Evaluation of decision criteria for detection of spinal cord compression based on cervical myelography in horses: 38 cases (1981-2001).
Abstract: Different criteria have been described based on height reduction of the total myelographic contrast column and components of it as tests for compression of the spinal cord due to cervical stenotic myelopathy (CSM). Fifty percent height reduction of the dorsal myelographic column (DMC), <2 mm empiric height of the DMC and a 40% reduction of the ratio of stenosis calculated based on the height reduction of the entire dural diameter (DD) have been described as decision criteria for considering the test result positive. The reasons for selecting these decision criteria or their accuracies have rarely been reported. Objective: To evaluate the accuracy of diagnostic criteria based on reduced height of the total myelographic column and components of it for diagnosing extradural spinal cord compression using different decision criteria, and make recommendations for consistent myelographic interpretation in horses suspected of having CSM. Methods: Four measurements were obtained by 2 readers in a retrospective sample population of 38 horses in which both cervical myelography and histopathological examination of the cervical spinal cord were performed. The prevalence of CSM in the sample was 50%. At intervertebral sites, the minimum heights of the DD and DMC were measured. At intravertebral sites, the maximum heights of the entire DD and DMC were obtained. Percent height reductions of the DMC and DD were determined as the ratio of minimum intervertebral height to maximum intravertebral height within the next cranial vertebra. Histological examination was used as the gold standard for determining the actual site of spinal cord compression. Sensitivity and specificity for the diagnostic criteria were estimated at each site in neutral and flexed neck positions using several different decision criteria. Conclusions: At C6-C7, in neutral or flexed neck position and using 20% reduction of DD, the test was highly sensitive and specific for CSM. At other sites, reduced height of the myelographic column generally was not accurate for diagnosing extradural spinal cord compression. Using 20% reduction of DD in neutral position at the mid-cervical sites, the test had only low sensitivity and high specificity. Flexion of the neck appeared to increase detection of spinal cord compression in the mid-cervical region, but also substantially increased the frequency of false-positive diagnoses. Conclusions: By using the reported sensitivity and specificity estimates, readers may decide on a decision criterion for diagnosis of extradural spinal cord compression due to CSM. However, in planning a surgical correction, it is difficult to define a decision criterion that combines acceptable sensitivity and specificity, especially at the mid-cervical sites.
Publication Date: 2004-02-06 PubMed ID: 14756366DOI: 10.2746/0425164044864642Google Scholar: Lookup
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Summary
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The researchers set out to examine the accuracy of diagnostic criteria for detecting spinal cord compression in horses due to cervical stenotic myelopathy (CSM) by reviewing the results of past case studies, and to provide recommendations for more consistent interpretation.
Research Objective
The objective was to evaluate the precision of specific diagnostic criteria relating to the reduced height of the total myelographic column (a spinal cord imaging technique) and its components for identifying extradural spinal cord compression. This was done by using different decision criteria, with the aim of ultimately making recommendations for more consistent myelographic interpretation in horses suspected to have CSM.
Methods
- The researchers adopted a retrospective approach, studying a sample population of 38 horses that had both undergone cervical myelography and had histopathological exams of their cervical spinal cord.
- They determined percent height reductions of the entire column and its components by the ratio of minimum intervertebral height to the maximum within the next cranial vertebra.
- Histological examinations were used as a baseline for determining the actual site of spinal cord compression.
- The researchers then estimated the sensitivity and specificity of the diagnostic criteria at each site in both neutral and flexed neck positions, using various decision criteria.
Conclusions
- Obtained results indicated that a 20% reduction of the diameter at intervertebral site C6-C7, in either a neutral or flexed neck position, was a highly sensitive and accurate test for CSM.
- However, at different intervertebral sites, reduced height of the myelographic column was generally not accurate for diagnosing extradural spinal cord compression.
- A decrease in sensitivity coupled with a high specificity was observed in neutral position at mid-cervical sites when using a 20% reduction as a criterion for CSM.
- Flexing the neck appeared to improve detection of spinal cord compression in the mid-cervical region, but it also significantly increased the frequency of false-positive diagnoses.
- The researchers concluded that while the reported sensitivity and specificity estimates can guide the selection of a decision criterion for diagnosing extradural spinal cord compression due to CSM, it is challenging to define a criterion that strikes a balance between acceptable sensitivity and specificity, especially at the mid-cervical sites.
Cite This Article
APA
van Biervliet J, Scrivani PV, Divers TJ, Erb HN, de Lahunta A, Nixon A.
(2004).
Evaluation of decision criteria for detection of spinal cord compression based on cervical myelography in horses: 38 cases (1981-2001).
Equine Vet J, 36(1), 14-20.
https://doi.org/10.2746/0425164044864642 Publication
Researcher Affiliations
- Department of Clinical Sciences, College of Veterinary Medicine, Cornell University, Ithaca, New York 14853, USA.
MeSH Terms
- Animals
- Body Height
- Cervical Vertebrae / pathology
- Diagnosis, Differential
- Horse Diseases / diagnostic imaging
- Horse Diseases / etiology
- Horse Diseases / pathology
- Horses
- Myelography / methods
- Myelography / veterinary
- Reproducibility of Results
- Retrospective Studies
- Sensitivity and Specificity
- Spinal Cord Compression / diagnostic imaging
- Spinal Cord Compression / etiology
- Spinal Cord Compression / pathology
- Spinal Cord Compression / veterinary
- Spinal Stenosis / complications
- Spinal Stenosis / diagnostic imaging
- Spinal Stenosis / veterinary
Citations
This article has been cited 13 times.- Donnelly CG, Johnson AL, Reed S, Finno CJ. Cerebrospinal fluid and serum proteomic profiles accurately distinguish neuroaxonal dystrophy from cervical vertebral compressive myelopathy in horses.. J Vet Intern Med 2023 Mar;37(2):689-696.
- Kondo T, Sato F, Tsuzuki N, Watanabe K, Horiuchi N, Kobayashi Y, Yamada K. Characteristic computed tomographic myelography findings in 23 Thoroughbred horses.. J Vet Med Sci 2022 Apr 13;84(4):525-532.
- Kondo T, Sato F, Tsuzuki N, Chen CJ, Yamada K. An objective index for spinal cord compression on computed tomography in Thoroughbred horses.. Vet Med Sci 2022 May;8(3):1072-1078.
- Gough SL, Anderson JDC, Dixon JJ. Computed tomographic cervical myelography in horses: Technique and findings in 51 clinical cases.. J Vet Intern Med 2020 Sep;34(5):2142-2151.
- Rijckaert J, Raes E, Buczinski S, Dumoulin M, Deprez P, Van Ham L, van Loon G, Pardon B. Accuracy of transcranial magnetic stimulation and a Bayesian latent class model for diagnosis of spinal cord dysfunction in horses.. J Vet Intern Med 2020 Mar;34(2):964-971.
- Rijckaert J, Pardon B, Saey V, Raes E, Van Ham L, Ducatelle R, van Loon G, Deprez P. Determination of magnetic motor evoked potential latency time cutoff values for detection of spinal cord dysfunction in horses.. J Vet Intern Med 2019 Sep;33(5):2312-2318.
- Szklarz M, Lipinska A, Slowikowska M, Niedzwiedz A, Marycz K, Janeczek M. Comparison of the clinical and radiographic appearance of the cervical vertebrae with histological and anatomical findings in an eight-month old warmblood stallion suffering from cervical vertebral stenotic myelopathy (CVSM).. BMC Vet Res 2019 Aug 15;15(1):296.
- Veraa S, Bergmann W, Wijnberg ID, Back W, Vernooij H, Nielen M, van den Belt AM. Equine cervical intervertebral disc degeneration is associated with location and MRI features.. Vet Radiol Ultrasound 2019 Nov;60(6):696-706.
- Rijckaert J, Pardon B, Van Ham L, Joosten P, van Loon G, Deprez P. Magnetic motor evoked potentials of cervical muscles in horses.. BMC Vet Res 2018 Sep 24;14(1):290.
- Estell K, Spriet M, Phillips KL, Aleman M, Finno CJ. Current dorsal myelographic column and dural diameter reduction rules do not apply at the cervicothoracic junction in horses.. Vet Radiol Ultrasound 2018 Nov;59(6):662-666.
- Aleman M, Dimock AN, Wisner ER, Prutton JW, Madigan JE. Atlanto-axial approach for cervical myelography in a Thoroughbred horse with complete fusion of the atlanto-occipital bones.. Can Vet J 2014 Nov;55(11):1069-73.
- Olsen E, Dunkel B, Barker WH, Finding EJ, Perkins JD, Witte TH, Yates LJ, Andersen PH, Baiker K, Piercy RJ. Rater agreement on gait assessment during neurologic examination of horses.. J Vet Intern Med 2014 Mar-Apr;28(2):630-8.
- Huggons N. Tri-level surgical treatment of cervical spinal cord compression in a Thoroughbred yearling.. Can Vet J 2007 Jun;48(6):635-8.
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