Peer-reviewed veterinary case report
How echocardiography compares to MRI for mitral valve leak
By Sargent, J et al.·Published in The Journal of small animal practice·2015·The Royal Veterinary College, United Kingdom·View original on PubMed →
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Original publication title: Assessment of mitral regurgitation in dogs: comparison of results of echocardiography with magnetic resonance imaging.
- Species:
- dog
Plain-English summary
A group of small-breed dogs with mitral valve disease underwent tests to assess the severity of mitral regurgitation (a condition where blood leaks backward through the heart valve). Researchers compared standard ultrasound measurements to more advanced magnetic resonance imaging (MRI) results. They found that certain ultrasound measurements, particularly the E-wave velocity, closely matched the MRI results and could be reliably used in all dogs tested. This suggests that while MRI is more complex, ultrasound can effectively evaluate this heart condition in dogs.
People also search for: dog mitral regurgitation treatment · small breed dog heart disease · echocardiogram vs MRI for dogs
Abstract
OBJECTIVES: Echocardiography is used routinely to assess mitral regurgitation severity, but echocardiographic measures of mitral regurgitation in dogs have not been compared with other quantitative methods. The study aim was to compare echocardiographic measures of mitral regurgitation with cardiac magnetic resonance imaging-derived mitral regurgitant fraction in small-breed dogs. METHODS: Dogs with myxomatous mitral valve disease scheduled for magnetic resonance imaging assessment of neurological disease were recruited. Correlations were tested between cardiac magnetic resonance imaging-derived mitral regurgitant fraction and the following echocardiographic measures: vena contracta/aortic diameter, transmitral E-wave velocity, amplitude of mitral prolapse/aortic diameter, diastolic left ventricular diameter:aortic diameter, left atrium:aortic diameter, mitral regurgitation jet area ratio and regurgitant fraction calculated using the proximal isovelocity surface area method. RESULTS: Measurement of cardiac magnetic resonance imaging-derived mitral regurgitant fraction was attempted in 21 dogs. Twelve consecutive, complete studies were obtained and 10 dogs were included in the final analysis: vena contracta/aortic diameter (r = 0 · 89, p = 0 · 001) and E-wave velocity (r = 0 · 86, p = 0 · 001) had the strongest correlations with cardiac magnetic resonance imaging-derived mitral regurgitant fraction. E velocity had superior repeatability and could be measured in all dogs. The presence of multiple jets precluded vena contracta/aortic diameter measurement in one dog. CLINICAL SIGNIFICANCE: Measurement of cardiac magnetic resonance imaging-derived mitral regurgitant fraction is feasible but technically demanding. The echocardiographic measures that correlated most closely with cardiac magnetic resonance imaging-derived mitral regurgitant fraction were vena contracta/aortic diameter and E-wave velocity.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/26473746/