UMLS:C0341503 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0341503 (bacterial peritonitis)
1,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to determine the composition of "normal" ascitic fluid, the results of analysis of the first paracentesis on 347 consecutive cirrhotic patients with ascites at the West Haven Veterans Administration Hospital between 1955 and 1976 were examined. The ascites was considered "normal" in 259 patients. Bacterial peritonitis was present in 51, malignant ascites in 18, pancreatitic ascites in 15, and ascites of other types in 4 patients. Normal ascites is sterile, usually clear, and contains 281 +/- 25 leukocytes/mm3 (mean +/- SEM), 27 +/- 2% of which are polymorphonuclear. In spontaneous bacterial peritonitis the fluid is usually cloudy, contains 6084 +/- 858 white blood cells/mm3, 77 +/- 4% of which were PMN and culture is positive for a single bacterial species, usually enteric in origin. Malignant and pancreatitis ascites are sterile, often cloudy, and contain an average of 696 +/- 273 and 1821 +/- 833 leukocytes/mm3, respectively, about half of which are polymorphonuclear. Amylase activity is increased in pancreatitic ascites, but not in other types of ascites. Stained smears of sediment for bacteria are often positive in bacterial peritonitis, but not in the other categories. Neither the specific gravity, protein concentration, nor glucose level is useful in the differential diagnosis of ascites. Based on the critical number of leukocytes alone, (500/mm3), one can accurately differentiate infected from uninfected fluid in over 90% of ascitic patients.
...
PMID:Analysis of ascitic fluid in cirrhosis. 42 2

Patients with liver cirrhosis and ascites suffer from spontaneous bacterial peritonitis (SBP) in up to 25%. The typical clinical signs are abdominal pain with tenderness and fever. 30% have no signs of peritonitis. Then clinical worsening, encephalopathy, rising serum creatinine levels, and therapy resistant ascites may be the only clinical features. SBP must be differentiated from bacterascites and culture negative neutrocytic ascites by the polymorphonuclear neutrophil (PMN) count in the ascites and the presence of positive culture results, which has prognostic implications. Gram negative rods from the colon play an important etiological role in SBP. Gastrointestinal bleeding, lack of serum complement, a low ascites protein and the extent of intrahepatic shunts predispose to SBP. Then, prophylaxis with the comparable drugs neomycin and norfloxacin is indicated. Coexisting encephalopathy has to be treated by the therefore effective neomycin. Otherwise, norfloxacin is the drug of choice because of better acceptance and lower costs. Chemical parameters of the ascites (pH value less than 7.4; LDH and lactate greater than serum levels; glucose less than 50 mg%) help to assess the severity of peritonitis. The course of ascitic PMN under therapy and the time of persisting positive cultures can discriminate SBP from secondary peritonitis. Antibiotics of choice are amoxicillin-clavulanic acid and cefotaxime. Short course therapy (5 days) is a effective as long course therapy (10 days). Today SBP is no more life-threatening because diagnosis, prophylaxis and therapy have improved. However, complication rate of patients with liver cirrhosis and ascites has not changed.
...
PMID:[Spontaneous bacterial peritonitis]. 141 38

It is well known that endotoxin (Et) plays an important role in severe surgical infectious diseases such as peritonitis. Recently, it has been reported that increased superoxide (O2-) formation and accelerated lipid-peroxidation cause the progress of Et shock. The present study was designed to estimate the changes in the amount of lipid-peroxides in the liver and the relationship between Et and lipid-peroxidation in bacterial peritonitis. Plasma Et levels, lipid-peroxides in the liver, the number of leukocytes in the blood and the number of bacteria in the blood and peritoneal cavity were determined using an experimental peritonitis model that was induced by intraperitoneal (i.p.) injection of E. coli, E. faecalis and B. fragilis, as well as experimental endotoxemia model induced i.p. injection of Et. The influence of ET on the function of polymorphonuclear leukocytes (PMN), that was considered to be one of the origins O2- production, was studied using PMN from the peritoneal cavity of rats. The plasma Et level was increased in an E. coli group and mixed injection group, and the lipid-peroxide levels in the liver were increased in these two groups as well as in a B. fragilis group. Plasma Et and lipid-peroxide levels in the liver were also increased in Et injected mice. In the study of the influence of Et on PMN function, O2- formation of PMN was increased when PMN was stimulated by Et with a high concentration and hexose monophosphate shunt activity was increased in all PMN stimulated by Et. These results suggest that O2- from PMN stimulated by Et is related to lipid-peroxidation in the liver, which is considered an index of injury in bacterial peritonitis.
...
PMID:[The role of endotoxin in the pathogenesis of bacterial peritonitis with special reference to superoxide in polymorphonuclear leukocytes stimulated by endotoxin]. 166 19

Chemical analysis of ascitic fluid may be helpful in determining the underlying disease. We discuss the diagnostic accuracy of the common and newer chemical parameters (protein, LDH, lactate, glucose, cholesterol, triglycerides, phospholipids, fibronectin, albumin gradient [value of serum minus value of ascites], ferritin, tumor markers, immunomodulators, leukocytes, bacterial and cytologic examinations). We also review the pathogenesis and clinical findings of the most frequent ascites forms (benign hepatic, infective, malignant ascites, ascites associated with liver metastases or hepatocellular carcinoma, cardiac and pancreatic ascites) and the most important diagnosis criteria. In the malignant ascites a high cholesterol, a narrow albumin gradient or a high ferritin value have high diagnostic accuracy, but diagnosis is by the finding of malignant cells. For the diagnosis of infective ascites, bacteriology is mandatory even though the results are negative in most cases, particularly in spontaneous bacterial peritonitis where diagnosis has to be established clinically, by a low pH or by a high leukocyte count. Benign hepatic ascites is diagnosed by demonstrating an underlying chronic liver disease and laboratory examinations of the peritoneal fluid to exclude other causes. The laboratory tests in ascites associated with liver metastases or with hepatocellular carcinoma were similar to those in benign hepatic ascites and the two ascites forms must be separated by other clinical and technical findings. Pancreatic ascites can easily be distinguished from the other forms by the high amylase and lipase content.
...
PMID:[Laboratory chemical analysis in ascites]. 203 10

To prospectively assess the value of an algorithm in differentiating spontaneous from secondary bacterial peritonitis, we performed serial paracenteses in 43 episodes of ascitic fluid infection (28 spontaneous and 15 secondary) in 40 patients. The algorithm involved identification of (a) secondary peritonitis associated with gut perforation, based on previously proposed criteria in patients with neutrocytic ascites (ascitic fluid total protein greater than 1 g/dl, glucose less than 50 mg/dl, and lactate dehydrogenase greater than the upper limit of normal for serum) and (b) separation of spontaneous from secondary peritonitis (unassociated with perforation) based on the response of the ascitic fluid cell count to antibiotic therapy. The perforation criteria had 100% sensitivity in detecting episodes of actual gut perforation; their specificity, however, was low (45%). After 48 h of treatment the concentration of ascitic fluid neutrophils was below the baseline pretreatment value in all episodes of spontaneous peritonitis but in only two thirds of the patients with secondary peritonitis. This algorithm is useful in (a) identifying patients who have infected ascites associated with perforation of an intraabdominal viscus, and (b) differentiating spontaneous from nonperforation secondary peritonitis on the basis of the response of the ascitic fluid cell count to appropriate antibiotic therapy. The optimal time for repeat paracentesis in patients with infected ascites appears to be 48 h after initiation of treatment.
...
PMID:Utility of an algorithm in differentiating spontaneous from secondary bacterial peritonitis. 240 29

Sclerosing peritonitis is a severe complication after CAPD treatment. The visceral peritoneum is thickened and interenteric adhesive parts are found. Myofibroblasts are proliferated and the collageneous tissue is hyperplastic. The mean clinical symptom is the mechanical obstruction of the small bowel. We observed this illness in three out of sixty patients under CAPD. These patients had higher incidence of bacterial peritonitis. In the ascites high concentrations of PG E2 and Thromboxan B2 were observed. After treatment of the infection the concentrations fell down to normal values. Electronoptical observations from peritoneal biopsies showed a proliferation of myofibroblasts and extracellular lysosomes. It is known from these lysosomes that they are able to set free proteasis. These lead to degredation of fibrin and fibrinogen. These splits are mitogen to myofibroblasts. release from HIT cells could also be evoked by the sulphonylureas glibenclamide and tolbutamide and by an increase in concentration of extracellular K+ to 40 mmol/l. The content of cyclic AMP in HIT cells was increased modestly by glucose but not by an increase in extracellular K+. Forskolin elicited a 4-fold increase in cyclic AMP content. We conclude that HIT cells retain the essential features of the insulin secretory response of normal B cells and represent an important tool for further biochemical characterisation of the secretory system.
...
PMID:[Sclerosing peritonitis following continuous ambulatory peritoneal dialysis]. 346 44

In spontaneous bacterial peritonitis (SBP) the ascitic fluid culture (certain criterion of diagnosis) may be negative despite an evident clinical and biochemical picture. Therefore the diagnosis may be sometimes more "probable" than "certain". The authors performed a comparative analytical study--from a clinical, biochemical and prognostic point of view--between a group of 10 "probable" SBP (10 cirrhotic pts.) and 9 "certain" SBP (9 cirrhotic pts.). 115 "normal ascitic fluids" (negative culture in absence of any SBP-symptoms), collected from 82 cirrhotic pts., were used as control group. The ascitic concentration of white blood cells (WBC)/mmc and polymorphonuclear cells (PMN)/mmc was significantly different between the SBP and control group (p less than 0.001) and between the "certain" and "probable" SBP (p less than 0.02). The latter have a mean WBC and PMN/mmc count that is lower than the "certain" SBP and on the contrary a significantly higher ascitic glucose content (p less than 0.05). Probably that means a lower ascitic bacterial inoculum, which is below the threshold of detectability by current culture techniques. Serum laboratory tests showed no differences between the "probable" and the "certain" SBP groups, although, however they were worse than the control group. The symptoms and the prognosis resulted nearly the same in both groups. In spite of a high rate of recovery (57.9%) the global survival at the follow-up (10 +/- 5.2 months, range 6-19) was only 26.3%. The wide clinical, biochemical and prognostic overlap of the two groups leads us to consider as "certain" all the cases of "probable" SBP. Owing to the fact that only an early recognition and therapy are known to affect the prognosis significantly, the obvious conclusion is that in the SBP the suspicion is more important that the diagnostic certainty. Furthermore--in agreement with previous studies--the cutoff limit of 250 PMN/mmc has shown the best statistical diagnostic value for a rapid diagnosis (sensibility 100%, diagnostic accuracy 92.5%, negative predictive value 100%, likelihood ratio 1.9).
...
PMID:[Diagnostic problems in spontaneous bacterial peritonitis]. 352 99

In a search for clinical and laboratory factors that would aid in early diagnosis of spontaneous bacterial peritonitis, we identified two groups of patients with chronic liver disease and ascites: 1) 38 patients with 40 episodes of spontaneous bacterial peritonitis, and 2) 39 randomly selected patients with 40 sterile paracenteses who were matched for severity of liver dysfunction as a reference group. A variety of clinical and laboratory features were examined. The absolute lymphocyte count in peripheral blood was lower for the spontaneous bacterial peritonitis group (mean = 703/mm3 vs. 1,212/mm3, p less than 0.005). Four ascitic fluid variables, i.e., a white blood cell count of greater than or equal to 300/mm3, a polymorphonuclear leukocyte count of greater than or equal to 240/mm3, an ascitic fluid/serum LDH ratio of greater than or equal to 0.4, or an ascitic fluid/serum glucose ratio of less than or equal to 1.0, could separate the spontaneous bacterial peritonitis and reference groups with both sensitivity and specificity of greater than 70%. Although ascitic fluid total leucocyte and polymorphonuclear leucocyte counts are appropriate indicators for the early diagnosis of spontaneous bacterial peritonitis, the possibility of their false positivity should be warranted. The use of multiple tests including ascitic fluid/serum LDH and glucose ratios has better positive predictive value than a single test alone.
...
PMID:Early diagnosis of spontaneous bacterial peritonitis: values of ascitic fluid variables. 366 66

The value of chemical (protein, LDH, glucose, total and differential cell count) and cytological examination of the ascitic fluid in the differential diagnosis of peritoneal ascites was assessed in a prospective study of 98 patients. The ascites caused by hepatic metastases and primary carcinoma were of the transudative type and could not be distinguished from the type caused by cirrhosis on the basis of the parameters examined. In contrast the ascites caused by peritoneal carcinosis was exudative presenting a highly significant (p less than 0.001 for all parameters) difference from the three preceding groups. However there was no clear-cut distinction between the groups: in fact cirrhosis patients may present exudative ascites (8% in the present series, 12-19% in the literature). There was a substantial decrease in ascitic fluid glucose (less than 60 mg/dl) only in peritonitis and its measurement is therefore of secondary importance. In contrast with reports by other authors the ratio between LDH and protein concentrations in the effusion and the serum was found to be insignificant. The cytological examination revealed a significantly higher total cell count in bacterial peritonitis with a prevalence of polymorphonuclear cells and in peritoneal carcinoma where mononuclear cells predominate. Finally cytology revealed malignant tumour cells in the ascitic fluid and neoplastic peritoneal effusions in 28% of the patients examined.
...
PMID:[Chemical and cytologic tests in the differential diagnosis of ascites]. 382 20

It has been suggested that the hydrogen ion and lactate concentrations may be superior to the polymorphonuclear cell count (PMN) in ascitic fluid, in the diagnosis of bacterial peritonitis (BP). In order to compare the diagnostic accuracy of ascitic fluid measurements of pH, lactate, glucose and the PMN in BP, we analyzed the ascitic fluids of 70 consecutive patients in whom pH, lactate, glucose and the PMN count were measured in ascitic fluid and arterial blood. Fifty-one were cirrhotic patients with uninfected ascites, 14 had BP, one tuberculous peritonitis, two ascites secondary to peritoneal metastases and two with neoplastic liver involvement but without peritoneal metastases. Statistically, highly significant differences between patients with uninfected ascitic fluid and BP were observed for ascitic fluid PMN (122 vs. 2,686 per cu mm), ascitic fluid pH (7.45 vs. 7.24), arterial-ascitic fluid pH gradient (0.02 vs. 0.22), arterial lactate (12 vs. 25 mg per dl), ascitic fluid lactate (15 vs. 45 mg per dl) and arterial-ascitic fluid lactate gradient (-3 vs. -20 mg per dl). The most reliable diagnostic cutoff levels were determined for each of the parameters: PMN greater than 500 per cu mm; ascitic fluid pH less than 7.35; arterial-ascitic fluid pH gradient greater than 0.10; ascitic fluid lactate greater than 25 mg per dl; arterial-ascitic fluid lactate gradient less than -20 mg per dl; ascitic fluid glucose less than 60 mg per dl; arterial-ascitic fluid glucose gradient greater than 60 mg per dl.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:The diagnosis of bacterial peritonitis: comparison of pH, lactate concentration and leukocyte count. 396 68

1 2 3 Next >>