The specific activity of purified F8V by a chromogenic assay was

The specific activity of purified F8V by a chromogenic assay was similar to FVIII-BDD and PEGylation had minimal impact on the specific activity of F8V in this assay. Analysis by Biacore indicated that both F8V and PEG-F8V display greatly

reduced vWF binding in vitro. Pharmacokinetic studies in FVIII knockout (HaemA) mice showed that the terminal half-life (T1/2) of F8V was dramatically reduced relative to FVIII-BDD (0.6 h vs. 6.03 h). PEGylation of F8V promoted a significant increase in T1/2, although PEGylation did not fully compensate for the loss in vWF binding. PEG-F8V showed a shorter T1/2 than PEG-FVIII-BDD both in HaemA mice (7.7 h vs. 14.3 h) and in Sprague-Dawley male rats (2.0 ± 0.3 h vs. 6.0 ± 0.5 h). These data demonstrated that vWF contributes to the longer T1/2 of PEG-FVIII-BDD. Furthermore, this suggests that the clearance of the FVIII:vWF complex, through vWF receptors, is not the sole factor which places an upper limit on Fulvestrant the duration of PEG-FVIII circulation in plasma. “
“The history of concentrated factor VIII (FVIII) begins in the early 1940s, when Edwin J. Cohn [1]

pioneered fractionation of plasma with various proportions of ethanol. His ‘fraction I’ contained fibrinogen and also FVIII (but methods of assay had not yet been developed) and von Willebrand factor (which had not Fludarabine chemical structure yet been defined). The utility of fraction I in haemophilia was demonstrated early [2] and modest amounts were used in developed countries throughout the 1950s and 1960s, but its sterile production required a large laboratory. A commercial version became available in the United selleck chemical States as a concentrate of fibrinogen, rich in FVIII; in one measurement [3], the ratio of FVIII to total protein was sevenfold that of native plasma. In 1965, it cost about 17.5 cents (U.S. $ 0.175) per FVIII unit [4]. Meanwhile, community blood banks were separating and freezing plasma from whole blood for local use. Blood banks in the United

States generally set the price of plasma low, as a by-product of whole blood collection, so it was widely used. The hemostatic efficacy of whole plasma was sub-optimal because only a limited volume could be infused at one time. In the early 1960s, Cutter Laboratories in Berkeley, California, and its scientists were trying to make an improved concentrate of FVIII, with help from northern California ‘clotters’, including Paul M. Aggeler of the University of California at San Francisco and Judith Graham Pool of Stanford University. I had the felicity of being a haematology Fellow in Dr. Aggeler’s laboratory from 1962 to 1965, which were heady years in the history of haemophilia treatment. The first FVIII concentrate I ever saw, in 1963, was an experimental, lyophilized product from Cutter Laboratories. We were planning to extract all remaining, very rotten teeth from a malnourished man with severe haemophilia A, to prepare him for dentures.

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