m=4. • c. mIP of filtered phase images • d. Slice from a cadaver brain

  22. Breast Microcalcifications A. Fatemi-Ardekani, C. Boylan, M. D. Noseworthy. Identification of breast calcification using magnetic resonance imaging. Medical Physics, Vol. 36, No. 12, December 2009

  23. Seeing Microbleeds with SWI T1w T2w MRA SWI Multiple microbleeds in the brain are only evident on the SWI phase image (D), suspected cerebral amyloid angiopathy (CAA). Haacke Review, Part 2

  24. SWI in Multiple Sclerosis MS Patient Normal Volunteer Iron build up in the pulvinar in MS indicated with SWI Haacke Review, Part 2

  25. Calcifications in the Brain SWI Filtered Phase CT MRI Magnitude Both calcification and hemorrhage are hypointense on magnitude images but calcifications are distinct on CT and SWI phase filtered images (patient w/ history of neurocysticercosis). Haacke Review, Part 2

  26. Sturge Weber Syndrome in 5 y.o. girl Post-contrast T1w Leptomeninges (arrowhead) Periventricular veins (arrow) SWI – calcification of gyri (dotted/arrowhead) Periventricular veins (arrow) Sturge-Weber Syndrome found most often in children leads to vascular malformation Haacke Review, Part 2

  27. Questions?

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