The prevalence of chronic hepatitis C virus (HCV) infection among patients with severe congenital bleeding disorders is as high as 98%. Advances in HCV treatment currently result in sustained virological response rates of > or =50%. Recent recommendations have reaffirmed that liver biopsy, which provides a direct histological assessment of liver inflammation and fibrosis, is still important for accurate diagnosis and therapeutic decision making. Percutaneous liver biopsy is a simple, standardized procedure that can be performed rapidly and relatively inexpensively, and has been safely performed in patients with congenital coagulopathies. However, the safety and efficacy of the transjugular approach (transjugular liver biopsy, TJLB), recommended for patients with acquired coagulopathies, has only been minimally studied in the congenital bleeding diathesis population. We now report our institutional experience with TJLB in 13 such adult patients (mean age 33 years) with severe/mild haemophilia A/B (10); von Willebrand disease (1); factor V deficiency (1) and factor XIII deficiency (1). Data were collected by retrospective chart review and the TJLB was performed according to institutional protocol as described. Haemostasis prophylaxis was given for 1-5 days. Patients were hospitalized for < or =48 h and all tolerated the procedure without bleeding. Three patients experienced self-limited abdominal discomfort; one episode was accompanied by transient transaminaemia. Diagnostic specimens were obtained from all patients and were instrumental in the therapeutic decision-making process. We suggest that with a co-ordinated multidisciplinary approach to care, TJLB is a safe, effective and potentially cost-effective alternative to the percutaneous approach in the congenital bleeding disorders population.
Coinfection with HIV and hepatitis C virus (HCV)-specific immune responses, increases hepatic inflammation, accelerates hepatic fibrosis, and is associated with deceased treatment responses. We quantified intrahepatic lymphocyte and hepatocyte phenotypes in HCV-infected patients with (n = 38) and without (n = 41) HIV infection. A single pathologist counted positive cells in 5 portal and 5 lobular areas. Coinfected patients had 6.81 +/- 1.9 fewer CD4 cells per portal field (10.58 +/- 1.12 vs. 4.97 +/- 1.09 cells/high-power field [HPF]; P < 0.001) and 0.48 +/- 0.15 more apoptotic lymphocytes per lobular field (0.16 +/- 0.06 vs. 0.64 +/- 0.15 cell/HPF; P = 0.002) than monoinfected patients. The number of portal CD4 cells was not associated with the peripheral CD4 cell number. Portal and lobular CD8 cells did not differ between the 2 groups. Portal proliferative hepatocytes were increased in coinfected patients with HIV RNA levels of >400 copies/mL (1.13 +/- 0.32 cells/HPF; P = 0.01) compared with those with undetectable HIV RNA (0.46 +/- 0.09 cell/HPF) and monoinfected patients (0.45 +/- 0.08 cell/HPF). In conclusion, HIV coinfection is associated with fewer portal CD4 cells and increased lobular lymphocyte apoptosis that may impact on the natural history of HCV infection.
Perisinusoidal hepatic stellate cells (HSC) are the principal fibrogenic cells in the liver. In animal models, HSC apoptosis is the predominant clearance mechanism of activated HSC, although data evaluating whether the same processes occur in humans are limited. We conducted a cross-sectional study to evaluate the association between HSC apoptosis and fibrosis stage in subjects with chronic hepatitis C virus (HCV) infection (n = 44) and HCV-negative controls with normal liver histology (n = 9). We used immunohistochemical techniques to identify activated (alpha-smooth muscle actin+), proliferative (Ki-67+) and apoptotic (terminal deoxynucleotidyl transferase [TdT]-mediated dUTP nick end-labelling+) HSC in liver biopsy specimens from all subjects. The same pathologist enumerated positive cells per high-power field (HPF, x 200) in 20 periportal/lobular areas. HSC apoptosis was decreased in HCV-positive subjects compared with controls (median 0.4, range 0.0-3.1 vs 1.1, 0.2-3.5 cells/HPF, P = 0.02). Among HCV-positive subjects, HSC apoptosis was decreased in those with moderate to advanced fibrosis (P = 0.04) compared with those with mild fibrosis. By multivariate analysis, HSC apoptosis decreased by an average of 0.14 cells/HPF (95% confidence interval 0.01-0.28 cells/HPF) per increase in fibrosis stage (P = 0.04). While the number of activated and proliferative HSC was significantly increased in HCV-infected subjects compared with that in uninfected controls, the numbers of these cells did not differ between HCV-infected subjects with mild vs moderate/advanced fibrosis. In conclusion, the number of apoptotic HSC was significantly decreased in HCV-infected subjects with advanced fibrosis. In chronic HCV infection, inhibition of HSC apoptosis may be one mechanism by which fibrosis progresses.
Hepatitis C virus (HCV) infection is an important problem in individuals who are also infected with HIV. HCV infection is very common in HIV-infected individuals, occurring in approximately one quarter to one third of this group, presumably as a consequence of shared routes of transmission related to virologic and pathogenic aspects of the viral infections. Although both are single-stranded RNA viruses and share similar epidemiologic properties, there are many important differences. Although the quantity of HIV RNA in plasma is an important prognostic determinant of HIV infection, this has not been shown with HCV. A direct relationship is apparent between HIV-related destruction of CD4 cells and the clinical consequences of the disease resulting from immunodeficiency. The pathogenesis of HCV, which occurs as a consequence of hepatic fibrosis, is much more complex. The hepatic stellate cell, the major producer of the extracellular matrix protein, is the main contributor to hepatic fibrosis, but the mechanism by which HCV induces hepatic fibrosis remains unclear. Treatment of HCV is increasingly important in HIV-infected patients due to improved HIV-associated morbidity and mortality and due to the frequency with which HCV occurs in patients with HIV-HCV coinfection. Timing of treatment initiation, management of side effects, and possible effects of anti-HCV therapy on HIV are among the issues that need consideration. Also, because several issues concerning HCV are unique to coinfected patients, further research is needed to determine optimal management of HCV in this setting.
In patients with chronic HCV infection, HP increases with histologic progression of liver disease, but is impaired in cirrhosis. HP was not increased in patients with elevated serum AFP levels.
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