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Lesions of the deep digital flexor tendon in the digit: a correlative MRI and post mortem study in control and lame horses.
Abstract: Lameness associated with lesions of the deep digital flexor tendon (DDFT) in the digit is now recognised as an important cause of lameness, but there is currently limited information about the pathological nature of the lesions. Objective: To compare: signal intensity changes on magnetic resonance images with histopathology; and histopathological changes in the DDFT from horses with no history of foot-related lameness (Group C) and horses with lesions of the DDFT confirmed using magnetic resonance imaging (MRI) (Group D). Methods: Transverse sections of the DDFT were harvested from 3 sites in all horses: (1) immediately proximal to the navicular bursa (E1); (2) at the level of the navicular bone (E2); and (3) close to the tendon's insertion (E3). If lesions were identified at E1 or had been identified further proximally using MRI, additional sections were obtained until, in most cases, the proximal limit of the lesion was identified. All DDFTs were graded histopathologically using predefined criteria. The MR images were reviewed to determine the location and sequences in which increased signal intensity was seen. Results: No haemorrhage or inflammatory cell infiltration was seen in any horse. At level E1, septal thickening, ghosting of blood vessels and blood vessel occlusion were common in Group D, but were not seen in Group C. Less commonly, there was core necrosis, only seen in Group D. At level E2, septal and vascular changes were most obvious in Group D. Core necrosis, dorsal splitting, crevicing and fibrillation were seen only in Group D. Septal and vascular changes were present in both Groups C and D at level E3, but fibrocartilaginous metaplasia, splitting, crevicing and fibrillation, or core necrosis or fibroplasia were seen only in Group D. Core lesions in Group D often extended proximal to E1, and ranged in length from 0.5-13 cm. Core necrosis was generally associated with increased signal intensity in fat suppressed images. Conclusions: Lesions of the DDFT in the digit appear to be primarily degenerative, and may be a sequel to vascular compromise. Increased signal intensity on fat suppressed MR images is not necessarily associated with frank fluid or evidence of inflammation, but may reflect major matrix changes in the tendon. Conclusions: Further information about the causes of these lesions is required to develop preventative strategies.
Publication Date: 2009-03-24 PubMed ID: 19301578DOI: 10.2746/042516408x343028Google Scholar: Lookup The Equine Research Bank provides access to a large database of publicly available scientific literature. Inclusion in the Research Bank does not imply endorsement of study methods or findings by Mad Barn.
- Journal Article
- Research Support
- Non-U.S. Gov't
- Anatomy
- Blood Vessels
- Clinical Findings
- Clinical Pathology
- Deep Digital Flexor Tendon
- Diagnosis
- Diagnostic Technique
- Disease Diagnosis
- Disease Etiology
- Equine Health
- Histopathology
- Horses
- Inflammation
- Lameness
- Magnetic Resonance Imaging
- Necrosis
- Pathogenesis
- Post Mortem
- Radiology
- Veterinary Medicine
- Veterinary Research
Summary
This research summary has been generated with artificial intelligence and may contain errors and omissions. Refer to the original study to confirm details provided. Submit correction.
The research blog post is about a comparative study of lesions in the deep digital flexor tendon (DDFT) within horses’ hooves. With the help of magnetic resonance imaging (MRI) and postmortem examination, the study highlights the nature of such lesions in both normal and lame horses.
Objective of the Research
The research aimed at thoroughly investigating the intensity of signals in these identified lesions using MRI and to compare these with histopathological changes. The test subjects were horses that were identified as having no foot-related lameness (Group C) versus those with confirmed DDFT lesions through MRI (Group D).
Methodology
- The researchers made transverse sections of the DDFT from three different sites – proximal to the navicular bursa (E1), at the level of the navicular bone (E2), and close to the tendon’s insertion (E3).
- If lesions were found at E1 or identified earlier via MRI, more sections were scrutinized till the proximal extent of the lesion was identified.
- The DDFTs were graded based on predefined histopathological standards.
- The MRI images were utilized to identify the location and the sequences with increased signal intensity.
Results
- No instance of hemorrhage or inflammatory cell infiltration was observed among the horses.
- The research revealed diverse histopathological changes at levels E1, E2, and E3, evidencing that such changes were more pronounced in Group D.
- Lesions in Group D often extended proximal to E1, with length ranging from 0.5-13 cm. Core necrosis was generally linked with increased signal intensity in fat-suppressed images.
Conclusion
- The study concludes that lesions in the DDFT in the digit appeared primarily degenerative and could be a result of vascular compromise.
- Increased signal intensity in the MR images may not always indicate fluid presence or signs of inflammation. Instead, it could signify significant matrix changes within the tendon.
- Further investigation about the specific causes of such lesions is required to formulate effective preventative strategies.
Cite This Article
APA
Blunden A, Murray R, Dyson S.
(2009).
Lesions of the deep digital flexor tendon in the digit: a correlative MRI and post mortem study in control and lame horses.
Equine Vet J, 41(1), 25-33.
https://doi.org/10.2746/042516408x343028 Publication
Researcher Affiliations
- Centres for Preventative Medicine, Animal Health Trust, Lanwades Park, Kentford, Newmarket, Suffolk CB8 7UU, UK.
MeSH Terms
- Animals
- Case-Control Studies
- Diagnosis, Differential
- Foot Diseases / diagnosis
- Foot Diseases / pathology
- Foot Diseases / veterinary
- Horse Diseases / diagnosis
- Horse Diseases / pathology
- Horses
- Lameness, Animal / diagnosis
- Lameness, Animal / pathology
- Magnetic Resonance Imaging / veterinary
- Necrosis / diagnosis
- Necrosis / pathology
- Necrosis / veterinary
- Severity of Illness Index
- Tarsal Bones / pathology
- Tendons / pathology
- Toe Joint / pathology
Citations
This article has been cited 12 times.- Barrett MF, Goorchenko GE, Frisbie DD. Comparison of Ultrasound and Magnetic Resonance Imaging for Identifying Soft Tissue Abnormalities in the Palmar Aspect of the Equine Digit. Animals (Basel) 2023 Jul 17;13(14).
- Evrard L, Joostens Z, Vandersmissen M, Audigié F, Busoni V. Comparison Between Ultrasonographic and Standing Magnetic Resonance Imaging Findings in the Podotrochlear Apparatus of Horses With Foot Pain. Front Vet Sci 2021;8:675180.
- Quam VG, Altmann NN, Brokken MT, Durgam SS. Zonal characterization and differential trilineage potentials of equine intrasynovial deep digital flexor tendon-derived cells. BMC Vet Res 2021 Apr 1;17(1):138.
- Sullivan SN, Altmann NN, Brokken MT, Durgam SS. In vitro Effects of Methylprednisolone Acetate on Equine Deep Digital Flexor Tendon-Derived Cells. Front Vet Sci 2020;7:486.
- Froydenlund TJ, Meehan LJ, Morrison LR, Labens R. A Rare Case of Deep Digital Flexor Tendinopathy following Centesis of the Navicular Bursa. Front Vet Sci 2017;4:169.
- White NA 2nd, Barrett JG. Magnetic Resonance Imaging-Guided Treatment of Equine Distal Interphalangeal Joint Collateral Ligaments: 2009-2014. Front Vet Sci 2016;3:73.
- Bertuglia A, Mollo G, Bullone M, Riccio B. Identification of surgically-induced longitudinal lesions of the equine deep digital flexor tendon in the digital flexor tendon sheath using contrast-enhanced ultrasonography: an ex-vivo pilot study. Acta Vet Scand 2014 Nov 25;56(1):78.
- Watts AE, Yeager AE, Kopyov OV, Nixon AJ. Fetal derived embryonic-like stem cells improve healing in a large animal flexor tendonitis model. Stem Cell Res Ther 2011 Jan 27;2(1):4.
- Aßmann AD, Sànchez-Andrade JS, Argüelles D, Bischofberger AS. Does Low-Field MRI Tenography Improve the Detection of Naturally Occurring Manica Flexoria Tears in Horses?. Animals (Basel) 2025 Jul 31;15(15).
- Scharf A, Acutt E, Bills K, Werpy N. Magnetic resonance imaging for diagnosing and managing deep digital flexor tendinopathy in equine athletes: Insights, advances and future directions. Equine Vet J 2025 Sep;57(5):1183-1203.
- Quam VG, Belacic ZA, Long S, Rice HC, Dhar MS, Durgam S. Equine bone marrow MSC-derived extracellular vesicles mitigate the inflammatory effects of interleukin-1β on navicular tissues in vitro. Equine Vet J 2025 Jan;57(1):232-242.
- Larsen EA, Williams MR, Schoonover MJ, Jurek KA, Young JM, Duddy HR. Navicular bone fracture and severe deep digital flexor tendinopathy after palmar digital neurectomy in two horses. Open Vet J 2023 Dec;13(12):1752-1759.
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