EC:2.1.1.69 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.1.1.69 (BMT)
2,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antibody to the recently identified hepatitis C virus was investigated in sera of 128 patients treated with allogeneic bone marrow transplantation, to determine the prevalence of HCV infection and its role in post-transplant liver complications. The overall prevalence of anti-HCV positivity was 28.6% (38/128 patients). The presence of pretransplant anti-HCV positivity (in 10/35 tested patients) did not seem to predict a more severe liver disease. In fact 8/10 anti-HCV+ and 15/25 anti-HCV- patients had elevated transaminases at BMT, and posttransplant liver failure (due to VOD or subacute hepatitis), and post-BMT rises in transaminases occurred regardless of anti-HCV serology (P = 0.6 and 0.2, respectively). In patients tested for anti-HCV after BMT (n = 128), only two (one anti-HCV+ and one anti-HCV-) experienced VOD; the number of patients in whom liver failure contributed to death was comparable in anti-HCV-positive and anti-HCV- negative patients (P = 0.4). Among 17 patients with documented posttransplant seroconversion (from anti-HCV- to anti-HCV+) the appearance of anti-HCV was concomitant with hepatitis exacerbation in 9 (53%). Histologic changes demonstrated a more severe liver damage in anti-HCV+ patients: a chronic hepatitis was diagnosed in 9/11 anti-HCV+ versus 1/7 anti-HCV- cases. Based on these observations, we conclude that hepatitis C virus has a role in liver disease in such patients, although its evaluation by the anti-HCV test is still of limited accuracy, due to low sensitivity and incomplete specificity.
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PMID:Hepatitis C virus infection in patients undergoing allogeneic bone marrow transplantation. 171 41

Serum antibodies to hepatitis C virus (HCV) were tested for inpatients undergoing allogeneic BMT to determine the risk of acquiring HCV infection and the role of HCV in posttransplant liver complications. The HCV seroconversion rate was evaluated according to the date of BMT and blood donor screening at the time. Anti-HCV antibodies (anti-HCV) were detected with a second-generation ELISA and confirmed with a second-generation radioimmunoblot assay. All patients received leukocyte-depleted blood products and most received apheresis platelet concentrates. One hundred twenty of 181 consecutive patients transplanted from January 1987 to December 1991 were anti-HCV-negative before BMT, had at least 6 months of follow-up, and were thus evaluated for the seroconversion rate. Before screening for non-A, non-B hepatitis, 14% of the patients seroconverted to HCV (0.44% per unit transfused). After introduction of screening for alanine aminotransferase and antibodies to hepatitis B core antigen the risk of seroconversion was 4% per patient (0.26% per unit). When, in addition, blood was screened for anti-HCV the risk fell to 1.6% (0.03% per unit). Positive anti-HCV status before and after BMT was not predictive of veno-occlusive disease, liver graft-versus-host disease (GVHD), or death due to liver dysfunction. In contrast, the risk of chronic hepatitis was significantly increased.
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PMID:Hepatitis C virus infection and allogeneic bone marrow transplantation. 750 88

From 1984 to 1991, 514 patients were treated by BMT in 1 center. 254 patients survived more than 3 months and, in 38 patients, 47 liver biopsies were performed for chronic liver dysfunction characterized by cholestasis. The aim of the present study was to evaluate the possible causes of liver disease at the time of biopsy. One clinician analyzed clinical data and was able to propose up to 3 diagnoses including GVHD, viral hepatitis, drug-related hepatitis, chronic veno-occlusive disease (VOD) or other. Two pathologists reviewed histologic sections and were also able to propose up to 3 diagnoses. Clinically, 1, 2 or 3 diagnoses were proposed in 30, 60 and 10% of cases, respectively. Pathologically, 1, 2 or 3 diagnoses were proposed in 13, 62 and 25%, respectively. Histologic changes of GVHD were present in 40 of 47 biopsies and concordance between the clinician and the pathologists on the presence of GVHD lesions was found in 77% of biopsies. Viral hepatitis was proposed 22 times by the clinician and 19 times by pathologists. Viral hepatitis, usually hepatitis C, was associated with GVHD in 16 cases. Diagnoses of chronic VOD and drug-related hepatitis were proposed less often. In summary, more than 1 diagnosis was suggested for many of the patients studied, GVHD being the most frequent. The simultaneous presence of GVHD, viral diseases, chronic VOD and drug-induced diseases could explain the high incidence of cholestasis in the long-term post-BMT.
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PMID:Chronic cholestasis in patients after allogeneic bone marrow transplantation: several diseases are often associated. 758 Nov 45

Eighty-five patients who had undergone BMT for malignant blood disease or aplastic anemia at the Helsinki University Central Hospital, Finland were tested for hepatitis C antibodies (anti-HCV). Eight (9.4%) patients were anti-HCV positive according to a second generation enzyme linked immunosorbent assay (ELISA). Seven (87.5%) of the ELISA positive results could be confirmed by a supplemental test, the second generation recombinant immunoblot assay (RIBA-4). Two patients were constantly seropositive, one patient was seropositive prior to BMT but became antibody negative soon after BMT, and four patients seroconverted after BMT. Six of the seven confirmed anti-HCV positive patients had biochemical evidence of liver damage, but none had fulminant hepatitis or hepatic failure. Liver enzyme abnormalities consistent with a possible non-A, non-B hepatitis were significantly more prevalent among the seropositive than seronegative patients (p < 0.05). The intensive immunosuppression associated with BMT seemed to have little effect on the ability to produce antibodies for hepatitis C virus (HCV). The pattern of antibodies towards different HCV antigens in RIBA-4 was inconsistent, but the present results suggest that antibodies to a core antigen (C22) may, in some cases, be detected earlier than other HCV antibodies during early HCV infection. Moreover, ELISA became positive earlier than RIBA-4 in some patients.
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PMID:Hepatitis C infection in BMT patients. 767 97

To investigate the causes of impaired liver function (LF)* after BMT, 88 patients were included for analysis of hepatitis B virus (HBV) and hepatitis C virus (HCV) infections, transplant methods, preconditioning regimens, and graft-versus-host disease (GVHD). Fifty of them (56.8%) developed abnormal LF after BMT and among them, 29 (32.9%) developed chronic hepatitis (CH). By univariate analysis, HCV infection, pretransplant abnormal LF, allogeneic BMT, and preconditioning regimen with total body irradiation were all significantly related to higher incidence of post-BMT impaired LF. However, only HCV infection, pretransplant abnormal LF, and acute GVHD were associated with higher incidence of CH. By multivariate logistic regression analysis, HCV infection and pretransplant abnormal LF were the two most significant interpreters for abnormal LF, especially for CH (odds ratios: 7.86 and 4.735, respectively) after BMT. Although the incidence of abnormal LF was found high in this study, there was no significant disadvantage in terms of survival for patients who developed abnormal acute and chronic liver function after BMT. However, a long-term follow-up is needed to evaluate survival pathology of CH, such as liver cirrhosis and hepatoma.
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PMID:Liver disease after bone marrow transplantation--the Taiwan experience. 773 60

The role of hepatitis C virus (HCV) infection in severe liver failure (LF) following bone marrow transplantation is still uncertain. We therefore decided to determine the presence of HCV-RNA in 31 patients who died of severe LF after BMT and in 26 matched BMT controls who did not develop LF. HCV-RNA was identified by polymerase chain reaction and anti-HCV by second generation enzyme-linked immunoassay and by 4-band recombinant immunoblotting assay in serum samples obtained before and after BMT. Biochemical and clinical parameters of liver disease were obtained by reviewing clinical records. LF developed at a median interval of 80 days (20-570) from transplantation and was clinically assessed as VOD (n = 7), liver GVHD (n = 5) or hepatitis (n = 19). HCV-RNA was detected, respectively, in 15/31 (48%) and in 12/26 (46%) of LF patients and controls (P = 0.9). Conversely, the risk of dying of LF was 62% and 53% (P = 0.5) respectively, for HCV-RNA positive and negative patients. Anti-HCV profile did not correlate with viremia, nor with type of liver disease. These findings indicate that, despite a 47% prevalence of HCV infection in our series, HCV-RNA positivity was neither a predictor of VOD nor a marker for life-threatening liver disease.
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PMID:Hepatitis C virus infection and liver failure in patients undergoing allogeneic bone marrow transplantation. 853 14

Hepatitis C virus (HCV) genotypes were investigated in 57 HCV-infected patients undergoing allogeneic BMT at four European BMT units where death resulting from liver failure (LF) in HCV-infected patients varied from < 1% to > 80%. The aim of the study was to determine whether differing HCV genotypes could account for the different severity of post-transplant liver disease (LD). Sera from patients with pre (n = 22) or post-BMT (n = 35) HCV infection were collected from Italy (Genova, Monza), Sweden (Huddinge) and Germany (Ulm). Patients were grouped as follows: LF: 19/57; acute hepatitis (AH): 10/57 or chronic hepatitis (CH): 22/57; no liver disease (LD): 6/57. HCV genotypes were identified by hybridisation of the 5'UTR amplified products with type-specific oligonucleotides probes according to Simmonds (Hepatology 1994; 19: 1321-1324). Genotype HCV 1 was identified in 34 patients (60%), HCV 2 in 15 (26%), HCV 3 in three (5%), mixed infection in three (5%) and undefined in two (3.5%). In the LF group HCV 1 was identified in 10/19 and other genotypes in 9/19. Median timing of LF was earlier in patients infected with HCV 1 compared to other genotypes (45 and 68 days, respectively), largely due to the cause of LF; death from veno-occlusive disease (VOD) and hepatitis occurred at 30 and 68 days post-BMT, respectively. Genotype 1 was also identified in cases with no LD. These data indicate that there was no evident correlation between HCV genotype and type or severity of post-transplant liver disease.
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PMID:Hepatitis C virus genotypes and liver disease in patients undergoing allogeneic bone marrow transplantation. 902 52

Patients treated with BMT are extremely susceptible to infection with blood-borne viruses that can cause liver disease of variable clinical severity, from minimal biochemical changes to fulminant hepatic failure. Facing a patient with liver disfunction after BMT, one must bear in mind that more than one cause of liver disease, of viral and/or non-viral origin, may coexist. Moreover, besides the most important hepatotropic viruses, other agents, like herpesviruses (including CMV, adenoviruses, Epstein-Barr virus) may also be implicated, sometimes causing a life-threatening fulminant hepatitis, due to their cytopatic effect. Liver disease history and viral markers before transplant, together with the accurate assessment of the timing and type of clinical and biochemical deterioration are useful tools for a differential diagnosis. Liver biopsy, if taken in the early posttransplant period, is often difficult to interpret, while in case of liver disease occurring during immunosuppression tapering, histologic examination may discriminate between an exacerbation of viral hepatitis and an acute onset of chronic liver GVHD. While it seems that hepatitis G virus does not cause liver disease, the presence of hepatitis B virus (HBV) or hepatitis C virus (HCV) infection is a matter of concern for its consequences both early after BMT and for long-term survivors. Despite screening for blood and marrow donors for HBV and, more recently, for HCV markers, the rate of post-transplant infection (4% and 4-15% respectively, confirmed in prospective studies) with those viruses indicates that viral hepatitis still remains an important clinical problem in this setting, although the prognosis of chronic HCV and HBV infection appears more benign than expected, especially in children.
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PMID:Infections with hepatotropic viruses in children treated with allogeneic bone marrow transplantation. 963 Mar 33

Markers of GB virus C (GBV-C) and hepatitis C virus (HCV) were sought in 80 patients before and after they underwent BMT in a metropolitan hospital in Tokyo between 1990 and 1996. RNA of GBV-C was detected in 14 (18%) patients before BMT. Of the 55 patients who had been transfused, 14 (25%) possessed GBV-C RNA at a frequency significantly higher than in the 25 untransfused patients who were all negative (P < 0.01). HCV RNA was detected in three of the 55 (5%) transfused patients, but in none of the 25 untransfused patients. Sera at 3 months after BMT were available for 57 patients. GBV-C RNA persisted in all 10 patients who were infected before BMT, while it was detected in five of the remaining 47 (11%) patients who were not. However, persistent and/or ongoing GBV-C infection had no appreciable influence on patient morbidity or mortality. Two of the 57 patients were positive for HCV RNA before BMT and this persisted after BMT in both. HCV RNA became positive in eight of the remaining 55 (15%) patients who were negative before BMT. Of the 14 patients who received transfusions screened by the first-generation test at BMT, seven (50%) became positive for HCV RNA, a rate significantly higher than the one of 41 (2%) patients who received transfusions screened by the second-generation test (P < 0.001). These results indicate that BMT patients are at increased risk of GBV-C infection transmitted by transfusions received before and at the time of BMT, and that the risk of HCV infection has decreased after the implementation of the second-generation anti-HCV test.
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PMID:Incidence and influence of GB virus C and hepatitis C virus infection in patients undergoing bone marrow transplantation. 964 76

To clarify the role of hepatitis G virus (HGV) infection in liver dysfunction following allogeneic BMT, we examined cryopreserved serum samples from 33 patients who had a history of blood transfusions before BMT and whose serum samples had been stored periodically, before BMT, on day 100, and thereafter for the presence of HGV-RNA and hepatitis C virus (HCV)-RNA by reverse transcription polymerase chain reaction. Nineteen patients (58%) out of 33 were positive for HGV-RNA before BMT and 10 for HCV-RNA. All patients positive for HCV-RNA were also positive for HGV-RNA. Patients were divided into three groups according to their viral status before BMT; namely, the G+C+ group (n = 10), the G+C- group (n = 9) and the G-C- group (n = 14). Two patients in the G-C- group became positive for HGV-RNA after BMT. One patient in the G+C- group suffered an acute exacerbation of hepatitis, with GPT levels reaching over 1000 IU/l, 2 and 3 years after BMT, showing quite a different clinical course from those in the G+C- group. Excluding these three patients, GPT levels of the patients in the G+C+ group were significantly higher after day 100 and remained higher than those of patients in the G+C- and G-C- groups for at least 4 years. There were no significant differences in post-transplant GPT levels between the G+C- group and the G-C- group at any time point. Of the seven patients followed-up for 5 to 10 years, three patients became HGV-RNA-negative, while four remained positive. In the absence of HCV co-infection, the behavior of GPT values post transplant in patients with HGV infection did not differ from those without HGV infection. With respect to the patient who was G+C- and showed high values of GPT 2 and 3 years post transplant, we suspect that his liver dysfunction might have been caused by some unknown virus or etiology.
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PMID:Long-term liver function of recipients with hepatitis G virus infection after bone marrow transplantation. 1046 23

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