Sonographic-anatomic correlation and imaging protocol for the kidneys of horses.
Abstract: Sonographic and anatomic observations were made of the kidneys of 23 Thoroughbreds or Standardbreds. In an in vitro study of 16 horses, precise correlations were established between the gross anatomic features of the kidneys and their sonographic appearance in images obtained in dorsal, sagittal, transverse, and transverse oblique anatomic planes. The renal cortex had a uniformly mottled echogenicity, and the renal medulla was relatively hypoechogenic, compared with the cortex. Acoustic anisotropy was observed in the cortex and medulla of the cranial and caudal extremities of each kidney. The distinctive renal pelvis was seen in the transverse plane as an echogenic pair of diverging lines that lead to the crescent shaped renal crest in the lateral half of the kidney. In images made in the sagittal plane, the renal pelvis was seen as a pair of parallel echogenic lines separated by the moderately echogenic line of the renal crest. The terminal recesses were best seen in the transverse oblique views of each extremity, where they appeared as moderately echogenic lines in the medulla of the cranial and caudal extremities. The interlobar vessels were represented as irregular echogenic lines in the medulla, and the arcuate vessels were seen as echogenic points at the corticomedullary junction. At the hilus, the renal artery or its branches was located cranial to the renal vein, which in turn was cranial to the position of the proximal portion of the ureter. In an in vivo study of 7 horses, sonographic images of the right kidney were obtained in the sagittal, transverse, and transverse oblique anatomic planes in all horses, with the transducer positioned at the 15th, 16th, or 17th intercostal space; images in the dorsal plane were obtained, however, in only 3 of the horses. For the left kidney, sonographic images were obtained in each of the anatomic planes when the transducer was positioned at the 16th or 17th intercostal space or the paralumbar fossa; rectal location of the transducer gave images in the dorsal and sagittal planes. In this study, a routine sonographic imaging protocol, using standard anatomic planes, enabled each kidney to be examined in its entirety. The protocol provided definition of normal renal sonographic anatomic features and may permit a more informed and accurate recognition of renal pathologic change.
Publication Date: 1995-11-01 PubMed ID: 8585648
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- Comparative Study
- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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The research article discusses a study that set up a correlation between the real-world anatomy of horse kidneys and their appearance in sonographic imaging. The study also established a standard imaging protocol to examine the entire kidney, aiding the identification of normal and abnormal kidney features.
Study Methodology
- The research involved sonographic and anatomic observations of kidneys from 23 Thoroughbreds or Standardbreds horses.
- In an in vitro study on the kidneys of 16 horses, the scientists determined correlations between the actual anatomical features of the kidneys and their sonographic appearances.
- Various anatomical planes were used in creating the images, such as dorsal, sagittal, transverse, and transverse oblique.
- In an in vivo study with seven horses, sonographic images of the right kidney were captured in different anatomical planes.
- Depending upon the anatomic plane, different intercostal spaces were used for positioning the transducer.
Key Findings
- The sonographic imaging pointed out that the renal cortex had a uniformly mottled echogenicity, while the renal medulla was comparatively hypoechogenic.
- Distinct acoustic anisotropy was observed in the cortex and medulla of both cranial and caudal ends of each kidney.
- The renal pelvis exhibited a unique appearance in the transverse plane resembling a couple of diverging echogenic lines leading towards a crescent-shaped renal crest.
- Imaging in the sagittal plane showed the renal pelvis as a pair of parallel echogenic lines separated by the moderately echogenic line of the renal crest.
- The interlobar and arcuate vessels, terminal recesses, and renal artery were also clearly visible in the sonographic images.
Conclusions
- The study successfully correlated the gross anatomical features of horse kidneys with their sonographic imaging.
- A reliable sonographic imaging protocol was established, enabling thorough examination of the kidneys in horses.
- This protocol defined normal renal sonographic anatomical features which can assist veterinary professionals in the recognition and understanding of renal pathologic changes.
Cite This Article
APA
Hoffmann KL, Wood AK, McCarthy PH.
(1995).
Sonographic-anatomic correlation and imaging protocol for the kidneys of horses.
Am J Vet Res, 56(11), 1403-1412.
Publication
Researcher Affiliations
- Department of Veterinary Clinical Sciences, University of Sydney, NSW, Australia.
MeSH Terms
- Animals
- Creatinine / blood
- Female
- Horses / anatomy & histology
- Kidney / anatomy & histology
- Kidney / diagnostic imaging
- Kidney / physiology
- Male
- Models, Anatomic
- Orchiectomy
- Renal Artery / anatomy & histology
- Renal Artery / diagnostic imaging
- Renal Veins / anatomy & histology
- Renal Veins / diagnostic imaging
- Species Specificity
- Ultrasonography / veterinary
- Urea / blood
Citations
This article has been cited 3 times.- Freccero F, Petrucelli M, Cipone M, Nocera I, Sgorbini M. Doppler evaluation of renal resistivity index in healthy conscious horses and donkeys. PLoS One 2020;15(2):e0228741.
- Siwinska N, Zak A, Slowikowska M, Szczepankiewicz B, Niedzwiedz A, Paslawska U. An assessment of the utility and repeatability of the renal resistive index in horses. PLoS One 2019;14(12):e0226941.
- Kisthardt KK, Schumacher J, Finn-Bodner ST, Carson-Dunkerley S, Williams MA. Severe renal hemorrhage caused by pyelonephritis in 7 horses: clinical and ultrasonographic evaluation. Can Vet J 1999 Aug;40(8):571-6.
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