A group of hematologists, involved with hemophilia research and care in the U.S.A., met under the sponsorship of the Division of Blood Diseases and Resources of the National Heart and Lung Institute. In order to improve future communication among ourselves, we decided to alter our individual methods of measurement of inhibitors to the extent necessary to permit a uniform, although arbitrary, description of inhibitor units. We agreed to the following standards: (1) The incubation mixture consists of one part citratecl patient plasma, undiluted or diluted, plus an equal part of citrated pooled normal human plasma. (2) A control incubation mixture consists of equal parts of normal pooled plasma and imidazole buffer, as formulated by Dr. Biggs. (3) The mixtures are incubated at 37° C for two hours. (4) Assays specific for Factor VIII are then performed and the Factor VIII activity in the patient mixture is divided by the Factor VIII activity in the control mixture to determine the percent residual Factor VIII activity. (5) A patient plasma giving a residual Factor VIII activity of 50 percent in this test is said to contain one “Bethesda unit” of inhibitor per ml. (6) On a graph, the log percent residual Factor VIII activity is plotted against inhibitor units. If the residual Factor VIII activity of the incubation mixture is between 75 and 25 percent, the inhibitor units are read from the graph. Plasmas containing strong inhibitors are diluted with imidazole buffer before being placed in the incubation mixture. A dilution is sought which will result in a residual Factor VIII activity between 75 and 25 percent. The units of inhibitor read from the graph are then multiplied by the dilution factor to determine the number of Bethesda units of inhibitor per ml of undiluted patient plasma.We invite interested colleagues to join us in the use of this method, and we invite discussion of better methods of describing inhibitor potency.
Nine patients (10 infusions) with a confirmed diagnosis of type 3 VWD were infused with von Willebrand factor (human), a preparation of von Willebrand factor (VWF) with a very low factor VIII content. Each patient was infused with one dose of approximately 50 or 100 iu ristocetin cofactor activity (VWF:RiCoF) per kg body weight. Bleeding times were performed during the 24 h period after infusion. Plasma samples were obtained over the 96 h period after infusion and were analysed for factor VIII coagulant activity (FVIIIC), VWF:RiCoF, von Willebrand factor antigen (VWF:Ag), and multimers. The FVIIIC data were analysed by non-linear least-squares analysis assuming constant FVIIIC 'synthesis' and exponential decay. The VWF data were fitted for exponential decay. The average decay rates for FVIIIC, VWF:RiCoF and VWF:Ag were 0.041, 0.061 and 0.056 respectively. The average calculated 'synthesis' rate for FVIIIC was 6.4 u/dl/h. The synthesis of FVIIIC was slightly faster and the decay slightly slower following the infusion of 100 iu VWF:RiCoF/kg than of 50 iu VWF:RiCoF/kg. Correction of the bleeding time was strongly dose dependent. At 4 h post infusion the median bleeding time was 9 min following a dose of 50 iu VWF:RiCoF/kg versus 3 min with a dose of 100 iu VWF:RiCoF/kg. There was no decrease in the bleeding time until the level of VWF:Ag or VWF:RiCoF reached > 100 u/dl.
Death data on 949 hemophiliacs for the years 1968-1979 have been analyzed. The median age at death has increased from 33 to 55 years. There was no evidence of new diseases caused by the more intensive therapy during this time interval. The leading infectious disease was hepatitis, accounting for eight deaths. Only one acute hepatitis death was listed after 1974, when sensitive tests for hepatitis B antigen screening of plasma were implemented. Cirrhosis was a primary or associated cause of death in 76 cases (8%) and pneumonia was a primary or associated cause of death in 62 deaths (6.5%). The types of malignancies in hemophiliacs were similar to those in the male US population with no evidence of excessive retrovirus malignancies prior to infection with HIV-1.
A B S T R A C T We have investigated the pathway of prothrombin activation in blood and plasma. By means of a rapid purification procedure involving chromatography on DEAE-cellulose and hydroxyapatite, we demonstrated that the major prothrombin fragment in serum is that representing the amino-terminal half of prothrombin (i.e. FL 2). The F1 2 isolated was characterized by its size, amino acid and antigenic compositions, amino-terminal residue, and the peptides (designated Fl and F2, respectively) it yielded upon hydrolysis by thrombin. Measurements by the isotope dilution technique showed that Fl 2 could account for the fate of at least 90% of the prothrombin originally present in plasma. By contrast, the serum concentration of the fragment representing the amino-terminal third of prothrombin (viz. F1) was <10% that of F1 -2. These results demonstrated that the major route of prothrombin conversion in blood or plasma involves the removal ofthe combined activation fragment (F1 *2) as a single peptide.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.