Identification of Heterotopic Mineralization and Adjacent Pathology in the Equine Fetlock Region by Low-Field Magnetic Resonance Imaging, Cone-Beam and Fan-Beam Computed Tomography

•Two types of heterotopic mineralization were characterized by CT and MRI systems.•Cone-beam CT was similar to fan-beam CT in identifying heterotopic mineralization.•MRI identified osseous/soft tissue injury associated with heterotopic mineralization.•Suspensory ligament injuries were consistently f...

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Published in:Journal of equine veterinary science 2023-07, Vol.126, p.104252-104252, Article 104252
Main Authors: Lin, Szu-Ting, Peter, Vanessa G., Schiavo, Stefano, Pokora, Rachel, Patrick, Hayley, Bolas, Nick, Foote, Alastair K., Sargan, David R., Murray, Rachel C.
Format: Article
Language:English
Subjects:
Animals
Avulsion fragment
Bone and Bones - pathology
Computed tomography (CT)
Cone-beam
Horse Diseases - diagnosis
Horses
Joints - pathology
Magnetic resonance imaging (MRI)
Magnetic Resonance Imaging - veterinary
Mineralisation
Tomography, X-Ray Computed - veterinary
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Summary:•Two types of heterotopic mineralization were characterized by CT and MRI systems.•Cone-beam CT was similar to fan-beam CT in identifying heterotopic mineralization.•MRI identified osseous/soft tissue injury associated with heterotopic mineralization.•Suspensory ligament injuries were consistently found adjacent to mineralization's.•Ligament injuries were consistently found adjacent to proximal sesamoid avulsions. Heterotopic mineralization in equine distal limbs has been considered an incidental finding and little is known about its imaging features. The study aimed to identify heterotopic mineralization and adjacent pathology in the fetlock region with cone-beam (CB) computed tomography (CT), fan-beam (FB) CT, and low-field magnetic resonance imaging (MRI). Images from 12 equine cadaver limbs were examined for heterotopic mineralization and adjacent pathology and verified by macro-examination. Retrospective review of the CBCT/MR images from 2 standing horses was also included. CBCT and FBCT identified twelve mineralization's with homogeneous hyperattenuation: oblique-sesamoidean-ligament (5) without macroscopic abnormality; deep-digital-flexor-tendon (1) and suspensory-branch (6) with macroscopic abnormalities. MRI failed to identify all mineralization's, but detected suspensory branch splitting, and T2 and STIR hyperintensity in 4 suspensory-branches and 3 oblique-sesamoidean-ligaments. Macro-examination found corresponding disruption/splitting and discoloration. All modalities identified 7 ossified fragments showing cortical/trabecular pattern: capsular (1), palmar sagittal ridge (1), proximal phalanx (2) without macroscopic abnormality, and proximal sesamoid bones (3). On MRI, fragments were most identifiable on T1 images. All abaxial avulsions had suspensory-branch splitting on T1 images with T2 and STIR hyperintensity. Macro-examination showed ligament disruption/splitting and discoloration. Suspensory-branch/intersesamoidean ligament mineralization's were identified by CBCT in standing cases; 1 had associated T2 hyperintensity. Both CT systems were generally superior in identifying heterotopic mineralization's than MRI, while MRI provided information on soft tissue pathology related to the lesions, which may be important for management.
ISSN:0737-0806
1542-7412
DOI:10.1016/j.jevs.2023.104252