Studies on the Procurement of Blood Coagulation Factor VIII
- 1 July 1988
- journal article
- research article
- Published by Wiley in Vox Sanguinis
- Vol. 55 (1), 9-13
- https://doi.org/10.1111/j.1423-0410.1988.tb04680.x
Abstract
Our previous studies have shown that the use of half-strength citrate anticoagulant improves plasma factor VIII stability while maintaining the viability of red cells and platelets. This study extends these observations to show that the stability of factor VIII is maintained in blood stored at room temperature or 4.degree. C overnight and that in vitro tests indicate comparable quality of red cells and platelets prepared from half-strength citrate donations processed immediately or after overnight storage at room temperature. The exception to this was a more rapid loss of red cell 2,3-diphosphoglycerate, as has previously been observed for full-strength citrate donations.This publication has 15 references indexed in Scilit:
- Studies on the Procurement of Blood Coagulation Factor VIII:Vox Sanguinis, 1988
- In vitro Effect on Stored Red Blood Cells and Platelets after a 15‐Hour Delayed Refrigeration of Whole Blood prior to Component Preparation in CPD‐ADVox Sanguinis, 1986
- Room Temperature, Microtray Chromogenic Assay of Factor VIII:CVox Sanguinis, 1986
- Influence of Heparin and Calcium Chloride on Assay, Stability, and Recovery of Factor VIIIVox Sanguinis, 1984
- Donation Procedure, Fibrinopeptide A, and Factor VIIIVox Sanguinis, 1984
- An in vivo comparison of CPD and CPDA‐2 preserved platelet concentrates after an 8‐hour preprocess hold of whole bloodTransfusion, 1982
- The biochemical effects of CPDA‐2‐drawn red blood cells of delayed refrigeration prior to component preparationTransfusion, 1982
- Effects of Prolonged Room Temperature Holding of Whole Blood Intended for Preparation of ComponentsTransfusion, 1979
- The Effect of Delayed Refrigeration on Red Blood Cells, Platelet Concentrates and Cryoprecipitable AHFTransfusion, 1978
- Effect of initial storage at room temperature on human red blood cell ATP, 2,3‐DPG, and viabilityTransfusion, 1977