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
Серия:
Жанр произведения: Биология
Год издания: 0
isbn: 9781119461029
Скачать книгу
needle biopsy (Crabtree et al. 2010).

       Other tumors may have similar variability in size, echogenicity, and the ability to distort the splenic contour. Therefore, it is always important to base a diagnosis on other clinical findings as well as cytological and histopathological evaluation.

       Echogenicity and Parenchymal Conditions

      Evaluation of diffuse parenchymal disease is subjective and can be difficult for the novice sonographer. Echogenicity of the spleen is assessed by comparing splenic parenchyma to the adjacent liver and left renal (kidney) cortex as described above. Changes in echogenicity can be seen with extramedullary hematopoiesis, passive congestion, nodular hyperplasia, inflammation, infection, neoplasia, and splenic torsion.

       Extramedullary hematopoiesis. Generally associated with mildly reduced echogenicity (hypoechoic).

       Passive splenic congestion. Generally associated with hypoechoic changes in acute phases but may be associated with hyperechoic changes in more chronic processes. Architecture is rarely disrupted.

       Nodular hyperplasia. May be associated with either hypoechoic or hyperechoic changes which are relatively mild. The splenic capsule may be mildly irregular as described above. Nodular hyperplasia is a benign condition commonly seen in older dogs (see Figure 9.8C,D).

       Inflammatory or infectious diseases (fungal, bacterial, rickettsial). Generally these conditions cause mild to moderate splenomegaly with diffuse hypoechogenicity. With acute inflammation or infection, the changes are more pronounced with more prominent hypoechogenicity and a finely mottled appearance (see Figures 9.7 and 9.9A,B).

       Neoplastic conditions. Lymphosarcoma, mast cell tumor, and other myeloproliferative diseases generally produce an appearance of generalized coarse mottling referred to as a “honeycomb”, “moth‐eaten” or “Swiss cheese” appearance (Nyland et al. 2002) (compare Figure 9.14 to Figures 9.6 and 9.8A,B). It is important to remember that both lymphosarcoma and mast cell tumor can also be present with very mild diffuse changes and the spleen may even have a normal appearance. As a result, fine needle biopsies of the spleen may be indicated even in the absence of sonographic abnormalities.

       Splenic torsion. Marked splenomegaly with a diffusely hypoechoic to anechoic lacy appearance (compared to the hyperechoic [brighter] lacy appearance seen with LSA of the parenchyma) is typical of splenic torsion (Figure 9.15). If color flow Doppler is available, then absence of blood flow in the splenic vein is consistent with torsion. Thrombus formation may also be identified within the splenic vein in some cases of splenic torsion. Additionally, a perivenous hyperechoic triangle at the level of the splenic hilus has been described as a common feature in dogs with splenic torsions (Mai 2006; Hecht 2008).

Image described by caption and surrounding text. Image described by caption and surrounding text.

      Source: (A) and (B) reproduced with permission from Mai (2006).

       Vasculature

      Finally, evaluation of the splenic vasculature may help identify splenic torsion (Figure 9.16) (see above), thrombus formation, and splenic infarction.

       Thrombi are visualized as echogenic structures within the splenic vein or parenchymal splenic vessels, and may or may not have clinical consequences depending on the degree of occlusion of the vessel (Figure 9.17; compare to Figure 9.1). Their presence, however, does raise clinical suspicion for lymphosarcoma (Laurenson et al. 2010). See also Chapter 25.

      Pearl: Splenic thrombi are most commonly associated with lymphosarcoma (Laurenson et al. 2010). They can also be seen with splenic torsion.

       Splenic infarction is a possible sequela to splenic thrombi and occurs when blood flow is occluded to an area of splenic parenchyma due to torsion or trauma. Infarcted areas tend to be hypoechoic due to edema in the acute phase, while having borders that are variable in appearance ranging from poorly defined to sharply delineated margins. The lesions generally become smaller and hyperechoic with time (see Figures 9.11 and 16.10B).

Image described by caption and surrounding text.

      In the authors' experience, it is extremely valuable to perform an AFAST examination with assignment of an abdominal fluid score in either lateral recumbency for the best approach. The positioning of small animals in dorsal recumbency for POCUS abdominal organ examinations can obscure small‐volume peritoneal effusion and underestimate the volume of effusion present because peritoneal effusion will flow into the less sonographically accessible diaphragmatic recesses. AFAST improves the diagnostic potential of ultrasound by detecting peritoneal effusion.