Postępowanie w stanach nagłych u pacjentów z hemofilią

Haemophilia is congenital with haemorrhagic diathesis due to deficiency of VIII or IX o coagulation factor, which is manifested by an increased tendency to bleeds. The therapeutic procedure during bleeding is intravenous administration of missing IX or VIII coagulation factor. The article presents a diagram of emergency procedures during bleeding in different locations. When discussing these cases, we would like to emphasize that, regardless of the type of bleeding or injury, correct treatment is first and foremost substitution of the missing coagulation factor and then of imaging and laboratory diagnostics. Delayed administration of a factor concentrate may cause a risk to the patient's life.

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Coagulation factor concentrate in the treatment of the haemorrhagic diathesis of fulminant hepatic failure

Gut ◽

10.1136/gut.15.12.993 ◽

1974 ◽

Vol 15 (12) ◽

pp. 993-998 ◽

Cited By ~ 23

Author(s):

B. G. Gazzard ◽

M. L. Lewis ◽

G. Ash ◽

C. R. Rizza ◽

E. Bidwell ◽

...

Keyword(s):

Fulminant Hepatic Failure ◽

Hepatic Failure ◽

Coagulation Factor ◽

Haemorrhagic Diathesis ◽

Factor Concentrate

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Evidence for/Against Administration of Fibrinogen Concentrate and Coagulation Factor Concentrate During an Obstetrical Hemorrhage

Transfusion Management of the Obstetrical Patient ◽

10.1007/978-3-319-77140-3_6 ◽

2018 ◽

pp. 55-66

Author(s):

Michael Dombrowski ◽

Michael Paidas

Keyword(s):

Coagulation Factor ◽

Fibrinogen Concentrate ◽

Factor Concentrate

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Acquired hemophilia A and plasma cell neoplasms: a case report and review of the literature

Journal of Medical Case Reports ◽

10.1186/s13256-020-02505-7 ◽

2020 ◽

Vol 14 (1) ◽

Author(s):

Katarzyna A. Jalowiec ◽

Martin Andres ◽

Behrouz Mansouri Taleghani ◽

Albulena Musa ◽

Martina Dickenmann ◽

...

Keyword(s):

Factor Viii ◽

Plasma Cell ◽

Hemophilia A ◽

High Titer ◽

Coagulation Factor ◽

Laboratory Diagnostics ◽

Acquired Hemophilia A ◽

Acquired Hemophilia ◽

Plasma Cell Neoplasm ◽

Cell Neoplasm

Abstract Background Acquired hemophilia A is a rare autoimmune disease with clinically often significant bleeding diathesis resulting from circulating autoantibodies inhibiting coagulation factor VIII. Half of acquired hemophilia A cases are associated with an underlying disorder, such as autoimmune diseases, cancer, or use of certain drugs, or occur during pregnancy and in the postpartum period. In the other half, no underlying cause is identified. An association of acquired hemophilia A with plasma cell neoplasm seems to be extremely rare. Case presentation We describe a case of a 77-year-old Swiss Caucasian man who was diagnosed with acquired hemophilia A and smoldering multiple myeloma as an underlying cause. Acquired hemophilia A was treated with prednisolone, cyclophosphamide, and immunoadsorption. Extensive workup revealed a plasma cell neoplasm as the only disorder associated with or underlying the acquired hemophilia A. For long-term control of acquired hemophilia A, we considered treatment of the plasma cell neoplasm necessary, and a VRD (bortezomib, lenalidomide, and dexamethasone) regimen was initiated. Due to multiple complications, VRD was reduced to VRD-lite after two cycles. After nine cycles of induction therapy and five cycles of consolidation therapy, the patient is in complete remission of his acquired hemophilia A and very good partial remission of the plasma cell neoplasm. We conducted a literature review to identify additional cases of this rare association and identified 15 other cases. Case descriptions, including the sequence of occurrence of acquired hemophilia A and plasma cell neoplasm , treatment, evolution, and outcome are presented. Discussion and conclusions Our case, together with 15 other cases described in the literature, underscore the possibility of plasma cell neoplasm as an underlying cause of acquired hemophilia A. Physicians should consider including protein electrophoresis, immunofixation, and analysis of free light chains in laboratory diagnostics when treating a patient with acquired hemophilia A. The occurrence of excessive and unexplained bleeding in patients diagnosed with plasma cell neoplasm should raise suspicion of secondary acquired hemophilia A and trigger the request for coagulation tests, particularly in patients treated with immunomodulatory drugs such as thalidomide or lenalidomide. Additionally, early intervention with immunoadsorption can be lifesaving in cases with high-titer factor VIII inhibitors, especially when surgical interventions are necessary.

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The use of short-term central venous catheters for optimizing continuous infusion of coagulation factor concentrate in haemophilia patients undergoing major surgical procedures

Haemophilia ◽

10.1111/hae.12722 ◽

2015 ◽

Vol 21 (5) ◽

pp. e364-e368 ◽

Cited By ~ 3

Author(s):

A. Boban ◽

C. Lambert ◽

C. Hermans

Keyword(s):

Continuous Infusion ◽

Surgical Procedures ◽

Coagulation Factor ◽

Central Venous Catheters ◽

Central Venous ◽

Short Term ◽

Factor Concentrate

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Major Impact of Underweight and Overweight On Factor VIII Dosing in 201 Patients with Severe Haemophilia A Treated with Advate, Kogenate or Refacto AF/Xyntha

Blood ◽

10.1182/blood.v120.21.626.626 ◽

2012 ◽

Vol 120 (21) ◽

pp. 626-626

Author(s):

Henrard Severine ◽

Speybroeck Niko ◽

Cedric R. Hermans

Keyword(s):

Factor Viii ◽

Coagulation Factor ◽

Dose Calculation ◽

Pharmacokinetic Studies ◽

Severe Haemophilia ◽

Group 4 ◽

Group 5 ◽

Group 2 ◽

Factor Concentrate ◽

The Impact

Abstract Abstract 626 Introduction: The treatment of hemophilia A (HA) requires infusions of factor VIII (FVIII) concentrates. The number of FVIII units infused in order to obtain a specific circulating FVIII level is calculated with the formula: [body weight (BW) (kg) × desired FVIII increase (%)]/2, with the assumption that each unit of FVIII infused per kg of BW increases the circulating FVIII level by 2 %. The aim of the present study was to evaluate the impact of several morphometrical parameters (BW, body mass index (BMI), fat mass index (FMI), difference between BW and ideal BW, height), age and type of coagulation factor concentrate on the FVIII recovery in a large group of patients with severe haemophilia who had previously taken part in pharmacokinetic studies using Advate®, Kogenate FS® or ReFacto AF/Xyntha®. Methods: A total of 201 adults (> 18 yr) with severe HA carefully selected from 8 clinical trials using three recombinant FVIII concentrates were included in the analysis (Fig. 1). The FVIII recovery was calculated using the maximum FVIII concentration measured at 15 or 30 minutes after infusion. Regression tree (RT) was used to identify predictors of FVIII recovery. RT-based models are non-linear and non-parametric alternatives to linear models for regression problems. Continuous variables were compared using the Kruskal-Wallis test. Results: The median FVIII recovery was 2.16 for all patients and was significantly different between the 3 coagulation factor groups in univariate analysis. However, the BW, difference between BW and IBW, BMI and FMI were also significantly different between coagulation factor groups. In multivariate analysis, 5 groups were created by RT (Fig. 2 and Fig. 3): patients with a BMI < 20.3 kg/m2 (Group 2; Median FVIII recovery: 1.60), patients with a BMI between 20.3 and 29.5 kg/m2 (Group 4; Median FVIII recovery: 2.14) and patients with a BMI ≥ 29.6 kg/m2 (Group 5; Median FVIII recovery: 2.70). Group 1 and group 3 were made up of 2 outlier patients. The FVIII recovery was significantly different between group 2, group 4 and group 5 (P<0.001) (Fig. 2 and Fig. 3). The random forest associated with this RT shows that the age and the type of coagulation factor concentrate had no influence on FVIII recovery. Conclusions: The type of coagulation factor concentrate first emerged as a univariate predictor of FVIII recovery in our study. It later appeared to have no influence in the multivariate model, as opposed to the BMI which emerged as the strongest predictor of FVIII recovery. These results are consistent with previous crossover studies which have demonstrated comparable FVIII recovery of different concentrates (Haemophilia 2007;13:124–30, Haemophilia 2009;15(4):869–80). Our findings also support that dose calculation of FVIII to reach a specific FVIII target level should be adapted in underweight and overweight patients. Taking the ideal BW instead of the actual BW in the dose calculation should be implemented since only a small fraction of FVIII distributes outside the vascular system. Disclosures: No relevant conflicts of interest to declare.

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Coagulation Factor Concentrate Usage and the Risk of Lymphadenopathy: A Prospective Study

The American Journal of the Medical Sciences ◽

10.1097/00000441-198609000-00004 ◽

1986 ◽

Vol 292 (3) ◽

pp. 142-146 ◽

Cited By ~ 2

Author(s):

W. Abe Andes ◽

K.M. Wulff ◽

D. Mercer ◽

K. Ohene Frempong ◽

J. Patin

Keyword(s):

Prospective Study ◽

Coagulation Factor ◽

A Prospective Study ◽

Factor Concentrate

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Thrombotic complications in patients with hereditary bleeding disorders

Thrombosis and Haemostasis ◽

10.1160/th04-03-0148 ◽

2004 ◽

Vol 92 (08) ◽

pp. 298-304 ◽

Cited By ~ 46

Author(s):

Massimo Franchini

Keyword(s):

Risk Factors ◽

Gene Mutations ◽

Coagulation Factor ◽

Venous Catheter ◽

Bleeding Tendency ◽

Bleeding Disorders ◽

Central Venous ◽

Prothrombotic Risk Factors ◽

Thrombotic Complications ◽

Factor Concentrate

SummaryThromboses in patients with hereditary bleeding disorders are uncommon. However, in some cases, the co-existence of prothrombotic risk factors may increase the likelihood of developing thrombotic complications in such patients. This review summarizes the cases of thrombosis reported in the literature and analyzes the most important risk factors for thrombosis in patients with a congenital bleeding tendency. In particular we focus on central venous catheter (CVC)-associated thrombosis, on the thrombotic complications of coagulation factor concentrate therapy and on the presence of prothrom-botic gene mutations. Data were identified by searches of the published literature, including PubMed, references from reviews and abstracts from the most important meetings on this topic. In conclusion, there is increasing evidence that thrombotic complications in patients with hereditary bleeding disorders have a multifactorial pathogenesis, depending on exogenous (coagulation factor replacement therapy, CVC, HIV infection) and/or endogenous (prothrombotic gene mutations) risk factors.

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Management of Perioperative Anticoagulation in Patients with VWD

Blood ◽

10.1182/blood.v126.23.1100.1100 ◽

2015 ◽

Vol 126 (23) ◽

pp. 1100-1100

Author(s):

Mario Von Depka ◽

Carsten Detering ◽

Stefanie Döpke ◽

Mahnaz Ekhlasi-Hundrieser

Keyword(s):

Risk Factors ◽

Body Weight ◽

Surgical Procedures ◽

Thrombotic Event ◽

Coagulation Factor ◽

Post Surgery ◽

Thrombosis Risk ◽

Perioperative Anticoagulation ◽

Factor Concentrate ◽

Von Willebrand

Abstract Objectives: von Willebrand disease (VWD) is the most common hereditary bleeding disorder. This study reviews the management of perioperative anticoagulation in patients with VWD undergoing surgical procedures. Risk factors for VTE with von Willebrand factor (VWF) concentrate use are older age, previous VTE, obesity, surgery, hormone replacement therapy use, antifibrinolytic therapy use and high post infusion FVIII levels. Currently, there are few data from randomized clinical trials assessing efficacy and possible complications of perioperative VTE prophylaxis in VWD patients. Methods: A total number of 116 surgeries were performed (minor: n=64 and major: n=52) in this retrospective, single-centre study. They were divided into groups of perioperative non-anticoagulation (n=54) and perioperative anticoagulation (n=62), who all received coagulation factor concentrate (CFC). Sub-analyses were done according to the type of concentrate used. Anticoagulation was performed using different low molecular weight heparins (LMWH) according to standard protocols or body-weight adapted doses in patients with either elevated body-mass-index or additional thrombosis risk factors. Blood samples had been collected pre- and post-surgery (up to 21 days) to analyse PT, aPTT, PFA, and trough levels of FVIII coagulant activity (FVIII:C), VWF activity (VWF:GPIbM) and antigen (VWF:Ag), respectively. Furthermore, the median doses of CFC/kg and the median total number of infusions were calculated. The rates of clinically overt thrombosis as well as bleeding were assessed during the post-operative phase. Results: The majority of patients suffered from VWD type 1 (104), 9 patients with type 2A, 2 with type 2M and 1 with type 3 VWD. Humate-P (H) was used in 55 patients and 61 patients received Wilate (W). Using W, we found parallel curves for FVIII:C, VWF-antigen and VWF:GPIbM, respectively. Using H, less concordance between VWF:Ag and VWF:GPIbM was visible and FVIII:C tends to increase between D3 to D10 in spite of decreasing VWF:Ag and VWF:GPIbM. This observation was visible in minor as well as major surgical procedures. LMWH (Enoxaparin, Nadroparin and Certaparin) were used in doses between 30 and 100 mg/injection (mean 46.0 ± 18.5 mg/injection) and a mean of 32.2 ± 24.6 injections in total (range: 8-112). In one patient a significant haematoma occurred (1/116; 0.9%), also one thrombotic event was documented in a different patient (1/116; 0.9%). Conclusion: Using standard dose LMWH in patients with no overt increased thrombosis risk as well as body-weight-adapted LMWH in high risk patients seem to be safe and effective in VWD patients receiving coagulation factor concentrate perioperatively. However, prospective randomized comparative studies are required to determine the optimal indication as well as type of anticoagulation according to the CFC treatment regimen in this setting. Disclosures No relevant conflicts of interest to declare.

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