Abstract / Description of output
Solar foot penetration is one of the causes of deep digital flexor tendon injuries in horses, however,
limited information is available on the prognosis for return to soundness in the absence of Q2 synovial sepsis. Objectives of this retrospective observational study were to describe low-field magnetic resonance imaging (MRI) findings and long-term outcome for a group of horseswith this combination of clinical problems. Horses were included if low-field standing MRI of the foot was performed following puncture wounds, injury of the deep digital flexor tendonwas diagnosed, and
sepsis was confirmed to be absent in all adjacent synovial structures (distal interphalangeal joint,
navicular bursa, and digital flexor tendon sheath). Medical records were reviewed and MRI studies
were re-interpreted. Follow-up information was obtained via a telephone questionnaire at a
minimum of 6 months post-injury. A total of 11 horses met inclusion criteria. In three horses, the
deep digital flexor tendon injury was only visible in the T2 fast spin echo sequence and contrast
radiography improved diagnostic certainty. The most commonly affected area was between the distal border of the distal sesamoid bone and the facies flexoria of the distal phalanx (6/11, 55%).
Six horses (60%) had an excellent outcome (5, show jumping; 1, general purpose) and returned to full athletic function. Five horses (40%) were sound but had not yet resumed full work at the time of follow-up. Findings indicated that the prognosis for return to soundness can be good for horses with solar penetration, deep digital flexor injury, and absence of synovial sepsis.
limited information is available on the prognosis for return to soundness in the absence of Q2 synovial sepsis. Objectives of this retrospective observational study were to describe low-field magnetic resonance imaging (MRI) findings and long-term outcome for a group of horseswith this combination of clinical problems. Horses were included if low-field standing MRI of the foot was performed following puncture wounds, injury of the deep digital flexor tendonwas diagnosed, and
sepsis was confirmed to be absent in all adjacent synovial structures (distal interphalangeal joint,
navicular bursa, and digital flexor tendon sheath). Medical records were reviewed and MRI studies
were re-interpreted. Follow-up information was obtained via a telephone questionnaire at a
minimum of 6 months post-injury. A total of 11 horses met inclusion criteria. In three horses, the
deep digital flexor tendon injury was only visible in the T2 fast spin echo sequence and contrast
radiography improved diagnostic certainty. The most commonly affected area was between the distal border of the distal sesamoid bone and the facies flexoria of the distal phalanx (6/11, 55%).
Six horses (60%) had an excellent outcome (5, show jumping; 1, general purpose) and returned to full athletic function. Five horses (40%) were sound but had not yet resumed full work at the time of follow-up. Findings indicated that the prognosis for return to soundness can be good for horses with solar penetration, deep digital flexor injury, and absence of synovial sepsis.
Original language | English |
---|---|
Journal | Veterinary Radiology & Ultrasound |
DOIs | |
Publication status | Published - 29 Aug 2018 |
Keywords / Materials (for Non-textual outputs)
- Equine,,
- foot MRI
- low field
- solar penetration
- deep digital flexor tendon
Fingerprint
Dive into the research topics of 'Horses with solar foot penetration, deep digital flexor tendon injury, and absence of concurrent synovial sepsis can have a positive outcome'. Together they form a unique fingerprint.Profiles
-
Sarah Taylor
- Royal (Dick) School of Veterinary Studies - Senior Lecturer in Equine Orthopaedics
Person: Academic: Research Active