Clinical Musculoskeletal MRI Applicationsmri/seminars/slides/Ortho MRI by Trenton Roth.pdf ·...
Transcript of Clinical Musculoskeletal MRI Applicationsmri/seminars/slides/Ortho MRI by Trenton Roth.pdf ·...
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Clinical Musculoskeletal MRIApplications
Trent Roth, MD
Indiana University
Clarian Health Partners
Objective
To review how to optimize MRI to --
• produce high quality images of themusculoskeletal system
• provide clinically relevant diagnosticinformation.
Outline
• Goals of musculoskeletal MRI
• Quality image production
• Roles of various MR pulse sequences andtechniques.
• Common problems in musculoskeletal MRI
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Imaging goals for MSK MRI
*Answer the clinical question*
1. Demonstrate and characterize pathology.
2. Define extent of disease.
3. Provide information to direct managementand treatment.
• Objectives• Anatomic detail• Signal characteristics and abnormalities
• Factors• Scanner• Coil
• Sequences, parameters and planes.• Contrast agent
1. Demonstrate and characterizepathology.
Joint effusion
History: “Rule out shoulder effusion”
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“Rule out Stener lesion”
1. Demonstrate and properlycharacterize pathology.
• Objectives• Anatomic detail• Signal characteristics and abnormalities
History: “Arm mass”
Benign intramuscular lipoma
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History: “Leg mass.”
NOT lipoma.
AA B C
Which tendons are torn?
“Rule out rotator cuff tear”
Signal abnormality
B C
Which tendons are torn?
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Signal abnormality
B C
Tendinopathy Intrasubstance tear
B C
2. Define extent of disease.
• Appropriate coverage• Important anatomic sites
• Joints
• Bone
History: “trip and fall”
Diagnosis: Quadriceps tendon tear.
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Quadriceps tendon tear
History: “Osteosarcoma of femur”
History: “Osteosarcoma of femur”
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3. Provide imaging information todirect management and treatment.
• Diagnosis or differential diagnosis
• Size, location, involvement, extent
• Surgical mapping
• Changes from prior studies• Stable, growth, shrinkage, necrosis, recurrence,
healing
• Complications
Quality Image Production
• Signal to noise ratio
• Image contrast
• Spatial resolution
• Coverage
Spatial
Resolution Signal/noise
Time
Image
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Signal to Noise
• More signal (and less noise) is better– Better perceive low contrast objects.
Signal to Noise
• More signal (and less noise) is better– Better perceive low contrast objects.
– Better perceive smaller objects.
100% noise
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0% noise
Take home?
• SNR affects our ability to perceive lowcontrast structures.
• SNR affects our ability to see small objects.– High spatial resolution does not guarantee
visibility.
Increasing SNR
• Increase magnetic field strength
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Increasing SNR
1.5 T 3 T
Increasing SNR
• Smaller or better coil
Coil Selection
head (30 cm d)head (30 cm d) knee (18 cm d)knee (18 cm d)
rr
signalsignal ∝∝ rr33
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Signal to Noise
• Increase SNR– Increase Field strength
– Use better coil*No time or spatialresolution penalty
Signal to Noise
• Increase SNR– Adjust imaging parameters
• Increase voxel size• Increase TR
• Increase NEX
• Increase phase encodes• Decrease TE
• Decrease BW• Volume (3D) acquisition
Importance of BandwidthNarrow Setting
1
• SNR α BW
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Importance of Bandwidth
COR PD Fatsat, 1.5TBW=780 Hz/pixel
COR PD Fatsat, 1.5TBW=80 Hz/pixel
Narrower Bandwidth
• Increased chemical shift artifact• Chemical shift α Tesla
– ~ twice chemical shift at 1.5T than 0.7T, 4 X at 3.0T
• Workaround– Swap phase and frequency encoding directions
– Get rid of the fat signal!• chemical saturation (fatsat)• STIR water
fat
Pulse sequences and techniques
• Anatomy sequences– T1, PD
• Pathology sequences– T2, T2 FS, IR/STIR, post contrast
• 3 planes– Axial, coronal, sagittal
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Sequence UseT1 Bone marrow, tumor imaging
T1 fatsat
PD
PD fatsat
T2 / T2 fatsat
STIR/Mod IR
Gradient
Tumor Imaging
Neurovascular Bundle
Sequence UseT1 Bone marrow, tumor imaging
T1 fatsat Post contrast imaging
PD
PD fatsat
T2 / T2 fatsat
STIR/ Mod IR
Gradient
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Solid!
Abscess!
T1 fatsat post
MR Arthrography
Normal hip labrum Torn hip labrum
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Sequence UseT1 Bone marrow, tumor imaging
T1 fatsat Post contrast imaging
PD Anatomy, menisci, ligaments, tendons
PD fatsat
T2 / T2 fatsat
STIR/ Mod IR
Gradient
Tear!
Case 2
Tear!
Case 3
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Sequence UseT1 Bone marrow, tumor imaging
T1 fatsat Post contrast imaging
PD Anatomy, menisci, ligaments, tendons
PD fatsat Anatomy, cartilage, labrum, edema, cysts
T2 / T2 fatsat
STIR/ Mod IR
Gradient
Shoulder labrum
Sequence UseT1 Bone marrow, tumor imaging
T1 fatsat Post contrast imaging
PD Anatomy, menisci, ligaments, tendons
PD fatsat Anatomy, cartilage, labrum, edema, cysts
T2 / T2 fatsat Cartilage surfaces, marrow (FS), masses
STIR/ Mod IR
Gradient
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T2 fat sat
Patellar cartilage
T2 fat sat
Patellar cartilage flap
Sequence UseT1 Bone marrow, tumor imaging
T1 fatsat Post contrast imaging
PD Anatomy, menisci, ligaments, tendons
PD fatsat Anatomy, cartilage, labrum, edema, cysts
T2 / T2 fatsat Cartilage surfaces, marrow (FS), masses
STIR/ Mod IR Edema, fluid
Gradient Cartilage, susceptibility artifacts
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81 y/o f, right hip prosthesis
cor FSE T2 fatsatcor FSE T2 fatsat cor FSE IRcor FSE IR
Sequence UseT1 Bone marrow, tumor imaging
T1 fatsat Post contrast imaging
PD Anatomy, menisci, ligaments, tendons
PD fatsat Anatomy, cartilage, labrum, edema, cysts
T2 / T2 fatsat Cartilage surfaces, marrow (FS), masses
STIR Edema, fluid
Mod IR Anatomy & edema, fluid
Gradient Cartilage, susceptibility artifacts
Gradient echo
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Magnetic Susceptibility
• “Blooming” artifact
• Worst with gradient echo sequences
• Increased with higher field strengths
• In MSK– Metal
– Trabecular bone
• Foe or friend?
Magnetic Susceptibility
Post-surgical change“blooming” artifact
Post-surgical change“blooming” artifact
1.5 T1.5 T
2D FLASH: TE=19, 20 flip2D FLASH: TE=19, 20 flip
Black trabeculae, dephasingsecondary to susceptibility.
Metastatic focus, destroyedtrabeculae, increasedspecificity.
56 y/o F with left shoulder pain and lung cancer
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sagittal FLASH, 3.0Tsagittal FLASH, 3.0T
40 y/o man with right hip pain40 y/o man with right hip pain40 y/o man with right hip pain
PVNSPVNS
Common problems
• Metal/hardware
• Coil selection/positioning
• Patient positioning• Coverage
• FOV
• Wrap
• Frequency and phase directions
• Motion
Artifact Depends on Hardware Compositionsusceptibility of metals
Bad Metals• Stainless steel
– Large artifacts
– Plates, screws
• Cobalt chrome– Moderate artifacts
– Older hips– Bipolar hips
– Knees
Good Metals• Titanium
– Minimal artifacts
– Newer hips– IM nails
• Oxidized Zirconium– Oxinium– Modest artifacts
– Knees
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Metal and MRI SequencesBad Sequences• Gradient echo
• Fatsat anything
• (spin echo)
Good Sequences• Fast spin echo (FSE)
• STIR (FSE IR)
Optimal Scanning
• Metal friendly pulse sequence
• Longer echo train
• Wide bandwidth
• High matrix
• Frequency encode axis away from the ROI
Optimal Scanning
PD. BW 70 hz/pixel PD. BW 600 hz/pixel
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Good position of coil
idealideal
Poor coil Positioning
Too highToo high
idealideal
Correct knee orientation
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ACL
lateral medial
Correct knee orientation
P
lateral medial
MEDIAL OR LATERAL???
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13 yo with knee pain
P
lateral medial
13 yo with knee pain
EXTERNALROTATIONEXTERNALROTATION
Positioning
INTERNALROTATIONINTERNALROTATION
IDEALIDEAL
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Phase and frequency
Wrong phase Correct phase
What did we learn?
• Reviewed imaging goals for MSK MRI.
• Discussed quality image production.
• Highlighted value of different pulse sequences.
• Elevate awareness of common MSK imagingproblems.