Dynamic MRI is reliable for evaluation of the lumbosacral spine in healthy dogs.

Magnetic resonance imaging (MRI) is commonly used to diagnose degenerative lumbosacral stenosis; however, studies show limited correlation between imaging and clinical signs. The purpose of this prospective observer agreement study was to use dynamic MRI of the lumbosacral (LS) spine of healthy dogs to determine reliable reference ranges. Twenty-two healthy large breed dogs were prospectively enrolled. MRI of the LS spine was performed in T2-weighted, T1-weighted, and T2-weighted SPACE sequences in neutral, flexed, and extended positions. Four observers performed image analyses. Measurements included LS angle, vertebral canal height and area, and LS foraminal areas. Ordinal categorical assessment of loss of fat signal in the foramina, LS compression, intervertebral disc (IVD) degeneration, spondylosis, and IVD protrusion was also performed. The majority of values were significantly larger in flexion versus neutral position, and significantly smaller in extension versus neutral position (P < .05). Subclinical compression and IVD protrusion was noted in a neutral position in 45% and 55% of dogs and in an extended position in 85% and 73% of dogs, respectively. Interobserver agreement was strong (intracluster correlation coefficient [ICC] > .5) except for the L7:LS vertebral canal area ratio (ICC ≤ .03). Intraobserver agreement was high (rho > .5) for all measurements except for the mid-L6:LS vertebral canal height ratio (rho = .38). There was poor interobserver agreement for loss of fat signal in the foramina and evidence of compression. This study provides the groundwork for future studies using dynamic MRI to evaluate dogs with signs of clinical LS disease.

[1]  N. Jeffery,et al.  Electrodiagnostic findings in dogs with apparently painful lumbosacral foraminal stenosis , 2019, Journal of veterinary internal medicine.

[2]  Faeghi Fariborz,et al.  Evaluation of diagnostic value and T2-weighted three-dimensional isotropic turbo spin-echo (3D-SPACE) image quality in comparison with T2-weighted two-dimensional turbo spin-echo (2D-TSE) sequences in lumbar spine MR imaging , 2018, European journal of radiology open.

[3]  A. Worth,et al.  Repeatability of Three-Dimensional Computed Tomographic Volumetric Measurement of Lumbosacral Intervertebral Foramina in German Shepherd Dogs , 2018, Veterinary and Comparative Orthopaedics and Traumatology.

[4]  R. Tucker,et al.  EFFECTS OF IMAGE PLANE, PATIENT POSITIONING, AND FORAMINAL ZONE ON MAGNETIC RESONANCE IMAGING MEASUREMENTS OF CANINE LUMBOSACRAL INTERVERTEBRAL FORAMINA , 2017, Veterinary radiology & ultrasound : the official journal of the American College of Veterinary Radiology and the International Veterinary Radiology Association.

[5]  A. Worth,et al.  Computed tomographic evaluation of dynamic alteration of the canine lumbosacral intervertebral neurovascular foramina , 2017, Veterinary surgery : VS.

[6]  H. Bliddal,et al.  Reliability of standing weight-bearing (0.25T) MR imaging findings and positional changes in the lumbar spine , 2017, Skeletal Radiology.

[7]  H. Volk,et al.  CLINICAL AND MAGNETIC RESONANCE IMAGING CHARACTERISTICS OF THORACOLUMBAR INTERVERTEBRAL DISK EXTRUSIONS AND PROTRUSIONS IN LARGE BREED DOGS. , 2016, Veterinary radiology & ultrasound : the official journal of the American College of Veterinary Radiology and the International Veterinary Radiology Association.

[8]  M. Provencher,et al.  Kinematic Magnetic Resonance Imaging for Evaluation of Disc‐Associated Cervical Spondylomyelopathy in Doberman Pinschers , 2016, Journal of veterinary internal medicine.

[9]  W. Jee,et al.  MRI of the lumbar spine: comparison of 3D isotropic turbo spin-echo SPACE sequence versus conventional 2D sequences at 3.0 T , 2015, Acta radiologica.

[10]  H. Volk,et al.  Clinical signs and outcome of dogs treated medically for degenerative lumbosacral stenosis: 98 cases (2004-2012). , 2014, Journal of the American Veterinary Medical Association.

[11]  N. Jeffery,et al.  What progress has been made in the understanding and treatment of degenerative lumbosacral stenosis in dogs during the past 30 years? , 2014, Veterinary journal.

[12]  R. Tucker,et al.  Lumbosacral foraminal ratios and areas using MRI in medium-sized dogs , 2014, Veterinary and Comparative Orthopaedics and Traumatology.

[13]  G. Voorhout,et al.  Diffuse idiopathic skeletal hyperostosis (DISH) and spondylosis deformans in purebred dogs: a retrospective radiographic study. , 2011, Veterinary journal.

[14]  L. Moore,et al.  Effects of body position, imaging plane, and observer on computed tomographic measurements of the lumbosacral intervertebral foraminal area in dogs. , 2011, American journal of veterinary research.

[15]  B. Meij,et al.  Degenerative lumbosacral stenosis in dogs. , 2010, The Veterinary clinics of North America. Small animal practice.

[16]  K. Levin,et al.  Utility of electrodiagnostic testing in evaluating patients with lumbosacral radiculopathy: An evidence‐based review , 2010, Muscle & nerve.

[17]  A. Worth,et al.  Degenerative lumbosacral stenosis in working dogs: Current concepts and review , 2009, New Zealand veterinary journal.

[18]  S. Werre,et al.  Effects of body position and clinical signs on L7-S1 intervertebral foraminal area and lumbosacral angle in dogs with lumbosacral disease as measured via computed tomography. , 2008, American journal of veterinary research.

[19]  A. Saifuddin,et al.  Upright positional MRI of the lumbar spine. , 2008, Clinical radiology.

[20]  F. Steffen,et al.  Surgical treatment of lumbosacral foraminal stenosis using a lateral approach in twenty dogs with degenerative lumbosacral stenosis. , 2007, Veterinary surgery : VS.

[21]  J. Jinkins,et al.  Evaluation of intervertebral disc herniation and hypermobile intersegmental instability in symptomatic adult patients undergoing recumbent and upright MRI of the cervical or lumbosacral spines. , 2007, European journal of radiology.

[22]  N. Suwankong,et al.  Agreement between computed tomography, magnetic resonance imaging, and surgical findings in dogs with degenerative lumbosacral stenosis. , 2006, Journal of the American Veterinary Medical Association.

[23]  John A. Hipp,et al.  Assessment of Magnetic Resonance Imaging in the Diagnosis of Lumbar Spine Foraminal Stenosis—A Surgeon's Perspective , 2006, Journal of spinal disorders & techniques.

[24]  G. Erbaş,et al.  Magnetic resonance imaging findings in dogs with thoracolumbar intervertebral disk disease: 69 cases (1997-2005). , 2006, Journal of the American Veterinary Medical Association.

[25]  J. Morgan,et al.  The lumbosacral junction in working german shepherd dogs -- neurological and radiological evaluation. , 2004, Journal of veterinary medicine. A, Physiology, pathology, clinical medicine.

[26]  C. Vite,et al.  Association of cauda equina compression on magnetic resonance images and clinical signs in dogs with degenerative lumbosacral stenosis. , 2002, Journal of the American Animal Hospital Association.

[27]  P. Cuddon Electrophysiology in neuromuscular disease. , 2002, The Veterinary clinics of North America. Small animal practice.

[28]  M. Peterson,et al.  Causes of death or reasons for euthanasia in military working dogs: 927 cases (1993-1996). , 2001, Journal of the American Veterinary Medical Association.

[29]  C. Banfield,et al.  Association between postoperative outcome and results of magnetic resonance imaging and computed tomography in working dogs with degenerative lumbosacral stenosis. , 2000, Journal of the American Veterinary Medical Association.

[30]  M. Zanetti,et al.  Positional MR imaging of the lumbar spine: does it demonstrate nerve root compromise not visible at conventional MR imaging? , 2000, Radiology.

[31]  K. Inzana,et al.  Subclinical CT abnormalities in the lumbosacral spine of older large-breed dogs. , 2000, Veterinary radiology & ultrasound : the official journal of the American College of Veterinary Radiology and the International Veterinary Radiology Association.

[32]  J. Wright,et al.  Computed tomographic morphometry of the lumbosacral spine of dogs. , 1995, American journal of veterinary research.