Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

6 cases of non-A non-B hepatitis which followed administration of four different batches of concentrates of coagulation factor IX from commercial and non-commercial sources are described. Of 17 patients who received the concentrate on account of chronic liver disease, 4 developed hepatitis, and in 3 of these the illness proved fatal. The incubation periods ranged from 42 to 103 days (mean 65 days). 3 chimpanzees were inoculated with concentrate from the same batch used on the above patients, a further commercial batch upon which no adverse reactions had been reported, and plasma from a known non-A non-B carrier. All developed hepatitis after 10 weeks' incubation. Liver biopsy when serum-aminotransferase was at its highest level showed features consistent with acute hepatitis. As in the patients, viral markers for hepatitis A and B, cytomegalovirus, and Epstein-Barr virus were unchanged.
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PMID:Transmission of non-A non-B hepatitis to chimpanzees by factor-IX concentrates after fatal complications in patients with chronic liver disease. 8 7

A method for the large-scale preparation of a coagulation factor IX concentrate from human plasma is described. The method includes absorption of the coagulation factors from cryosupernatant plasma to DEAE-Sephadex, extensive washing of the gel and elution of the coagulation factors with 0.5 M phosphate buffer at 6.85, followed by desalting of the eluate in a column of Sephadex G-25, then by lyophilization, dissolving and sterile filtration, and finally by freeze-drying of the final product. Experiments performed with HBsAg-positive plasma demonstrated a decrease in the HBsAg content by a factor of 10(-5) during the process. The product is inactive in a Na-PTT assay. The process yields an about 100-fold purified factor IX concentrate containing also factors II, VII, and X, but in relatively smaller amounts. The average yield relative to factor IX is 60%. The batch size has been from 16 to 150 litres of plasma and about 300 batches of the concentrate have been prepared. About 5,100 bottle (about 4.0 X 10(6) U of factor IX) of the concentrate have been used in the treatment of patients with haemophilia B. The clinical effect has always been good and the in vivo response to factor IX was 1.15 +/- 0.30%/U/kg body weight. Two cases of HBsAg-negative hepatitis that may have been caused by the concentrate, were detected. No thrombotic complications were found.
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PMID:Preparation and properties of a therapeutic factor IX concentrate. 88 44

Although non-A, non-B hepatitis is usually a mild subclinical illness, 40% of cases of fulminant viral hepatitis are attributed to infection by this agent. The administration of coagulation factor IX concentrates before liver biopsy in 17 patients with chronic liver disease was followed by the development of hepatitis in four, which proved fatal in three cases. The diagnosis was confirmed by transmission in chimpanzees, and further studies demonstrated the existence of two types of non-A, non-B hepatitis with different incubation periods and specific ultrastructural changes in the hepatocytes. The progression of 40% of cases of acute viral hepatitis to chronic liver disease and the development of chronic liver disease in renal and hepatic transplant recipients is very disturbing. It is likely that this type of hepatitis is an aetiological factor in some cases of hepatitis B surface antigen-negative chronic active hepatitis.
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PMID:Clinical aspects of non-A, non-B hepatitis infection. 678 87

The coagulation factor IX obtained at the Institute of Haematology and Transfusion in Warsaw was subjected to virological validation. Two lipide enveloped viruses were used: HSV-1 and Sindbis which may be a model for the viruses of B and C types in hepatitis. It was shown that heating of the freeze-drying preparations at 80 degrees C during 72 hrs leads to full inactivation of the added model viruses.
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PMID:[Concentrate of coagulation factor IX: viral validation of the thermoinactivation process]. 857 44

Hemophilia B is an X-linked genetic disorder that typically results from chronic circulating deficiency of blood coagulation factor IX (FIX) (1). While the occurrence of hemophilia B is significantly less frequent than hemophilia A (factor VIII, deficiency) it has received special attention as a model for gene therapy. This is because hemophilia B is one of the least complicated genetic diseases from the point of view of demonstrating the proof of principle of a gene therapy protocol. Specifically, hemophilia B is a single gene recessive disorder and a wide range of tissues can be targeted for FIX gene delivery and strict regulation of FIX expression is not required. In addition, the 2.8 kb FIX cDNA is much smaller than the 9 kb FVIII cDNA, and FIX expression in transfected mammalian cells has been less problematic than FVIII expression (2). Since clinical severity of bleeding episodes closely corresponds to a patient's FIX activity, achieving even partial restoration of normal FIX levels in the bloodstream can alleviate internal bleeding. Individuals with FIX levels less than 1% of normal experience severe symptomatic episodes but providing roughly 5% of normal levels (i.e., 250 ng/mL plasma) can significantly reduce the frequency and severity of bleeding episodes and reduce long term complications (3). Treatment of hemophilia B primarily relies on intravenous injections of FIX protein purified from pooled human plasma, or very recently, on newly developed recombinant FIX. Treatment is applied typically only when bleeding episodes have occurred or are expected, for example, in case of a trauma or surgery. Although the risk of viral transmission of HIV and hepatitis viruses has been largely eliminated the absolute safety of any product derived from blood cannot be guaranteed. Furthermore, supplies of factor concentrates are limited and costs (especially if prophylactic treatment is being considered) are high. Thus, the application of gene therapy to hemophilia, whereby long-term correction of factor IX deficiency might be achieved, would be extremely useful.
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PMID:Ex Vivo Stromal Cell Electroporation of Factor IX cDNA for Treatment of Hemophilia B. 2144 54

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