Geri Brown scite author profile

Bacterial infections are an important cause of mortality in cirrhosis but there is a paucity of multi-center studies. The aim was to define factors predisposing to infection-related mortality in hospitalized cirrhotic patients. Methods A prospective, cohort study of cirrhotic patients with infections was performed at eight North American tertiary-care hepatology centers. Data were collected on admission vitals, disease severity [MELD and sequential organ failure (SOFA)] scores], first infection site, type [community-acquired, health care-associated (HCA) or nosocomial], and second infection occurrence during hospitalization. The outcome was mortality within 30 days. A multi-variable logistic regression model predicting mortality was created. Results 207 patients (55 years, 60% men, MELD 20) were included. Most first infections were HCA (71%), then nosocomial (15%) and community-acquired (14%). Urinary tract infections (52%), spontaneous bacterial peritonitis (SBP, 23%) and spontaneous bacteremia (21%) formed the majority of the first infections. Second infections were seen in 50 (24%) patients and were largely preventable: respiratory, including aspiration (28%), urinary, including catheter-related (26%), fungal (14%) and C. difficile (12%) infections. Forty-nine patients (23.6%) who died within 30 days had higher admission MELD (25 vs 18, p<0.0001), lower serum albumin (2.4g.dL vs. 2.8g/dL, p=0.002), and second infections (49% vs. 16%, p<0.0001) but equivalent SOFA scores (9.2 vs. 9.9, p=0.86). Case fatality rate was highest for C. difficile (40%), respiratory (37.5%) and spontaneous bacteremia (37%), and lowest for SBP (17%) and urinary infections (15%). The model for mortality included admission MELD (OR: 1.12), heart rate (OR:1.03) albumin (OR:0.5) and second infection (OR:4.42) as significant variables. Conclusions Potentially preventable second infections are predictors of mortality independent of liver disease severity in this multi-center cirrhosis cohort.

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Infection Caused byFrancisella philomiragia(FormerlyYersinia philomiragia)

Wenger¹,

Hollis²,

Weaver³

et al. 1989

Ann Intern Med

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We evaluated the clinical characteristics of patients with Francisella philomiragia (formerly Yersinia philomiragia) isolated from normally sterile sites. Isolates from 14 patients were received by the Centers for Disease Control between 1975 and 1987: 9 were from blood; 2 from lung biopsies; and 1 each from pleural, peritoneal, and cerebrospinal fluid. Underlying problems included chronic granulomatous disease in 5 patients, near-drowning in 5, and a myeloproliferative disease in 2. All 13 patients for whom records were available had a febrile syndrome compatible with bacterial infection. Pneumonia and fever-bacteremia were the commonest clinical syndromes reported. In 7 cases, F. philomiragia was the only sterile-site isolate, and the clinical syndrome did not resolve without appropriate antibiotics. Familiarity with this organism is important because of its ability to cause serious disease in chronic granulomatous disease and near-drowning patients. Further study may yield new insights into pathogenic and host defense mechanisms.

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Bone marrow progenitor cells contribute to esophageal regeneration and metaplasia in a rat model of Barrett’s esophagus

et al. 2008

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Barrett's esophagus develops when refluxed gastric juice injures the esophageal squamous lining and the injury heals through a metaplastic process in which intestinal-type columnar cells replace squamous ones. The progenitor cell that gives rise to Barrett's metaplasia is not known, nor is it known why the condition is predisposed to malignancy. We studied the contribution of bone marrow stem cells to the development of Barrett's esophagus in an animal model. Twenty female rats were given a lethal dose of irradiation followed by tail vein injection of bone marrow cells from male rats. Ten days later, the female rats were randomly assigned to undergo either esophagojejunostomy, a procedure that causes reflux esophagitis with intestinal metaplasia, or a sham operation. The rats were killed at 8 weeks and serial sections of the snap-frozen esophagi were cut and mounted on slides. The first and last sections were used for histological evaluation and the intervening sections were immunostained for cytokeratin to identify epithelial cells and analyzed for Y chromosome by fluorescence in situ hybridization (FISH). Histological evaluation of the esophagi from rats that had esophagojejunostomy revealed ulcerative esophagitis and multiple areas of intestinal metaplasia. FISH analyses showed that some of the squamous epithelial cells and some of the columnar epithelial cells lining the glands of the intestinal metaplasia were positive for Y chromosome. These observations suggest that multi-potential progenitor cells of bone marrow origin contribute to esophageal regeneration and metaplasia in this rat model of Barrett's esophagus.

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Virally Infected Hepatocytes Are Resistant to Perforin-Dependent CTL Effector Mechanisms

Kafrouni

Brown

Thiele

2001

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Cell-mediated cytotoxicity plays an important role in the clearance of noncytopathic viruses from infected tissues. Perforin-dependent cytotoxic mechanisms have been noted to play an important role in the clearance of infections from multiple extrahepatic organs. In contrast, mice with defects in the Fas/Fas ligand (FasL)-mediated cytotoxicity pathway exhibit delayed clearance of adenovirus from the liver without apparent delay in the clearance of viral infections from extrahepatic organs. The present studies examined the role of cytotoxic effector mechanisms in intrahepatic immune responses to a replication-defective, recombinant β-galactosidase-encoding adenovirus (AdCMV-lacZ). Delayed clearance of AdCMV-lacZ from the livers of FasL-defective B6.gld mice, but not perforin-deficient B6.pfp−/− mice, was noted despite no significant differences in initial hepatic CD8+ T cell IFN-γ or TNF responses or in activation of intrahepatic cytotoxic lymphocytes cells capable of killing AdCMV-lacZ-infected fibroblast targets. In contrast, AdCMV-lacZ-infected hepatocyte targets were far more sensitive to killing by intrahepatic cytotoxic lymphocytes from B6.pfp−/− than from B6.gld mice, and residual levels of virus-specific killing of hepatocyte targets by FasL-defective B6.gld CTL were blocked by TNF inhibition. These results suggest that inherent resistance of hepatocytes to cytotoxicity mediated by perforin-dependent mechanisms leaves Fas/FasL-dependent, cell-mediated cytotoxicity as the major pathway for CTL-mediated killing of virally infected hepatocytes and accounts for the more prominent role of perforin-independent anti-viral mechanisms in immune responses in the liver.

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Geri Brown

Second infections independently increase mortality in hospitalized patients With cirrhosis: the north american consortium for the study of end-stage liver disease (NACSELD) experience

Infection Caused byFrancisella philomiragia(FormerlyYersinia philomiragia)

Bone marrow progenitor cells contribute to esophageal regeneration and metaplasia in a rat model of Barrett’s esophagus

Virally Infected Hepatocytes Are Resistant to Perforin-Dependent CTL Effector Mechanisms

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