Abstract
ObjectivesScaphoid injuries occult on plain radiography often require further imaging for definitive diagnosis. We investigate the utility of dual-energy computed tomography (DECT) for the detection of acute bone marrow oedema and fracture of scaphoid compared to MRI.Materials and methodsTwenty patients who presented acutely (without prior injury) to the emergency department with clinically suspected occult scaphoid fracture and had MRI of the wrist were prospectively recruited to have DECT (GE Revolution CT). Material decomposition images of the water-calcium base pair were generated and assessed in conjunction with the monochromatic images to permit correlation of marrow signal changes with any cortical disruption for fracture confirmation. The assessment was performed by two musculoskeletal radiologists blinded from MRI results. The statistical difference of MRI and reviewers’ detection of acute bone oedema (1 = present, 0 = absent) was performed using the Friedman test (SPSS v.16).ResultsMRI showed acute scaphoid fracture and/or bone marrow oedema in 14/20 patients of which 6 also had cortical disruption. On DECT, reviewer A identified oedema in 13 and cortical disruption in 10 patients while reviewer B identified oedema in 10 and cortical disruption in seven of the 14 MRI positive patients. No statistically significant difference in oedema detection on MRI and reviewers of DECT (p value 0.61) but DECT was more sensitive at detecting cortical disruption.ConclusionDECT has the capability to detect acute scaphoid oedema in addition to cortical fractures. However, compared to MRI, DECT has lower contrast resolution and less sensitive in the detection of mild oedema.Key Points• Dual-energy CT is able to detect acute traumatic scaphoid marrow oedema.• Dual-energy CT has greater detection rate of scaphoid fractures than MRI.• Dual-energy CT is an alternative to MRI for occult scaphoid injury.
Highlights
After a fall on to an outstretched hand (FOOSH), the scaphoid is the most frequently injured carpal bone and represents 2– 3% of all fractures [1]
They analysed the monochromatic images for the presence of cortical disruption and the material density images for the presence of bone marrow oedema
Subsequent to the above recommendations and our institution’s high dependence on magnetic resonance imaging (MRI), we proposed that dual-energy computed tomography (DECT) could be an alternative method for the diagnosis of scaphoid fracture including the detection of bone marrow oedema/bruising
Summary
After a fall on to an outstretched hand (FOOSH), the scaphoid is the most frequently injured carpal bone and represents 2– 3% of all fractures [1]. A timely diagnosis is important to reduce the risk of non-union, avascular necrosis, and subsequent comorbidities. Eur Radiol (2021) 31:3610–3615 of injury and clinical findings (anatomical snuffbox tenderness and/or pain on axial compression of the thumb), a plain radiograph is usually the initial step in the imaging workup. Plain radiography will detect the majority of scaphoid fractures. Occult scaphoid fractures that are not detectable on the initial plain radiograph constitute up to 20% of scaphoid injuries [2]. At this stage, a number of second-line imaging options are available. The inconsistencies in the line of investigation can lead to a delay in diagnosis and unnecessary treatment
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