Beatriz Rodríguez Lozano scite author profile

Bacterial translocation is currently considered the main pathogenic mechanism leading to spontaneous bacterial peritonitis in patients with advanced cirrhosis and ascites. However, to the authors' knowledge there is no information regarding the characteristics of this process in humans. The goals of the current study were to pursue partially identified bacterial DNA in blood (what the authors consider molecular evidence of bacterial translocation) through its relative quantification in a 72-hour study period by using real-time polymerase chain reaction (PCR). A consecutive series of 17 patients with advanced cirrhosis and culture-negative, nonneutrocytic ascites were studied. Therapeutic paracentesis was performed at the time of admission, and blood samples were obtained at baseline and every 8 hours in a 3-day period. S pontaneous bacterial peritonitis (SBP) is a severe infection developing in patients with advanced cirrhosis, in the absence of any intraabdominal, surgically treatable source of infection. 1 It is considered to be the final consequence of repeated episodes of bacterial translocation (BT) from the intestinal lumen and eventual arrival of bacteria in the ascitic fluid (AF). However, the predisposition to develop a SBP episode is related to its intrinsic bactericidal properties. [2][3][4] BT is an incompletely understood process by which intestinal bacteria can cross the epithelial wall, thereby reaching mesenteric lymph nodes and other organs. 5 BT has been studied extensively in cirrhotic rats, 6,7 but for obvious reasons it is difficult to study its incidence in patients with cirrhosis. 8 We recently reported the presence of bacterial DNA (BactDNA) in blood and AF in roughly 40% of patients with cirrhosis and culture-negative, nonneutrocytic ascites 9 and, although more experimental work is needed to confirm our hypothesis, the data available to date may represent molecular evidence of BT. This method allows the study of BT in patients without clinical evidence of infection, thus becoming a useful tool with which to investigate the steps preceding a fully developed infection.To our knowledge, to date it is not known whether bacteria translocate as the result of a "single pulse" event or, conversely, bacteria continuously are crossing the intestinal wall, and what is the rate of bacterial clearance from the systemic circulation. Although we previously reported that Escherichia coli is the most prevalent bacteria found to cause episodes of BT at the time of admission, 9 we do not know whether this finding may be different in the following hours or days.Therefore, the objectives of the current investigation were to explore the temporal pattern of BactDNA clear-

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