Point-of-Care Ultrasound Techniques for the Small Animal Practitioner. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
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Жанр произведения: Биология
Год издания: 0
isbn: 9781119461029
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(C) Example of prominent falciform fat in a more obese patient. The falciform in the near‐field is juxtaposed to normal liver in the far field. (D) Same image as in (C) but labeled. (E) Delineation of the liver lobes is not sonographically readily apparent unless anechoic free fluid (*) (ascites) is present, as is the case in this image of a peritoneal pericardial hernia in a cat. Normally the caudal margins of the liver lobes are easily identified and sharply demarcated. Imaging of the liver should be deep enough to appreciate the diaphragm. The sharply marginated hyperechoic curvilinear structure is the liver and diaphragm interface (<<<). (F) Although not the gold standard for evaluation of diaphragmatic integrity, evaluation of the diaphragm can be useful in trauma cases and cases in which the integrity of the diaphragm may be compromised (e.g., congenital or acquired types of diaphragmatic hernia). Shown here is a peritoneal pericardial hernia in a cat. Note the embryological persistence of the septum transversum. In this patient, the liver would dynamically slip into the pericardial sac, depending on how the patient was positioned. In many cases, other abdominal organs (such as the spleen, liver or bowel) can be seen within the pericardial sac. These can be an incidental finding or seen in patients with exercise intolerance or respiratory distress. (G) Another example of a peritoneal pericardial diaphragmatic hernia in a cat with concurrent pleural effusion. The apex of the heart is identified to the left of the image. However, the homogeneously echotextured, more solid liver partially occupies a large portion of the pericardial sac. The small bowel is also commonly herniated and easily recognized by the layering of its walls.

      Evaluation of the size of the liver is subjective and is poorly assessed with ultrasound due to variability in patient conformation. Hepatic size estimation is better evaluated on abdominal radiographs. Normal liver margins are sharp and not rounded (see Figure 8.2A,B,E).

      Pearl: Remember the “SLiCK” pneumonic regarding canine echogenicity: the spleen (S) is hyperechoic (brighter) to liver (Li) which is slightly more hyperechoic (brighter) or isoechoic (same echogenicity) to the cortex of the kidney (CK). In the order of most to least echogenic, this spells “SLiCK.” For the feline, hepatic echogenicity is often compared to the adjacent falciform fat and the feline liver should be isoechoic to slightly hypoechoic to the falciform fat.

Image described by caption and surrounding text.

      Source: (B) and (D) courtesy of Dr Gregory Lisciandro, Hill Country Veterinary Specialists and FASTVet.com, Spicewood, TX, and (C) courtesy of Dr Terri DeFrancesco, Raleigh, NC.