Hepatocyte transplantation improves the survival of laboratory animals with experimentally induced acute liver failure and the physiological abnormalities associated with liver-based metabolic deficiencies. The role of hepatocyte transplantation in treating decompensated liver cirrhosis, however, has not been studied in depth. To address this issue, cirrhosis was induced using phenobarbital and carbon tetrachloride (CCL 4 ) and animals were studied only when evidence of liver failure did not improve when CCL 4 was held for 4 weeks. Animals received intrasplenic transplantation of syngeneic rat hepatocytes (G1); intraperitoneal transplantation of syngeneic rat hepatocytes (G2); intraperitoneal transplantation of a cellular homogenate of syngeneic rat hepatocytes (G3); intraperitoneal transplantation of syngeneic rat bone marrow cells (G4); or intrasplenic injection of Dulbecco's modified Eagle medium (DMEM) (G5). After transplantation, body weight and serum albumin levels deteriorated over time in all control (G2-G5) animals but did not deteriorate in animals receiving intrasplenic hepatocyte transplantation (G1) (P F .01). Prothrombin time (PT), total bilirubin, serum ammonia, and hepatic encephalopathy score were also significantly improved toward normal in animals receiving intrasplenic hepatocyte transplantation (P F .01). More importantly, survival was prolonged after a single infusion of hepatocytes and a second infusion prolonged survival from 15 to 128 days (P F .01). Thus, hepatocyte transplantation can improve liver function and prolong the survival of rats with irreversible, decompensated cirrhosis and may be useful in the treatment of cirrhosis in humans. (HEPATOLOGY 2000;31: 851-857.)
In Japan, the national screening for the hepatitis C virus (HCV) has been started for both the general population and the high-risk groups. Our cost-effectiveness analysis was based on the result of the screening program including 99,001 people among the general population and 42,538 people among the high risk group from 2003 to 2006. The screening was performed using the three steps of the semi-quantitative HCV antibody test, the HCV core antigen test and the HCV-PCR test. A Markov model for HCV infected patients was constructed to estimate the future clinical benefits and the lifetime cost and the cost-effectiveness analysis was performed considering the recent treatment with peginterferon plus ribavirin. In the cost-effectiveness analysis, the cohort, in which the screening was implemented (= screening strategy), was compared with the similar cohort without the screening (= no-screening strategy) in both the general population and the high-risk group, stratified by age. The infection rates of the general population and the high-risk group were 0.36% and 0.81%, respectively. The incremental cost-effectiveness ratio (ICER), a measure of cost-effectiveness, of the general population and the high-risk group was calculated to be from 848 to 4,825 and -749 to 2,297 $/life expectancy gained, respectively. The treatment effectiveness, transition probabilities and the infection rate varied in the one-way sensitivity analyses, but the superiority of the screening strategy regarding the cost-effectiveness was unchanged. In conclusion, the screening strategy in both the general population and the high-risk group therefore appears to be more cost-effective than a no-screening strategy.screening; hepatitis C; general population; high risk group; cost-effectiveness. Tohoku
There has been increased interest in the role of B cells in the pathogenesis of primary biliary cirrhosis. Although the vast majority of patients with primary biliary cirrhosis have antimitochondrial antibodies, there is no correlation of antimitochondrial antibody titer and/or presence with disease severity. Further, in murine models of primary biliary cirrhosis, it has been suggested that depletion of B cells may exacerbate biliary pathology. To address this issue, we have focused on detailed phenotypic characterization of mononuclear cell infiltrates surrounding the intrahepatic bile ducts of patients with PBC, PSC, AIH, CH-C and GVHD, including CD3, CD4, CD8, CD20, CD38 and immunoglobulin classes, as well as double immunohistochemical staining for CD38 and IgM. Interestingly, CD20 B lymphocytes, which are a precursor of plasma cells, were found in scattered locations or occasionally forming follicle-like aggregations but were not noted at the proximal location of chronic nonsuppurative destructive cholangitis. In contrast, there was a unique and distinct coronal arrangement of CD38 cells around the intrahepatic ducts in primary biliary cirrhosis but not controls; the majority of such cells were considered plasma cells based on their expression of intracellular immunoglobulins, including IgM and IgG, but not IgA. Patients with primary biliary cirrhosis who manifest this unique coronal arrangement were those with significantly higher titers of antimitochondrial antibodies. These data collectively suggest a role of plasma cells in the specific destruction of intrahepatic bile ducts in primary biliary cirrhosis and highlight the increasing interest in plasma cells and autoimmunity.
The shortage of human livers available for hepatocyte isolation limits its clinical application. The availability of cloned, conditionally immortalized hepatocytes that could be grown in culture but would lose their transformed phenotype and provide metabolic support upon transplantation would greatly facilitate the treatment of acute liver failure. Toward this goal, we transduced isolated Lewis rat hepatocytes using a replication-defective recombinant retrovirus capable of transferring a gene encoding a thermolabile mutant simian virus 40 T antigen (SV40ts). The cloned, immortalized hepatocytes proliferate at 33 degrees C. At the nonpermissive temperatures (37-39 degrees C), they stop growing and exhibit characteristics of differentiated hepatocytes. These cells did not produce tumors when transplanted in mice with severe combined immunodeficiency disease or in syngeneic rats. To induce acute liver failure, Lewis rats were subjected to 90% hepatectomy (Hpx) and given 5% oral dextrose. All rats that did not undergo hepatocyte transplantation died within 96 hr. Fifty percent of rats that received intrasplenic injection of 10 x 10(6) primary Lewis rat hepatocytes (G2, n=6) or 10 x 10(6) SV40ts-conditionally immortalized (SV40ts-ci) hepatocytes (G3, n=8) 1 day before 90% hepatectomy survived, whereas 80% of rats that received an intraperitoneal injection of 200 x 10(6) primary Lewis rat hepatocytes (G4, n=10) or 200 x 10(6) SV40ts-ci hepatocytes (G5, n=10) on the day of hepatectomy survived. Survival after intraperitoneal injection of a cellular homogenate of 200 x 10(6) primary Lewis rat (G7, n=9) or SV40ts-ci hepatocytes (G8, n=10) on the day of Hpx was 33% and 40%, respectively, whereas survival after intraperitoneal injection of 200 x 10(6) Lewis rat bone marrow cells (G6, n=7) was 29%. Thus, transplanted, conditionally immortalized hepatocytes can be as effective as primary hepatocytes in supporting life during acute liver insufficiency. This work represents the first step in developing an hepatocyte cell line that would partially alleviate the organ-donor shortage and could be of potential clinical value.
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