Hepatitis: Freeman J

Lo R, Rye K, Austin A, Freeman J. · Derby Hospitals NHS Foundation Trust, Derby DE22 3NE, UK. · Curr Med Chem. · Pubmed #19355898 No free full text.

Abstract: The economic burden of end stage liver disease is set to increase due to the rising prevalence of cirrhosis secondary to alcohol, viral hepatitis and fatty liver disease. Screening for liver disease has been advocated, as most cases of cirrhosis are preventable with early interventions. Liver function tests (LFTs) are routinely used as a first line investigation to screen for liver diseases but can be normal despite significant underlying liver fibrosis, hepatitis, steatohepatitis or even cirrhosis. Their relationships are far from linear and with little predictive value in some cases. Newer non-invasive modalities are emerging but currently their roles are largely experimental. This review will discuss the role of serum biomarkers and imaging techniques as new modalities to screen for liver disease.

Williamson LM, Llewelyn CA, Fisher NC, Allain JP, Bellamy MC, Baglin TP, Freeman J, Klinck JR, Ala FA, Smith N, Neuberger J, Wreghitt TG. · Division of Transfusion Medicine, University of Cambridge, UK. · Transfusion. · Pubmed #10604250 No free full text.

Abstract: BACKGROUND: Virus inactivation of pooled fresh-frozen plasma (FFP) by the solvent/detergent (SD) method results in a loss of approximately 20 percent of factor VIII. This study aimed to assess the efficacy of SD-treated plasma in correcting the coagulopathy associated with liver disease and liver transplantation. STUDY DESIGN AND METHODS: Forty-nine patients with coagulation deficits due to liver disease, who required FFP for invasive procedures or liver transplantation, were randomly assigned to receive either FFP or SD-treated plasma. Patients were assessed for side effects, correction of coagulopathy over 24 hours, and seroconversion for viral markers 6 to 18 months after treatment. RESULTS: In the liver disease group, equal correction of clotting factors and partial thromboplastin time was seen with FFP and SD-treated plasma, with a similar return to baseline values over 24 hours. There was greater correction of the International Normalised Ratio in patients receiving SD-treated plasma (p = 0.037), but this patient group had higher baseline values than recipients of FFP (p = 0.024). Liver transplant patients also showed equivalent correction of coagulopathy with the same dose of FFP and SD-treated plasma. The use of other blood components during transplantation was identical in the two treatment groups. No seroconversions were seen for HIV or hepatitis B or C virus. One patient who had received FFP seroconverted for human parvovirus B19. Apparent seroconversion for hepatitis A virus seen at 9 to 13 months in four other patients was probably due to detection of passively transferred antibodies, as later testing of these patients gave negative results. Minor side effects were rare in both groups. CONCLUSION: SD-treated plasma is an efficacious source of coagulation factors for patients with liver disease who are undergoing biopsy or transplantation. Assessment of seroconversion for viral markers in recipients of plasma-derived products and plasma components should include consideration of the possibility that passively transferred antibodies were detected.