View clinical trials related to Ascites Infection.
Filter by:Liver cirrhosis is a common serious chronic disease. There are about 123 million patients with liver cirrhosis worldwide, and about 1 million people die of liver cirrhosis every year. The proportion of bacterial infection in hospitalized patients with liver cirrhosis is between 25% and 46%, among which spontaneous bacterial peritonitis (SBP) is the most common type of infection in patients with liver cirrhosis. After early and reasonable diagnosis and treatment, the mortality of cirrhotic patients with SBP can be reduced from more than 90% to about 20%. Therefore, rapid and accurate diagnosis is of great help to improve the prognosis of cirrhotic patients with SBP. However, at present, the traditional detection methods is time-consuming with a low detection rate, and can not detect intracellular bacteria and some other types of pathogens. Next-generation sequencing (NGS) is a relatively new detection technology which can detect the nucleic acid sequence information in a high-throughput, large-scale way. It can detect the pathogens comprehensively, fast and accurately. In recent years, NGS has gradually transitioned from a research tool to a diagnostic method. Many studies have shown that NGS has better application value in bloodstream infections, ocular infectious diseases, central nervous system infectious diseases and respiratory infectious diseases. However, there is still a lack of research on the use of NGS for the detection of pathogenic microorganisms in ascites. Therefore, by comparing the next generation sequence (NGS) and traditional detection technology in the detection of pathogens in ascites, this study aimed to evaluate the value of NGS in the pathogenic diagnosis of ascites infection.
Ascites is the most common complication of cirrhosis, and its development is associated with substantially increased mortality. Ascites infection including spontaneous bacterial peritonitis (SBP), bacterascites and fungal infections. SBP is one of the most feared complications of ascites. The EASL guidelines recommend that diagnostic criteria of SBP is defined on the ascitic fluid polymorphonuclear leucocytes (PMN) count ≥250 cell/μl, with or without ascites fluid positive culture. However, in clinical practice. Up to 30% of hospitalized patients are considered as suspicious SBP, and treated as SBP without a laboratory-confirmed cause of infection. and is present in 10-30% of all hospitalized patients with ascites. Besides, fungal infection in ascites was aslo related to high mortality in cirrhosis patients. Thus, to diagnose ascites infection promptly is the key step to prevent the complication. Since, the sensitivity of bacterial culture is limited even if ascites is directly injected into blood culture bottles at the besides. New method to identified the pathogen is needed. Here, we aim to use metagenomic next-generation sequencing(mNGS) to provide the first-ever demonstration of precision medicine for the diagnosis of ascites infection in hospitalized patients, with immediate impact on clinical care and patients outcomes. The method of mNGS is undertaken by BGI Genomics Company which is a licensed clinical diagnostic laboratory in China. In this multicenter and prospective clinical study, we are planning to detect ascites sample by mNGS and compare the performance of mNGS and routine microbiological testing. Ultimately, we aim to improve the diagnosis of ascites infection and improve patients' outcomes.