Abstract
To investigate the intraoperative microcirculatory changes of the affected organs (small bowel, liver and kidney) during the making of a modified selective portacaval (PC) shunt. On ten anaesthetized Sprague-Dawley rats the selective end-to-side mesocaval anastomosis was performed, where only the rostral mesenteric vein is utilized and the portal vein with the splenic vein are left intact. Morphometric and microcirculatory investigations using a LDF device determining flux units (BFU) were carried out. After completing the shunts the microcirculatory flux values did not recover in the same manner on the surface of the small intestine, the liver or the kidney. BFU values showed deterioration in the small intestine and in the liver (p<0.001). During the reperfusion the BFU values improved, but not in the same manner. The small intestine values left behind the kidney and liver data. Technically, the advantages of the models include the selective characteristic, the mesocaval localization and the relatively easy access to those vessels. However, its major disadvantage is the time needed for positioning the vessels without coiling or definitive stretching. Intraoperative LDF may provide useful data on the microcirculatory affection of the organs suffering from hypoperfusion or ischemia during creating the shunts.
Highlights
Artificial porto-systemic shunts can be created by various techniques and localizations in case of underlying portal hypertension when other therapeutical ways are not effective[1,2,3,4,5], but these shunts may act as supportive tools in other surgical procedures[6,7]
In this study we describe a refined microsurgical model of a selective portacaval shunt model in the rat, where only the rostral mesenteric vein is utilized and the portal and lienal vein are left intact
The created mesocaval end-to-side venous anastomosis was functioning well; there were no bleeding at the site of the anastomosis
Summary
Artificial porto-systemic shunts can be created by various techniques and localizations in case of underlying portal hypertension when other therapeutical ways are not effective[1,2,3,4,5], but these shunts may act as supportive tools in other surgical procedures (liver transplantation, small-for-size grafting)[6,7]. These shunts still have important clinical relevance. Based on the anatomical possibilities further selective portacaval shunts were created, such as the mesocaval localization[8,11,12,15,19,20,21]
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