We describe the experience of a single medical centre with continuous factor VIII (FVIII) infusion therapy in a cohort of patients undergoing elective surgery. Twenty-eight patients had a total of 45 procedures. Intraoperative haemostasis was considered excellent in all 45 cases. FVIII levels were maintained between 46% and 191% of normal (median, 103%) for 2-7 days. Bleeding occurred after five procedures (11%) at times when factor VIII levels were within haemostatic range. No patient required reoperation to control bleeding. There were no cases of sepsis related to continuous infusion of factor VIII. We conclude that continuous infusion: (1) is a safe and effective means of replacement therapy in patients with haemophilia undergoing surgery; (2) provides easier monitoring and more constant coagulation factor levels; and (3) has the potential to decrease the cost of replacement therapy by reducing overall usage of product.
Patients with primary systemic amyloidosis (AL) often experience bleeding, and we report a newly recognized coagulation abnormality in AL. Of 103 patients with primary systemic AL studied over 2 years, 41 had prolongation of the thrombin time (range, 25 to 46 seconds; normal, less than 22 seconds) and reptilase time (range, 17 to 39 seconds; normal, 14 to 16 seconds). The fibrinogen from the plasma of 36 patients was precipitated by beta-alanine and diluted to a concentration of approximately 200 mg/dL. The thrombin times of the precipitated fibrinogens were normal in 34 patients, implying that an inhibitor was responsible for the abnormal tests. The addition of patient fibrinogen-free plasma to normal plasma prolonged the thrombin times, and this result confirmed the presence of an inhibitor. The inhibitor is more likely to be present in patients with nephrotic syndrome (20 of our patients) and congestive heart failure (six). A circulating monoclonal protein (24 patients), the presence of amyloid liver involvement (eight), and the presence of amyloid neuropathy (nine) were not predisposing factors. Only one patient had deficiency of factor X. We conclude that inhibition of fibrinogen conversion to a fibrin clot rather than dysfibrinogenemia is the cause of the prolonged thrombin time in primary systemic AL.
Specific monoclonal and polyclonal antibody reagents and a double antigen indirect immunofluorescence microscopy technique were used to visualize coagulation factor V in human bone marrow. Marrow aspirates were smeared directly on glass slides, or washed and cytospun onto glass slides, or processed and plated into a plasma/methylcellulose cell culture system. Morphologically identifiable colonies of megakaryocytes, erythrocytes, granulocytes, or monocytes/macrophages were removed from 14- to 18-day marrow culture dishes by micropipette and streaked onto glass slides. Smears of marrow cell preparations were air-dried, fixed, washed, and incubated sequentially with primary IgG antibody reagents and with secondary anti-IgG antibody reagents conjugated with either fluorescein or rhodamine. Preparations were examined and photographed through a microscope suitably equipped for two-color fluorescence and phase contrast analysis. Cells of megakaryocytic lineage were identified by their immunofluorescent reactivity with murine monoclonal antibody HP1–1D, specific for human platelet plasma membrane glycoprotein IIb/IIIa (GP IIb/IIIa), or by their immunofluorescent reactivity with monoclonal or polyclonal antibodies specific for von Willebrand factor (vWF) or for platelet factor 4 (PF4). Coagulation factor V in bone marrow was detected by simultaneous immunofluorescent staining with polyclonal burro anti- human factor V antibody or with a panel of murine monoclonal anti-human factor V antibodies. The double antigen immunofluorescence staining technique, incorporating appropriate controls, revealed that coagulation factor V was principally located in marrow cells simultaneously identified as megakaryocytes by antibodies to GP IIb/IIIa, vWF, or PF4. The specific immunofluorescence of factor V in megakaryocytes and platelets was eliminated when excess purified factor V antigen was preincubated with anti-factor V antibody. Our observations establish the presence of human megakaryocyte coagulation factor V, confirm the presence of human platelet factor V, and indicate that human megakaryocyte/platelet coagulation factor V is a lineage- associated protein.
Comorbidities affect clinical outcomes and costs in medicine. The hematopoietic cell transplantation (HCT)-specific comorbidity index (HCT-CI) predicts mortality risk after HCT. Its association with resource utilization (RU) is unknown. In this single-center, retrospective study, we examined the association of HCT-CI with RU (readmissions, length of hospital stay (LOS) and days out of hospital alive (DOHA)) in first 100 days (n=328) and 1 year (n=226) in allogeneic HCT patients from January 2010 to June 2014. Age, disease risk, conditioning and use of antithymocyte globulin were significantly different in the four groups with HCT-CI 0 to1 (n=138), 2 (n=56), 3 (n=55) or ⩾4 (n=79). Although the readmissions were higher in the first 100 days for patients with HCT-CI >0-1 (P=0.03), they were not significantly different in patients over 1 year (P=0.13). In the multivariable analysis, patients with HCT-CI score of >0 to 1 had increased LOS and fewer DOHA in both 100 days and 1 year after HCT. In this exploratory analysis, we found that HCT-CI >0 to 1 is associated with increased RU after allogeneic HCT. Recognizing predictors of RU can identify patients at risk of high utilization and help understand what drives health-care costs.
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