Rita L. Echandi scite author profile

Myelography and/or computed tomography (CT) are commonly used to evaluate acute intervertebral disk extrusion in chondrodystrophic dogs. The purpose of this study was to evaluate the sensitivity of myelography and two different CT protocols in determining level and lateralization of acute thoracolumbar intervertebral disk extrusion in comparison with surgical findings, investigate interobserver variability, and determine examination duration times. Results of conventional CT, helical CT, and myelography were compared with surgical findings in 19 chondrodystrophic dogs with acute thoracolumbar intervertebral disk extrusion. Agreement among investigators was determined for different imaging modalities, and examination times were recorded. In the diagnosis of level of disk extrusion there was agreement of myelography, conventional CT, and helical CT with surgical findings in 94.7%, 100%, and 94.7% of dogs, respectively (P = 0.144). In the diagnosis of level and lateralization of disk extrusion there was agreement of myelography, conventional CT, and helical CT with surgical findings in 78.9%, 87.4%, and 85.3% of dogs, respectively (P = 0.328). Interobserver agreement was very good for all imaging modalities (myelography K = 0.87; conventional CT K = 0.86; helical CT K = 0.95). There were significant differences in median examination duration times between helical CT (4 min), conventional CT (8 min), and myelography (32 min) (P < 0.001). Both helical and conventional CT appear to be accurate for evaluation of acute thoracolumbar intervertebral disk extrusion in chondrodystrophic dogs and are faster to perform than myelography.

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Computed Tomography Myelographic Findings in Dogs With Cervical Spondylomyelopathy

Costa

Echandi²,

Beauchamp³

2011

Vet Radiology Ultrasound

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Computed tomography (CT) myelography is used occasionally in the diagnosis of cervical spondylomyelopathy, but the type of lesion found in large- versus giant-breed dogs using this modality has not been characterized. Our purpose was to report the frequency of compressive lesions in large- and giant-breed dogs with cervical spondylomyelopathy and imaged using CT myelography. Fifty-eight dogs were retrospectively studied, 23 large-breed and 35 giant-breed dogs. Multiple sites of compression were found in 12 large-breed dogs (52.2%) compared to 30 (85.8%) giant-breed dogs. The main site of compression was at C5-6 and C6-7 in both large-breed (91.3%) and giant-breed (72.4%) dogs. The main cause and direction of compression was disc-associated and ventral in 19 (82.6%) of the large-breed dogs while osseous changes were the primary cause of compression in 27 (77.2%) of the giant-breed dogs, with most compressions being lateral (51.4%), followed by dorsolateral (14.2%). Osseous compression was observed at C7-T1 in eight giant-breed dogs (22.8%), and at T1-T2 or T2 only in five dogs (14.3%). Four of 23 large-breed dogs (17.4%), and seven (20%) of 35 giant-breed dogs had spinal cord atrophy. Therefore, giant-breed dogs often have multiple compressions, usually caused by osseous changes causing lateralized compressions. In large-breed dogs most compressions are disc-associated and located ventrally. Considering the number of giant-breed dogs with compressions at C7-T1, T1-2, and T2, it is important to include the cranial thoracic region when imaging dogs suspected of having cervical spondylomyelopathy.

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Comparison of^99mTcO₄⁻Trans‐Splenic Portal Scintigraphy with Per‐Rectal Portal Scintigraphy for Diagnosis of Portosystemic Shunts in Dogs

et al. 2007

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Time-of-flight magnetic resonance angiography of the canine brain at 3.0 Tesla and 7.0 Tesla

Martín-Vaquero

Costa

Echandi

et al. 2011

ajvr

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Visualization of the major intracranial arteries was comparable with 3.0- and 7.0-T scanners; the 7.0-T scanner was superior for visualizing smaller vessels. Results indicated that ToF-MRA is an easily performed imaging technique that can be included as part of a standard magnetic resonance imaging examination and should be included in the imaging protocol of dogs suspected of having cerebrovascular disease.

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Magnetic Resonance Imaging of the Canine Brain at 3 and 7 t

Martín-Vaquero

Costa

Echandi

et al. 2010

Vet Radiology Ultrasound

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Magnetic resonance (MR) imaging of the canine brain is commonly acquired at field strengths ranging from 0.2 to 1.5 T. Our purpose was to compare the MR image quality of the canine brain acquired at 3 vs. 7 T in dogs. Low-resolution turbo spin echo (TSE) T2-weighted images (T2W) were obtained in transverse, dorsal, and sagittal planes, and high-resolution TSE T2W and turbo spin echo proton density-weighted images were obtained in the transverse and dorsal planes, at both 3 and 7 T. Three experienced reviewers evaluated 32 predetermined brain structures independently and without knowledge of field strength for spatial resolution and contrast. Overall image quality and evidence of artifacts were also evaluated. Contrast of gray and white matter was assessed quantitatively by measuring signal intensity in regions of interest for transverse plane images for the three pulse sequences obtained. Overall, 19 of the 32 neuroanatomic structures had comparable spatial resolution and contrast at both field strengths. The overall image quality for low-resolution T2W images was comparable at 3 and 7 T. High-resolution T2W was characterized by superior image quality at 3 vs. 7 T. Magnetic susceptibility and chemical shift artifacts were slightly more noticeable at 7 T. MR imaging at 3 and at 7 T provides high spatial resolution and contrast images of the canine brain. The use of 3 and 7 T MR imaging may assist in the elucidation of the pathogenesis of brain disorders, such as epilepsy. r 2010

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Rita L. Echandi

Myelography vs. Computed Tomography in the Evaluation of Acute Thoracolumbar Intervertebral Disk Extrusion in Chondrodystrophic Dogs

Computed Tomography Myelographic Findings in Dogs With Cervical Spondylomyelopathy

Comparison of^99mTcO₄⁻Trans‐Splenic Portal Scintigraphy with Per‐Rectal Portal Scintigraphy for Diagnosis of Portosystemic Shunts in Dogs

Time-of-flight magnetic resonance angiography of the canine brain at 3.0 Tesla and 7.0 Tesla

Magnetic Resonance Imaging of the Canine Brain at 3 and 7 t

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Rita L. Echandi

Myelography vs. Computed Tomography in the Evaluation of Acute Thoracolumbar Intervertebral Disk Extrusion in Chondrodystrophic Dogs

Computed Tomography Myelographic Findings in Dogs With Cervical Spondylomyelopathy

Comparison of99mTcO4−Trans‐Splenic Portal Scintigraphy with Per‐Rectal Portal Scintigraphy for Diagnosis of Portosystemic Shunts in Dogs

Time-of-flight magnetic resonance angiography of the canine brain at 3.0 Tesla and 7.0 Tesla

Magnetic Resonance Imaging of the Canine Brain at 3 and 7 t

Contact Info

Product

Resources

About

Comparison of^99mTcO₄⁻Trans‐Splenic Portal Scintigraphy with Per‐Rectal Portal Scintigraphy for Diagnosis of Portosystemic Shunts in Dogs