Scandinavian journal of clinical and laboratory investigation
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Scand. J. Clin. Lab. Invest. · Apr 2012
Comparative StudyHaemostatic therapy in coronary artery bypass graft patients with decreased platelet function: comparison of fibrinogen concentrate with allogeneic blood products.
Patients undergoing coronary artery bypass grafting (CABG) are at risk of postoperative bleeding because of decreased platelet function and cardiopulmonary bypass (CPB)-induced haemostatic impairment. Fibrinogen concentration decreases by 34-42% of the preoperative level by the end of CPB. An inverse relationship between perioperative plasma fibrinogen levels and postoperative bleeding has been reported in CABG patients. Administration of fibrinogen concentrate after weaning from CPB in patients with diffuse microvascular bleeding may help promote haemostasis. We compared patient outcomes following fibrinogen concentrate administration or transfusion of allogeneics in CABG patients with decreased platelet function. ⋯ In CABG patients with bleeding after CPB, FIBTEM-guided administration of fibrinogen concentrate resulted in overall decreased transfusion, compared with haemostatic therapy with allogeneics. Fibrinogen concentrate administration increased the fibrin clot quality and helped achieve haemostasis.
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Scand. J. Clin. Lab. Invest. · Apr 2012
Large molecular size EDTA-resistant complexes containing S100A12, ERAC, in serum during inflammatory conditions.
The pro-inflammatory, leukocyte-derived S100A12 protein occurs as calcium-dependent oligomers in serum, while EDTA plasma from the majority of healthy individuals contains only monomers. Addition of 5 mM EDTA to serum leads to a rapid dissociation of the oligomers in most samples. However, using gel permeation chromatography, we have found that sera from some patients and seemingly healthy individuals contain molecular complexes in the 400-1000 kDa range reacting with anti-S100A12 even in the presence of EDTA; for these we introduce the name ERAC (EDTA Resistant S100A12 Complexes). ⋯ The highest prevalence of ERAC positivity was found in sera from patients with concomitant rheumatoid arthritis and coronary heart disease. The structure of ERAC is not yet known. Further studies are needed to analyse the mechanism behind the appearance of ERAC and the possible association with inflammatory-related diseases.