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Liver Architecture (liver + architecture)
Selected AbstractsCurrent Experimental Perspectives on the Clinical Progression of Alcoholic Liver DiseaseALCOHOLISM, Issue 10 2009Katja Breitkopf Chronic alcohol abuse is an important cause of morbidity and mortality throughout the world. Liver damage due to chronic alcohol intoxication initially leads to accumulation of lipids within the liver and with ongoing exposure this condition of steatosis may first progress to an inflammatory stage which leads the way for fibrogenesis and finally cirrhosis of the liver. While the earlier stages of the disease are considered reversible, cirrhotic destruction of the liver architecture beyond certain limits causes irreversible damage of the organ and often represents the basis for cancer development. This review will summarize current knowledge about the molecular mechanisms underlying the different stages of alcoholic liver disease (ALD). Recent observations have led to the identification of new molecular mechanisms and mediators of ALD. For example, plasminogen activator inhibitor 1 was shown to play a central role for steatosis, the anti-inflammatory adipokine, adiponectin profoundly regulates liver macrophage function and excessive hepatic deposition of iron is caused by chronic ethanol intoxication and increases the risk of hepatocellular carcinoma development. [source] Liver pathology in compound heterozygous patients for hemochromatosis mutationsLIVER INTERNATIONAL, Issue 4 2002Maximilian Schöniger-Hekele Abstract: Background: While hepatic pathology of homozygous carriers of the C282Y mutation of the HFE haemochromatosis gene is well defined, the impact of the C282Y/H63D compound heterozygous carrier state is unknown. Aims: To evaluate the range of hepatic pathology in C282Y/H63D compound heterozygous patients. Patients: 25 C282Y/H63D compound heterozygous patients with and without known underlying liver disease underwent liver biopsies for evaluation or abnormal liver tests. Eleven cadaveric liver donors with HFE wild type served as controls. Methods: Mutations in the HFE gene were detected by polyacrylamide gel electrophoresis (PAGE) separation of digested polymerase chain reaction (PCR)-amplificates. The extent of light microscopic changes of liver architecture were studied on haematoxylin, eosin (H. E.) stains. In addition, the extent and the distribution of iron deposition was graded on Prussian blue-stained sections and hepatic iron was quantified by atom absorption spectroscopy. Serum ferritin concentration and the transferrin saturation index were measured using routine laboratory methods. Results: Patients without underlying liver disease (n = 15): Hepatic inflammation was seen in only 8% but fibrosis was found in 36% of compound heterozygous patients. Eighty six percent of those patients had stainable iron predominantly found in Rappaport's zone 1 and 2, but all had a liver iron-index < 1.9. Transferrin saturation was found elevated in 36% of compound heterozygous patients. Patients with liver fibrosis showed significantly higher ferritin levels than patients without liver fibrosis (1110 ng/mL versus 307 ng/mL, p < 0.05). Patients with underlying disease (n = 10): In compound heterozygous patients, 77% had hepatic inflammation and 88% fibrosis. Stainable iron (44%) was less frequently found than in patients without underlying liver disease. Hepatic iron-index in patients with underlying liver disease was always below 1.17; transferrin saturation was elevated in only 22% of the compound heterozygous patients. Histologic hepatic iron-index was significantly lower in patients with underlying disease (median 0.047) as compared to patients without underlying liver disease (median 0.274, P < 0.05). Conclusions: The underlying liver disease determines the extent of hepatic pathology seen in livers of compound heterozygous patients. However, considerable histologic fibrosis can also be found in compound heterozygous patients without underlying liver disease. [source] Time-course changes in the liver of biliary atresia patients on magnetic resonance imagingPEDIATRICS INTERNATIONAL, Issue 1 2009Atsushi Takahashi Abstract Background:, Using magnetic resonance imaging (MRI), changes in the livers of postoperative biliary atresia (BA) patients were investigated. Methods:, Periodic MRI was performed in 32 postoperative BA patients. The findings were evaluated by calculating the near-normal liver tissue area that corresponded with normal- or high-signal regions on T1-weighted imaging. The patients were divided into three groups based on the extent of near-normal liver tissue on the final MRI: group A, n = 14; group B, n = 13; and group C, n = 5, included patients with >40%, 20,40%, and <20% area of near-normal liver tissue, respectively. The relationship among the macroscopic and histological findings in the liver at orthotopic living donor liver transplantation (OLDLT), patient outcomes, and MRI findings were investigated. Results:, In group A, 11 patients had no evidence of liver dysfunction. In group B, six patients either had undergone or were awaiting OLDLT. In group C, all patients had undergone OLDLT. All patients had either adequate or impaired bile drainage in each liver segment. The segmental changes corresponded with the liver architecture at OLDLT. The changes could be evaluated on MRI at 1,2 years after surgery. Conclusions:, Adequate and restricted areas of liver tissue with near-normal structure were indicative of good and poor prognoses, respectively. Shortly after portoenterostomy, these segmental changes occurred and/or developed in each liver segment and could be detected on MRI. It is emphasized that patients with >40% area of near-normal liver architecture at the initial stages did not require OLDLT, while those with <20% area did require OLDLT. [source] | ||||||||||