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Query: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An epizootiological survey of necropsied cases (1993-1997) at University of the Philippines was performed. A total of 368 cases included 238 avian and 111 porcine cases. Amongst avian cases, the major cause of death was infectious diseases in 212 (89%) cases including 97 (41%) bacterial, 36 (15%) viral, and 21(9%) parasitic diseases. The majority of the avian bacterial diseases presented as septicemia (73 cases) and the viral diseases as Newcastle disease (17 cases). In porcine cases, the major cause of death was also infectious diseases, in 100 (90%) cases including 52 bacterial and 29 viral diseases. Porcine bacterial diseases were classified into 36 septicemia, 4 hemophillosis and 4 colibacillosis. Amongst the porcine viral diseases, most cases were diagnosed as Hog cholera (22 cases).
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PMID:An epizootiological survey of necropsy cases (1993-1997) at University of the Philippines. 1082 33

The importance of an acute encephalopathy associated with nontyphoidal salmonellosis has recently been recognized, but the disease entity has been poorly established. In this study, we describe two encephalopathic patients associated with nontyphoidal salmonellosis. The patients exhibited a rapid evolution of coma after the onset of lethargy or seizure. Fever and diarrhea due to salmonellosis preceded these events. Secondary factors inducing encephalopathies, such as severe dehydration, sepsis, meningitis, electrolyte or metabolic disturbances, acute renal failure, and multiple organ failure, were excluded in the differential diagnosis at the onset of encephalopathic features. These clinical findings and rapid development of encephalopathic features from localized intestinal infection without any significant abnormalities in a variety of blood tests may suggest a toxic etiology. However, endotoxin was not found in serum from both patients. From these results, we conclude that nontyphoidal salmonellosis can cause a toxic encephalopathy syndrome, like shigellosis or verocytotoxin-producing Escherichia coli infection.
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PMID:Acute encephalopathy associated with nontyphoidal salmonellosis. 1145 56

Escherichia coli is the second most common bacterium isolated from the blood of neonates with sepsis. During a 12-year period from January 1988 through December 2000, E. coli sepsis or central nervous system infections were diagnosed in a total of 46 infants (M/F ratio, 3.6:1) in a tertiary care medical center. These infants were stratified into 3 groups according to age at disease onset. Group A include infants at birth to 7 days old; Group B, 7 days to 1 month old; and Group C, beyond 1 month old. Among them, 13 had sepsis, 24 had urosepsis, and 9 had meningitis or meningoencephalitis. All patients with central nervous system infections were younger than 40 days old. In the urosepsis group, 22 (91.7%) of 24 patients were younger than 6 months old with a male predominance (M/F ratio, 20:4), and 7 (29.2%) of 24 had urinary tract anomaly. Nine (68%) of 13 patients with sepsis had underlying disease. The most common clinical signs and symptoms were fever (89.1%), followed by tachycardia (71.7%), ill looking (50%), poor feeding (30.4%), and tachypnea (23.9%). The significant laboratory findings were elevated C-reactive protein (60.9%), and leukocytosis (56.5%) with left shifting (43.5%). Antimicrobial susceptibility test of the isolates showed a 67.7% resistant rate to ampicillin and a 35.5% resistant rate to chloramphenicol between 1994 and 2000. No significant increase in the resistance rate of the strains was noted compared with results from 2 studies conducted at different periods of time (1988-1993 and 1994-2000). Two infants with central nervous system infection died and 5 experienced major neurological sequelae. The clinical spectrum of invasive E. coli infections is age-related and associated with the underlying conditions. The prognosis was related to the development of central nervous system complications.
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PMID:Invasive Escherichia coli infection in infancy: clinical manifestation, outcome, and antimicrobial susceptibility. 1209 30

A 72-year-old non-diabetic uremic woman underwent right nephrectomy for urolithiasis at the age of 50. Because pyuria, fever, chilliness and left flank pain developed during preparing for arteriovenous fistula, she was admitted to National Cheng Kung University Hospital. Renal cell carcinoma (RCC) complicated with emphysematous pyelonephritis (EPN) was diagnosed and immediately treated with antibiotics and CT-guided percutaneous catheter drainage. Cultures of pus and blood yielded Escherichia coli. She received left radical nephrectomy later for the control of persistent sepsis and removal of left renal tumor. The pathology of the tumor was composed of a glandular arrangement of granular cells with the occasional atypism, and renal parenchyma had been totally replaced by RCC. The non-tumor part of the kidney showed chronic pyelonephritis. Five months later, multiple metastases developed. We reported this first uremic case with EPN and RCC, but without diabetes mellitus and urinary tract obstruction. The gas formation may be due to large RCC, which caused impaired tissue perfusion and E. coli infection.
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PMID:Renal cell carcinoma complicated by emphysematous pyelonephritis in a non-diabetic patient with renal failure. 1218 10

Sepsis is thought to result from an exaggerated innate immune response to microbial components such as lipopolysaccharide (LPS), but the involvement of a specific mechanism(s) has not been identified. We studied the role of caspase 1 (Cas-1) in the murine innate immune response to infection with gram-negative bacteria and to nonlethal and lethal doses of LPS. cas-1(-/-) and Cas-1 inhibitor (Ac-YVAD-CHO)-treated cas-1(+/+) mice were two- to threefold more susceptible to lethal Escherichia coli infection than cas-1(+/+) mice. Administration of Cas-1 products, interleukin-18 (IL-18) or IL-1beta, protected three of three and six of seven mice, respectively, from lethal infection with E. coli compared to none of six of untreated mice (P = 0.0082). Therefore, cas-1 is essential for antibacterial host defense. Nonlethal (75 micro g) and lethal (500 micro g) doses of LPS induce different patterns of gamma interferon, IL-1beta, and IL-18 expression. Consequently, the role of Cas-1, which cleaves pro-IL-18 and pro-IL-1beta to their active forms, was investigated in these disparate conditions by using enzymatic assay and reverse transcription-PCR. At 75 micro g, LPS induced a transient increase in IL-1beta and IL-18 levels in serum, whereas at 500 micro g it induced a 1.5-fold-higher IL-18 level in serum, which increased till death. At 75 micro g of LPS, splenic cas-1 mRNA expression remained unchanged at all time points, but activity increased transiently at 3 h. In lethally treated mice, Cas-1 activity remained elevated until death; however, cas-1 mRNA levels increased at 3 h and decreased to basal levels by 8 h. Treatment with Cas-1 inhibitor protected mice from lethal endotoxemia. Thus, Cas-1 is essential for innate antibacterial host defenses and may represent a mechanism of innate immunity that upon excessive stimulation by microbial components may lead to endotoxic shock.
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PMID:Role of caspase 1 in murine antibacterial host defenses and lethal endotoxemia. 1243 67

Infection is a serious complication among very low birth weight (VLBW) preterm infants hospitalized in neonatal intensive care units. This article reviews studies from the National Institute of Child Health and Human Development (NICHD) Neonatal Research Network including infection data from observational studies and randomized controlled trials. Blood culture-proven early-onset sepsis (< or = 72 hours) was found in less than 2% of VLBW infants, but was associated with substantial morbidity and mortality. A change in pathogens causing early-onset sepsis among Network patients has been observed over the past decade, with a significant reduction in early-onset group B streptococcal infections, but also a significant increase in early-onset Escherichia coli infections. This change is particularly worrisome, because of the high death rate associated with gram-negative infections, including E coli. Late-onset (> 72 hours) sepsis developed in almost a quarter of infants. The vast majority of infections were caused by gram-positive agents, especially coagulase-negative staphylococci. The risk of late-onset sepsis was inversely related to birth weight and gestational age. Infants with late-onset sepsis were at increased risk for a number of neonatal morbidities, for prolonged hospitalization, and for death. The percentage of deaths attributed to infection increased with increasing postnatal age. The increasing survival of extremely immature infants has resulted in a cohort of infants at prolonged risk for acquired infection. Successful strategies to reduce infections among VLBW infants would improve survival, reduce neonatal morbidity, and reduce the high medical and social costs of VLBW infant care.
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PMID:Infections in VLBW infants: studies from the NICHD Neonatal Research Network. 1451 Mar 20

Infections with avian pathogenic Escherichia coli (APEC) cause colibacillosis, an acute and mostly systemic disease resulting in significant economic losses in poultry industry worldwide. Avian colibacillosis is a complex syndrome characterized by multiple organ lesions with airsacculitis and associated pericarditis, perihepatitis and peritonitis being most typical. Environmental factors as well as the constitution of poultry or initial viral infections influence the outcome of APEC-infections. However, several challenge experiments in chickens proofed the role of virulent APEC strains as the single aetiological agent. Currently serotypes O1:K1, O2:K1 and O78:K80 are recognized as the most prevalent, however the number of published serotypes is increasing. In addition, single APEC isolates vary profoundly in virulence, and knowledge about the molecular basis of this variability is still scarce. Known virulence factors of APEC are adhesins (F1- and P-fimbriae), iron acquisition systems (aerobactin and yersiniabactin), hemolysins (hemolysinE and temperaturesensitive hemagglutinin), resistance to the bactericidal effects of serum and phagocytosis (outer membrane protein, iss protein, lipopolysaccharide, K/1)-capsule and colilcin production) as well as toxins and cytotoxins (heat stable toxin, cyto-/verotoxin and flagella toxin). Esperimental studies have shown that the respiratory tract, principally the gas-exchange region of the lung and the interstitium of the air sacs are the most important sites of entry for avian pathogenic E. coli. APEC strains adhere to the epithelial cells of air sacs presumably through F1-fimbriae. After colonization and multiplication the bacteria enter the bloodstream, and the temperature-sensitive hemagglutinin (tsh) seems to be important int his step. After invading the bloodstream APEC cause a septicemia resulting in massive lesins in multiple internal organs and in sudden death of the birds. The ability of the bacteria to acquire iron and the resistance to the bactericidal effects of serum, predominantly conferred by the increased serum survival (iss)--protein, enables APEC to multiply quickly in their hosts. Iss is regarded a specific genetic marker for avian pathogenic E. colistrains. A critical review of the literature published so far on APEC reveals, that these pathotypes are not defined appropriately. This findings urge investigations on the population structure of APEC, enabling the establishment of appropriate diagnostic tools and avoiding the obsolete use of serotyping for APEC diagnosis. So far more than 20 APEC strains have been investigated in animal experiments, explaining contrary published results. Thus, the lack of knowledge in pathogenicity and in immunity of APEC infections urges further experimental studies. As APEC share not only identical serotypes with human pathogens but also specific virulence factors, their zoonotic potential is under consideration.
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PMID:[Avian pathogenic Escherichia coli (APEC)]. 1452 68

Lipopolysaccharide (LPS) is a highly proinflammatory molecule isolated from bacteria. This study demonstrated the existence of LPS in a medicinal fungus, Antrodia camphorata. Because no LPS had been identified in any fungus organism, the purification of LPS from A. camphorata was attempted. LPSs from six strains of A. camphorata (35396, 35398, 35716, B71, B85, and B86) were isolated. Chemical and functional properties were investigated on the fungus LPS. Compositional analysis revealed that sorbitol, fucose, galactose, and glucose were the neutral sugars in LPS of A. camphorata. Galactosamine, glucosamine, galactose, and glucose were the predominant monosaccharide species in E. coli O129 LPS molecules, whereas galactosamine and glucosamine were absent in A. camphorata LPS. Because these properties are different from those of bacterial LPS, the functions between fungus and bacterial LPS are also discussed. The vascular endothelial lining of blood vessels, which controls leucocyte traffic and activation, may be one of the primary targets of LPS action during sepsis. Assays for biological activity were performed on endothelial cells with anti-inflammatory effects associated with sepsis. A. camphorata LPS apparently showed a lesser extent of cytotoxicity than bacterial LPS. In contrary to the proinflammatory property of bacterial LPS, LPS from A. camphorata differentially reversed bacterial LPS-induced intercellular adhersion molecule-1 and monocyte adhesion; both were indicators during inflammatory process. In conclusion, basic chemical properties categorized A. camphorata extracts into lipopolysaccharide. However, the detailed functional structures and bioactivities of A. camphorata LPS were totally different from those of bacterial LPS. The investigation of the existence and anti-inflammatory effect of fungus LPS is at present a truly novel and important finding. These results show that LPS isolated from A. camphorata offers a novel therapeutic target for anti-inflammation against E. coli infection.
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PMID:Characterization and functional study of Antrodia camphorata lipopolysaccharide. 1565 90

Enteropathogenic Escherichia coli and enterohemorrhagic E. coli cause an inflammatory colitis in human patients characterized by neutrophil infiltration, proinflammatory cytokine expression, and crypt hyperplasia. Citrobacter rodentium causes a similar colitis in mice and serves as a model for enteropathogenic E. coli infection in humans. C. rodentium induces systemic T-cell-dependent antibody production that facilitates clearance of the bacteria and protects the host from reinfection. The role of innate immune cells in infectious colitis, however, is less well understood. In this study, we have determined the role of mast cells in the inflammatory response and disease induced by C. rodentium. Mice deficient in mast cells exhibit more severe colonic histopathology and have a higher mortality rate following infection with C. rodentium than do wild-type animals. Despite unimpaired neutrophil recruitment and lymphocyte activation, mast cell-deficient mice have a disseminated infection evident in crucial organ systems that contributes to sepsis. Importantly, mast cells also have the capacity to directly kill C. rodentium. Together, these results suggest that mast cells protect the host from systemic infection by reducing the bacterial load and preventing dissemination of the bacterium from the colon.
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PMID:Mast cells limit systemic bacterial dissemination but not colitis in response to Citrobacter rodentium. 1578 38

Extraintestinal pathogenic (ExPEC) Escherichia coli strains of serotype O18:K1:H7 are mainly responsible for neonatal meningitis and sepsis in humans and belong to a limited number of closely related clones. The same serotype is also frequently isolated from the extraintestinal lesions of colibacillosis in poultry, but it is not well known to what extent human and avian strains of this particular serotype are related. Twenty-two ExPEC isolates of human origin and 33 isolates of avian origin were compared on the basis of their virulence determinants, lethality for chicks, pulsed-field gel electrophoresis (PFGE) patterns, and classification in the main phylogenetic groups. Both avian and human isolates were lethal for chicks and harbored similar virulence genotypes. A major virulence pattern, identified in 75% of the isolates, was characterized by the presence of F1 variant fimbriae; S fimbriae; IbeA; the aerobactin system; and genomic fragments A9, A12, D1, D7, D10, and D11 and by the absence of P fimbriae, F1C fimbriae, Afa adhesin, and CNF1. All but one of the avian and human isolates also belonged to major phylogenetic group B2. However, various subclonal populations could be distinguished by PFGE in relation to animal species and geographical origin. These results demonstrate that very closely related clones can be recovered from extraintestinal infections in humans and chickens and suggest that avian pathogenic E. coli isolates of serotype O18:K1:H7 are potential human pathogens.
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PMID:Common virulence factors and genetic relationships between O18:K1:H7 Escherichia coli isolates of human and avian origin. 1702 Oct 71

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