MRI of the Wrist: Algorithmic Approach for Evaluating Wrist Pain - PowerPoint Presentation

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MRI of the Wrist: Algorithmic Approach for Evaluating Wrist Pain

Greg S. Matthews, MD

Bahram

Kiani

, MD

Scott D.

Wuertzer

, MD

Jason A. Powell, MD

Brandon L. Roller, MD, PhD

Leon

Lenchik

, MD

Maha

Torabi

, MD

Slide2

Authors’ Affiliation:

Department of Radiology, Division of Musculoskeletal Imaging

Wake Forest School of Medicine

Wake Forest Baptist Medical Center

One Medical Center Blvd

Winston-Salem, NC 27156

Corresponding Author:

Maha

Torabi

, MD, (e-mail:

mtorabi@wakehealth.edu

)

All authors have disclosed no relevant relationships.

Slide3

Review an algorithmic approach for evaluating wrist pain.Examine conditions of the wrist and review their characteristic MRI findings.

Correlate MRI findings with those seen at arthroscopy.Describe the commonly used surgical classification systems that guide treatment.

Slide4

Introduction

Subacute or chronic wrist pain usually develops gradually, with or without an acute traumatic event.The differential diagnosis is extensive and includes intra-articular and extra-articular conditions. MRI helps narrow the differential diagnosis and guide surgical planning.Coronal MR image (a) and arthroscopic midcarpal image (

b

) of the wrist depict the lunate (

L), triquetrum (T), and the scaphoid (S) bones.ab

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Algorithmic Approach to Evaluating

Wrist PainUsing an algorithmic approach for evaluating wrist MR images, the radiologist can help the surgeon plan for treatment.Surgical classification systems are used to guide treatment options.Intra-articular wrist conditions may be treated with arthroscopic or open surgery.Extra-articular wrist conditions are usually treated with open surgery.

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Algorithm Used for Evaluating

Wrist Pain

Slide7

Common intra-articular osseous conditions include:Fractures

Avascular necrosis (AVN)Ulnocarpal impactionStylocarpal impactionThese may be treated with arthroscopic or open surgery.Intra-Articular: Osseous Conditions

Slide8

Case 1: Hook of Hamate Fracture

Crush injury and persistent ulnar-sided wrist pain in a 23-year-old woman. Radiographs obtained 4 weeks prior to MRI were negative for fracture. MR images show subacute fracture through the hook of hamate.

(

a

) Radiograph of the wrist does not show findings of an acute fracture.(b) Axial T1-weighted MR image obtained at the level of the distal carpal row shows a fracture (arrow) through the hook of hamate. (

c) Axial T2-weighted fat-saturated MR image shows a fracture (arrow) with hamate marrow edema.c

b

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Described by Robert

Kienböck in 1910 Multifactorial pathophysiologic mechanism Causes: increase in shear forces on the lunate owing to anatomic factors such as negative ulnar variance, rectangular or square geometry of the lunate, vascular pattern without sufficient collateral vessels, or venous congestionAcute trauma or repetitive minor trauma may also predispose a patient to Kienböck disease.Historically, for assessment and staging, various classification systems (

eg

, Lichtman classification system) have been used. However, many surgeons are starting to use the arthroscopic classification system in symptomatic patients, as proposed by Bain et al.

1Kienböck Disease Management

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Grading is based on the number of articular surfaces affected when visualized at arthroscopy1

Grade 0: NoneGrade 1: Proximal lunate onlyGrade 2a: Proximal lunate + distal radiusGrade 2b: Proximal and distal lunate with coronal lunate fractureGrade 3: Proximal and distal lunate + distal radiusGrade 4: Grade 3 + proximal capitateKienböck Disease Classification0 1 2a 2b 3 4

Illustration depicts the various grades in the

Kienböck

disease classification system. Red area = surface affected. Figure reprinted and adapted, with permission, from reference 2.

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The proposed arthroscopic grading system can guide management.

If conservative management fails, the following procedures can be performed: Grade 0  Radial or capitate shortening osteotomy with or without revascularization procedure Grade 1

 P

roximal row carpectomy or limited carpal fusion such as radioscapholunate fusion

Grade 2A  Radioscapholunate fusion Grade 2B  Proximal row carpectomy Grade 3 or 4 Wrist fusion or wrist arthroplastyKienböck Disease

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Sagittal T2-weighted fat-saturated (

a

) and axial T1-weighted (

b

) MR images obtained at the level of the proximal carpal row show AVN of the lunate with a coronal fracture (arrow).(c) AP radiograph of the wrist shows proximal row carpectomy.Case 2: Grade 2B Kienböck Disease Chronic wrist pain in a 37-year-old woman. MR images show AVN, complicated by a coronally oriented fracture of the lunate. The patient underwent treatment with a proximal row carpectomy.

ab

c

Slide13

(

c) Arthroscopic midcarpal image shows high-grade capitate chondrosis (arrow). (d) Arthroscopic radiocarpal image shows lunate fragmentation.

Sagittal T2-weighted fat-saturated (

a

) and coronal gradient echo (GRE) (b) MR images show lunate fragmentation (arrow) and high-grade lunate and capitate chondrosis.(e) AP wrist radiograph shows wrist arthrodesis, with dorsal plate fixation.Case 3: Grade 4 Kienböck Disease

Gradually increasing wrist pain over 6 months, which was unresponsive to conservative management, in a 32-year-old woman. MR images show AVN with fragmentation of the lunate.

abcde

Capitate

Lunate

c

d

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Common intra-articular soft-tissue conditions include:

Triangular fibrocartilage complex (TFCC) lesions: - Traumatic  Palmer 1 classification scheme - Degenerative  Palmer 2 classification scheme Scapholunate (SL) and lunotriquetral (LT) ligament tearsChondral lesionsSynovitisThese conditions are usually treated arthroscopically.Intra-Articular: Soft-Tissue Conditions

Slide15

TFCC lesions without associated distal radioulnar joint instability are initially treated conservatively. If immobilization and steroid injections fail, arthroscopic intervention can be considered. The traumatic lesions are classified as: - 1A: Central disk tear

(often with an unstable flap)  Treated with débridement of the torn portion- 1B: Tear of ulnar insertion (+/- ulnar styloid fracture)  TFCC repair- 1C: Tear extends to ulnolunate or ulnotriquetral ligaments  Mini-open approach, +/- flexor carpi ulnaris augmentation- 1D: Tear of radial insertion  Treated with débridement of the torn portionPalmer Classification and Treatment of Traumatic TFCC Lesions

1C

1B

1A1D

Ulnar styloid

Distal radiusVolarDorsalIllustration shows the various classifications of TFCC lesions according to the Palmer classification system. Figure reprinted and adapted, with permission, from reference 2.

+/- =

with or without.

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Case 4: Palmer 1B Lesion

Persistent ulnar-sided wrist pain after a fall in a 58-year-old woman. MR and arthroscopic images show a TFCC tear at the ulnar styloid attachment, which was repaired.bc

Coronal GRE (

a

) and coronal T2-weighted fat-saturated (b) MR images show a Palmer 1B TFCC tear (arrow).

Arthroscopic image (c) shows a probe in the TFCC tear (arrowhead) and suture repair of the tear (arrow).

Slide17

(

a, b) Coronal T1-weighted fat-saturated MR arthrograms show a tear (arrow) of the radial attachment of the TFCC.Case 5: Palmer 1D LesionChronic ulnar-sided wrist pain in a 57-year-old man with a history of trauma. MR images show a radial attachment TFCC tear. The tear was treated with arthroscopic débridement.

a

b

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Grading system:2A: TFCC fraying 2B: TFCC fraying with chondrosis of the lunate or ulnar head

2C: TFCC perforation with chondrosis of the lunate or ulnar head2D: Grade 2C with tear of LT ligament 2E: Grade 2D with ulnocarpal arthritisIf conservative management fails, Palmer type 2A lesions can be treatedwith open ulnar diaphyseal shortening. The Palmer 2B, 2C, 2D, and 2E lesions can be treated with TFCC débridement or repair, with the option of performing ulnar shortening osteotomy. At this time, there is controversy with no consensus on the best treatment option.Palmer Classification of Degenerative TFCC Lesions

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Palmer Classification of Degenerative TFCC Lesions

Schematic RepresentationReprinted, with permission, from reference 3..

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Case 6: TFCC Tear

Intermittent ulnar wrist pain for 1 year exacerbated by activity in a 54-year-old woman. MR image shows a central TFCC tear without lunate or ulnar chondrosis. Arthroscopy confirmed a degenerative TFCC tear, which was treated with débridement.(b) Arthroscopic image shows a degenerative central TFCC tear (*), which was débrided.*(a

) Coronal GRE MR arthrogram shows a central TFCC tear (

arrow),

with extension of the radiocarpal contrast material into the distal radioulnar joint (DRUJ).ab

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Case 7: Palmer 2A Lesion

Chronic right wrist pain localized on the ulnar side in a 57-year-old man. MR arthrogram shows central TFCC fraying without associated chondrosis, which was débrided arthroscopically.(a) Coronal T1-weighted fat-saturated MR arthrogram shows central TFCC fraying (arrow).(b) Arthroscopic image shows a shaver débriding an area of central TFCC fraying (*).

*

a

b

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Case 8: Palmer 2D

LesionWorsening wrist pain in a 17-year-old boy after a fall in the driveway 4 months prior. MR and arthroscopic images show a central TFCC tear and a tear of the LT ligament

.

(

a, b) Coronal T2-weighted fat-saturated MR images show a

tear of the LT ligament (arrow in

a) and central perforation of the TFCC (arrow in b).

*

a

b

L

c

d

e

Arthroscopic images show a central TFCC tear

(* in

c

)

,

débridement

of the volar LT ligament with a shaver (

d

), and the LT ligament (arrow in

e

) following

débridement

.

L

= lunate,

T

= triquetrum.

T

Slide23

Geissler Arthroscopic Classification

of SL and LT Ligament InjuriesGrade 1: Ligament fraying with normal carpal alignmentGrade 2: Ligament tear with slight carpal bone step-off; cannot pass 1-mm probe through the tearGrade 3: Ligament tear with carpal bone step-off, seen in radiocarpal and midcarpal spaces; able to pass 1-mm probe through the tearGrade 4: Ligament tear; able to pass 3-mm arthroscope through the tear (drive-through lesion); gross instability with manipulation

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Case 9: Grade 2 SL Tear

Wrist pain in a 52-year-old woman. MR images show a tear in the mid-portion of the SL ligament. The probe could not be passed through the defect at arthroscopy.

(

a

) Coronal T2-weighted fat-saturated MR arthrogram shows linear perforation of SL ligament (arrow).

(

b, c) Radiocarpal arthroscopy images show a tear of the SL ligament (arrow), which could not be probed. (d) Midcarpal arthroscopic image shows slight carpal step-off at the SL interval (arrow).abc

d

Slide25

Coronal T1-weighted (

a) and T1-weighted fat-saturated (b) MR arthrograms show a contrast material–filled linear defect (arrow) through the SL ligament.Case 10: Grade 3 SL TearTwo-year history of wrist stiffness, weakness, and pain in a 51-year-old woman. MR images show a volar-sided SL ligament tear with mild widening of the SL interval.

a

b

(

c, d

) Radiocarpal arthroscopic images show a tear and hemorrhage in the SL ligament, which was

débrided

(

d

).

(

e, f

)

Midcarpal arthroscopic

images show an SL interval gap

(arrow in

e

),

through which a 1-mm probe could

be passed (

f

).

c

d

e

f

Slide26

Synovial conditions include:

Septic arthritisInflammatory arthropathiesSynovial osteochondromatosisPigmented villonodular synovitis (PVNS)Intra-Articular: Soft-Tissue Conditions

Slide27

Coronal T1-weighted (

a), coronal T2-weighted fat-saturated (b), axial T1-weighted (c), and axial T2-weighted fat-saturated (d) MR images obtained at the level of the carpal bones show extensive radiocarpal and midcarpal synovitis, carpal and metacarpal marrow edema, and destructive changes of the scaphoid. The findings are consistent with chronic septic arthritis and osteomyelitis. There is secondary SL advanced collapse (SLAC), with proximal migration of the capitate (arrows in a and b).

Case 11: Septic Arthritis

Chronic wrist pain related to chronic septic arthritis and osteomyelitis in a 22-year-old man with a long history of intravenous drug use.

abcd

Slide28

Case 12: Synovial Osteochondromatosis

Gradually increasing left wrist pain and a palpable dorsal mass in a 53-year-old man. MR images show multiple osteochondral bodies, a finding consistent with synovial osteochondromatosis of the DRUJ, which was confirmed at surgery.

Coronal GRE (

b

) and axial T2-weighted fat-saturated (

c

) MR images show effusion and synovitis in the DRUJ, with low signal intensity foci, a finding representing osteochondral bodies (arrow).(a) AP wrist radiograph shows numerous joint bodies (arrows) in the DRUJ.abc

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Case 13: PVNS

Wrist mass along the volar aspect of the ulna in a 42-year-old woman. MR images show an intra-articular mass with susceptibility artifact on GRE images, a finding suggesting hemosiderin deposition. The findings are most consistent with PVNS, which was confirmed at surgery.

(

a

,

b

) Axial T1-weighted MR image (a) and T1-weighted fat-saturated MR image obtained after the administration of contrast material (postcontrast) (b), obtained at the level of the proximal carpal row, show an enhancing soft-tissue mass (arrow) in the pisotriquetral recess. (c, d) Coronal T2-weighted fat-saturated (c) and GRE (d) MR images show the mass with low signal intensity (arrow in c) on the T2-weighted image and blooming susceptibility artifact (arrow in d) on the GRE image.

a

b

c

d

Slide30

Extra-Articular:

Soft-Tissue ConditionsExtra-articular soft-tissue conditions include:Tendon injuriesAneurysms and vascular malformationsNeuromas and nerve sheath tumorsAccessory muscles

Slide31

Case 14: Traumatic Tendon Tear Complicated by Infection

Increasing wrist pain and swelling 1 week after a cat bite to the dorsal wrist of a 59-year old woman. MR images show cellulitis and an abscess in the dorsal wrist and a complete tear of the extensor pollicis longus (EPL) tendon.

(

a

) Axial T1-weighted fat-saturated postcontrast MR image obtained at the level of the distal radius shows dorsal wrist cellulitis with a small rim-enhancing collection, a finding consistent with an abscess (arrow). (

b, c

) Axial T2-weighted fat-saturated (b) and T1-weighted (c) MR images obtained at the level of the distal radius show an empty third extensor compartment tendon sheath (arrow) owing to a complete EPL tear. (d) Sagittal T2-weighted fat-saturated MR image shows the proximal end of the retracted EPL (arrow).

a

b

c

d

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Case 15: De Quervain

TenosynovitisPain along the radial aspect of the wrist for 6 weeks in a 21-year-old swimmer. MR images show tenosynovitis of the first extensor compartment, which was treated with a US-guided corticosteroid injection.Sagittal T1-weighted fat-saturated postcontrast (a) and axial T2-weighted fat-saturated (b) MR images obtained at the level of the distal radius show extensive tenosynovitis (arrow) of the first extensor compartment, deep relative to the pain marker.

a

b

Radius

Radius

cd(c) Longitudinal power Doppler US image of the distal wrist shows tenosynovitis with synovial thickening and hyperemia of the first extensor compartment (arrow). (d) Transverse gray-scale US image shows the needle with the tip in the first extensor compartment tendon sheath for steroid injection (arrow).

a

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Case 16: Ulnar Bursitis

Carpal tunnel syndrome in a 53-year-old woman. MR images show rim-enhancing fluid surrounding the flexor tendons, proximal and distal to the carpal tunnel, a finding representing ulnar bursitis. The symptoms resolved with conservative management.Axial T2-weighted fat-saturated (a) and axial T1-weighted postcontrast (b) MR images obtained at the level of the distal radius and coronal T2-weighted fat-saturated (c) MR image show ulnar bursitis associated with the flexor tendons (arrow). The coronal image (c) also shows extension of bursitis in the palm.

c

a

b

Slide34

Case 17: Vascular Malformation

Right third finger pain and an associated mass that slowly increased in size in a 31-year-old woman. MR images show a vascular malformation in the radial aspect of the third finger, which was confirmed at angiography and subsequent surgery.(a) Coronal T2-weighted fat-saturated MR image shows a lobulated T2-hyperintense soft-tissue mass (arrow). (b) Coronal T1-weighted maximum intensity projection postcontrast-subtracted MR image shows an arterial phase microlobular enhancement pattern (arrows). (c) Frontal digital subtraction angiographic image obtained after brachial artery injection shows a vascular malformation (arrows).

a

b

c

Slide35

Case 18: Traumatic Neuroma

Right wrist pain, weakness, and numbness in a 42-year-old man with history of trauma. MR images show an enhancing mass along the course of the median nerve.

Axial

T1-weighted (

a), T1-weighted fat-saturated (b), and T1-weighted fat-saturated postcontrast (c) MR images obtained at the level of the distal forearm show an enlarged enhancing median nerve, consistent with a neuroma (solid arrows) between the flexor digitorum superficialis

(FDS), flexor carpi radialis (FCR), and flexor pollicis longus (FPL) tendons (dashed arrows in a). A normal caliber median nerve was identified proximally, and perineural scarring was found distal to the neuroma.

abcFDSFPLFCR

Slide36

Case 19: Accessory Muscle

Palpable mass in the hypothenar eminence in a 37-year-old mechanic, which was painful when the patient did push-ups. MR images show an accessory abductor digiti minimi muscle overlying the ulnar nerve, which may be associated with ulnar nerve compression.a

b

(

a, b) Axial T1-weighted MR images show an accessory abductor digiti minimi muscle (arrow), deep relative to the marker indicating the site where the symptoms manifest.

Slide37

Conclusion

An algorithmic approach, combined with a knowledge of common wrist conditions, will help the radiologist assess the wrist on MR images.With a familiarity of the surgical classification systems and the expected management of various wrist conditions, the radiologist can describe clinically relevant findings depicted on MR images.The radiologist can then convey this pertinent information to the referring clinicians, thereby improving patient care.

Slide38

Arnaiz J, Piedra T,

Cerezal L, et al. Imaging of Kienböck disease. AJR Am J Roentgenol 2014;203(1):131–139.Bain GI, Begg M. Arthroscopic assessment and classification of Kienbock’s disease. Tech Hand Up Extrem Surg 2006;10(1):8–13.Chloros GD, Wiesler ER,

Poehling

GG. Current concepts in wrist arthroscopy. Arthroscopy 2008;24(3):343–354.

Rominger MB, Bernreuter WK, Kenney PJ, Lee DH. MR imaging of anatomy and tears of wrist ligaments. RadioGraphics 1993;13(6):1233–1246; discussion 1247–1248.Torabi M, Martell B, Tuohy C, Lenchik L. MRI-arthroscopy correlation of the wrist: a primer for radiologists. Current Radiology Reports. 2016;4(2):1-3.Zanetti M, Saupe N, Nagy L. Role of MR imaging in chronic wrist pain. Eur Radiol

2007;17(4):927–938.

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References

Bain GI, Begg M. Arthroscopic assessment and classification of Kienbock’s disease. Tech Hand Up Extrem Surg 2006;10(1):8–13.Torabi M, Martell B, Tuohy C, Lenchik L. MRI-arthroscopy correlation of the wrist: a primer for radiologists. Current Radiology Reports. 2016;4(2):1-3.Cockenpot E, Lefebvre G, Demondion X, Chantelot C, Cotten A. Imaging of sports-related hand and wrist injuries: sports imaging series. Radiology. 2016;279(3):674-92.