Ulnar impaction syndrome, also known as ulnar abutment or ulnocarpal impaction or loading, is a painful degenerative wrist condition caused by the ulnar head impacting upon the ulnar-sided carpus with the injury to the triangular fibrocartilage complex (TFCC).
Differentiation from ulnar impingement syndrome is critical, which is due to a shortened ulna that abuts and causes radial remodeling.
Ulnar impaction syndrome most commonly presents in middle-aged patients. The majority of cases occur in association with positive ulnar variance or increased dorsal tilt of the distal radius. This can be seen in patients with:
- distal radial fracture malunion
- ulnar styloid fracture nonunion
- radial head resection (such as following an Essex-Lopresti fracture-dislocation)
- premature radial physeal closure
- congenital wrist abnormalities
Ulnar impaction syndrome is rare in the absence of such anatomic predispositions but can occur if there is excessive repeated loading of the ulnar-carpus in daily activity 5.
Patients present with chronic or subacute ulnar-sided wrist pain exacerbated by activity. There is often associated swelling and limitation of forearm and wrist movement. Anything that results in a relative increase in ulnar variance such as ﬁrm grip, pronation, and ulnar deviation of the wrist, can exacerbate the symptoms.
As the name suggests, ulnar impaction syndrome involves impaction of the distal ulnar upon the ulnar-sided carpal bones, particularly the lunate. This results in a continuum of pathologic changes which are represented in the class II subsection of the Palmer classification of TFCC lesions 2.
- IIA TFC complex wear
- IIB TFC complex wear, lunate or ulnar chondromalacia
- IIC TFC complex perforation, lunate or ulnar chondromalacia
- IID TFC complex perforation, lunate or ulnar chondromalacia, lunotriquetral ligament perforation
- IIE TFC complex perforation, lunate or ulnar chondromalacia, lunotriquetral ligament perforation, ulnocarpal osteoarthritis
Chronic abutment leads to tears and osteoarthritis of the TFCC.
Imaging findings of ulnar impaction may precede the onset of symptoms. Recognizing the distribution pattern (ulnar, lunate, triquetral) is the key to making the diagnosis.
Plain radiographs can appear normal in early disease. General features include:
- presence of a predisposing factor
- subchondral sclerosis and cysts in specific ulnar impaction distribution
- distal ulna
- proximal ulnar aspect of lunate
- radial aspect of triquetrum
- ulnocarpal osteoarthritis in more advanced disease
To accurately access ulnar variance, the wrist must be correctly neutrally positioned with the shoulder abducted at 90° and the elbow flexed at 90°. Variance can falsely be reduced in supination and exaggerated in pronation or with clenching of the fist.
MR imaging is the investigation of choice in both the detection of early disease and characterization of more advanced disease. Can demonstrate the bone, cartilage and ligamentous features of the syndrome 3.
Location of bone signal changes 4:
- ulnar side of proximal lunate ~90%
- radial side of proximal triquetrum ~40%
- distal ulna ~10%
Types of bone signal change:
- subchondral sclerosis (low T1 and T2) most common in lunate
- bone edema (high T2, low-intermediate T1)
- subchondral cysts (round T2 hyperintensities)
Cartilage and ligamentous changes:
- chondromalacia of distal ulnar cartilage (altered signal)
- central TFCC signal increase often with tear (T2 hyperintense fluid)
- lunatotriquetral ligament tear (T2 hyperintense fluid) with proximal arc offset
Treatment and prognosis
Treatment varies depending on the amount of ulnar variance, the Palmer lesion class, the contour of the distal ulnar and the presence of lunotriquetral instability.
Palmer class IIA and IIB lesions (no TFC perforation) are managed with open wafer procedure (surgical resection of the distal 2-3 mm of the dome of the ulnar head) or formal ulnar shortening (excision of a 2-3 mm slice of the ulnar shaft followed by ﬁxation).
When the TFC is perforated (Palmer class IIC and IID lesions), the head of the ulna can be burred down with the help of arthroscopic instrumentation (arthroscopic wafer procedure). This procedure is minimally invasive, highly effective, and allows rapid return to normal activities.
Class IIE lesions are managed with salvage procedures such as complete or partial ulnar head resection (Darrach procedure) or arthrodesis of the distal radioulnar joint with distal ulnar pseudoarthrosis (Sauve-Kapandji procedure).
- signal change in lunate is usually more diffuse and radial sided
- no ulnar or triquetral abnormality
- more often with negative ulnar variance
- traumatic TFCC injuries
- degenerative arthritis of the wrist (SLAC wrist)
- radiocarpal joint involved
- usually radial side of the lunate or distal lunate
- 1. Cerezal L, Del piñal F, Abascal F et-al. Imaging findings in ulnar-sided wrist impaction syndromes. Radiographics. 22 (1): 105-21. Radiographics (full text) - Pubmed citation
- 2. Palmer AK. Triangular fibrocartilage complex lesions: a classification. J Hand Surg Am. 1989;14 (4): 594-606. J Hand Surg Am (link) - Pubmed citation
- 3. Stoller DW, Tirman PF, Bredella MA. Diagnostic imaging, Orthopaedics. Amirsys Inc. (2004) ISBN:0721629202. Read it at Google Books - Find it at Amazon
- 4. Imaeda T, Nakamura R, Shionoya K et-al. Ulnar impaction syndrome: MR imaging findings. Radiology. 1996;201 (2): 495-500. Radiology (abstract) - Pubmed citation
- 5. Tomaino MM. Ulnar impaction syndrome in the ulnar negative and neutral wrist. Diagnosis and pathoanatomy. J Hand Surg Br. 1998;23 (6): 754-7. - Pubmed citation
- 6. William Palmer, Laura Bancroft, Fiona Bonar, Jung-Ah Choi, Anne Cotten, James F. Griffith, Philip Robinson, Christian W.A. Pfirrmann. Glossary of terms for musculoskeletal radiology. (2020) Skeletal Radiology. doi:10.1007/s00256-020-03465-1 - Pubmed
Related Radiopaedia articles
- wrist fractures and dislocations
- distal radial fracture
- carpal bones
- carpal instability
- triangular fibrocartilaginous complex (TFCC) injuries
- ulnar-sided wrist impaction and impingement syndromes
- soft tissue and tendons