Your search keyword '"Zolkova, Jana"' showing total 20 results

1. Diagnostic value of clot formation parameters determined by rotational thromboelastometry in 63 patients with congenital dysfibrinogenemia

Author

Simurda, Tomas, Marchi, Rita, Casini, Alessandro, Neerman-Arbez, Marguerite, Drotarova, Miroslava, Skornova, Ingrid, Zolkova, Jana, Kolkova, Zuzana, Loderer, Dusan, Brunclikova, Monika, Belakova, Kristina Maria, and Stasko, Jan

Published

2024

2. Platelet miRNA Expression in Patients with Sticky Platelet Syndrome

Author

Belakova Kristina Maria, Zolkova Jana, Vadelova Lubica, Skerenova Maria, Ivankova Jela, Lisa Lenka, Sokol Juraj, and Stasko Jan

Subjects

sticky platelet syndrome, mirna, expression, Medicine

Abstract

Sticky platelet syndrome (SPS) is a disorder with familial occurrence and autosomal dominant trait characterized by platelet hyperaggregability in response to a low concentration of adenosine diphosphate (ADP) and/or epinephrine (EPI). The etiology of SPS may be associated with platelet microRNAs (miRNAs), which are considered as potential biomarkers of platelet function and antiplatelet therapy. We were monitoring the expression of platelet miRNAs in patients with laboratory diagnosed SPS and healthy controls. We have found a statistically significant increased expression of both miR-423-5p and miR-338-3p as well as a statistically significant decreased expression of miR-425-5p between the group of patients with diagnosed SPS type II and the group of healthy controls, which seems to be an interesting issue for a further research.

Published

2023

3. Congenital hypofibrinogenemia associated with a novel heterozygous nonsense mutation in the globular C-terminal domain of the γ-chain (p.Glu275Stop)

Author

Simurda, Tomas, Caccia, Sonia, Asselta, Rosanna, Zolkova, Jana, Stasko, Jan, Skornova, Ingrid, Snahnicanova, Zuzana, Loderer, Dusan, Lasabova, Zora, and Kubisz, Peter

Published

2020

4. Comparison of clinical phenotype with genetic and laboratory results in 31 patients with congenital dysfibrinogenemia in northern Slovakia

Author

Simurda, Tomas, Zolkova, Jana, Kolkova, Zuzana, Loderer, Dusan, Dobrotova, Miroslava, Skornova, Ingrid, Brunclíkova, Monika, Grendar, Marian, Lasabova, Zora, Stasko, Jan, and Kubisz, Peter

Published

2020

5. Basic Principles of Rotational Thromboelastometry (ROTEM ®) and the Role of ROTEM—Guided Fibrinogen Replacement Therapy in the Management of Coagulopathies.

Author

Drotarova, Miroslava, Zolkova, Jana, Belakova, Kristina Maria, Brunclikova, Monika, Skornova, Ingrid, Stasko, Jan, and Simurda, Tomas

Subjects

*FIBRINOGEN, *THROMBELASTOGRAPHY, *BLOOD coagulation disorders, *BLOOD transfusion, *MEDICAL care costs

Abstract

Rotational thromboelastometry (ROTEM) is a viscoelastic method, which provides a graphical and numerical representation of induced hemostasis in whole blood samples. Its ability to quickly assess the state of hemostasis is used in the management of bleeding from a variety of causes. The separate activation of particular parts of hemocoagulation in INTEM, EXTEM, and FIBTEM tests allows for a more comprehensive and faster evaluation of the missing component of hemostasis followed by targeted therapy. One of the most common cause of coagulopathy is trauma-induced coagulopathy. Fibrinogen replacement therapy by ROTEM allows for the use of a standard dosage of fibrinogen, which has been shown to be successful in preventing dilutional coagulopathy following colloid and crystalloid replacement and excessive amount of allogeneic blood transfusions. The best reflection of fibrinogen activity is observed in the FIBTEM assay, where fibrinogen replacement therapy is recommended at an MCF (maximum clot firmness) of FIBTEM < 10 mm and FIBTEM A10 < 7 mm. ROTEM also plays an important role in the diagnostic and management of inherited fibrinogen disorders. These can be manifested by bleeding complications, where changes in the MCF parameter are the most useful tool for assessing the effectiveness of fibrinogen replacement therapy. ROTEM-guided bleeding management algorithms effectively reduce the number of transfusions, healthcare costs, and complications, leading to the improvement of patient safety and overall health. [ABSTRACT FROM AUTHOR]

Published

2023

6. Assessing the hemostasis with thromboelastometry in direct oral anticoagulants-treated patients with atrial fibrillation

Author

Korpallová, Barbora, Samoš, Matej, Škorňová, Ingrid, Bolek, Tomáš, Žolková, Jana, Vadelová, Ľubica, Kubisz, Peter, Galajda, Peter, Staško, Ján, and Mokáň, Marián

Published

2020

7. A

Author

Simurda, Tomas, Vilar, Rui, Zolkova, Jana, Ceznerova, Eliska, Kolkova, Zuzana, Loderer, Dusan, Neerman-Arbez, Marguerite, Casini, Alessandro, Brunclikova, Monika, Skornova, Ingrid, Dobrotova, Miroslava, Grendar, Marian, Stasko, Jan, and Kubisz, Peter

Subjects

protein modelling, Bβ-chain gene, bleeding phenotype, hypofibrinogenemia, novel nonsense mutation, functional analysis

Abstract

Congenital hypofibrinogenemia is a rare bleeding disorder characterized by a proportional decrease of functional and antigenic fibrinogen levels. Hypofibrinogenemia can be considered the phenotypic expression of heterozygous loss of function mutations occurring within one of the three fibrinogen genes (FGA, FGB, and FGG). Clinical manifestations are highly variable, most patients are usually asymptomatic, but may appear with mild to severe bleeding or thrombotic complications. We have sequenced all exons of the FGA, FGB, and FGG genes using the DNA isolated from the peripheral blood in two unrelated probands with mild hypofibrinogenemia. Coagulation screening, global hemostasis, and functional analysis tests were performed. Molecular modeling was used to predict the defect of synthesis and structural changes of the identified mutation. DNA sequencing revealed a novel heterozygous variant c.1421G&gt, A in exon 8 of the FGB gene encoding a B&beta, chain (p.Trp474Ter) in both patients. Clinical data from patients showed bleeding episodes. Protein modelling confirmed changes in the secondary structure of the molecule, with the loss of three &beta, sheet arrangements. As expected by the low fibrinogen levels, turbidity analyses showed a reduced fibrin polymerisation and imaging difference in thickness fibrin fibers. We have to emphasize that our patients have a quantitative fibrinogen disorder, therefore, the reduced function is due to the reduced concentration of fibrinogen, since the B&beta, chains carrying the mutation predicted to be retained inside the cell. The study of fibrinogen molecules using protein modelling may help us to understand causality and effect of novel genetic mutations.

Published

2020

8. How can Secondary Thromboprophylaxis in High-Risk Pregnant Patients be Improved?

Author

Stanciakova, Lucia, Dobrotova, Miroslava, Holly, Pavol, Zolkova, Jana, Vadelova, Lubica, Skornova, Ingrid, Ivankova, Jela, Samos, Matej, Bolek, Tomas, Grendar, Marian, Danko, Jan, Kubisz, Peter, and Stasko, Jan

Subjects

LOW-molecular-weight heparin, BLOOD coagulation factor VIII, BLOOD coagulation factors, THROMBOEMBOLISM, PREGNANT women

Abstract

Low-molecular-weight heparin (LMWH) is suggested for thromboprophylaxis in pregnant women with previous venous thromboembolism (VTE). Anyway, there is only limited amount of studies evaluating the effect of LMWH on hemostatic parameters during pregnancy of patients with previous VTE and the need of secondary thromboprophylaxis. We therefore provide results of prospective and longitudinal assessment of changes in hemostasis in high-risk pregnant women at four times during pregnancy (T1–T4) and one time after the postpartum period (T5) used for individualized modification of thromboprophylaxis. In this study, the results of coagulation factor VIII (FVIII) and protein S (PS) activity, ProC Global ratio and anti-Xa activity were evaluated. Despite the thromboprophylaxis, an increased predisposition to thromboembolic complications was detected (significant increase in FVIII activity and decrease in PS function, ProC Global ratio not normalized even after the postpartum period – p <.0001 between controls and T5 for PS and ProC Global). These results indicate that hemostasis may not be restored even 6 to 8 weeks after delivery and pose the question when is it safe to withdraw the anticoagulant thromboprophylaxis in high-risk patients with prior VTE. [ABSTRACT FROM AUTHOR]

Published

2022

9. Genetic Background of Inherited Factor XIII-A Subunit Deficiency: Review of the Literature and Description of Two New Cases.

Author

Plamenova, Ivana, Zolkova, Jana, Sokol, Juraj, Kolkova, Zuzana, Bereczky, Zsuzsanna, Katona, Eva, Muszbek, Laszlo, Kubisz, Peter, and Stasko, Jan

Subjects

*BLOOD coagulation factor XIII, *INTRACRANIAL hemorrhage

Published

2021

10. Use of Fibrinogen Determination Methods in Differential Diagnosis of Hypofibrinogenemia and Dysfibrinogenemia.

Author

Skornova, Ingrid, Simurda, Tomas, Stasko, Jan, Horvath, Denis, Zolkova, Jana, Holly, Pavol, Brunclikova, Monika, Samos, Matej, Bolek, Tomas, Schnierer, Martin, Slavik, Ludek, and Kubisz, Peter

Subjects

FIBRINOGEN, DISSEMINATED intravascular coagulation, DIFFERENTIAL diagnosis, DIAGNOSIS methods, THROMBOLYTIC therapy

Abstract

Background: Fibrinogen plays an important role in hemostasis. The normal concentration of fibrinogen in blood plasma is between 1.8 - 4.2 g/L. Decreased fibrinogen levels are observed in congenital afibrinogenemia, hypofi-brinogenemia, dysfibrinogenemia, disseminated intravascular coagulation, fibrinolytic therapy, some more severe hepatic parenchymal disorders, and increased blood loss. Elevated fibrinogen levels occur in inflammatory diseases and neoplastic diseases, in pregnancy, and postoperative conditions. Functional fibrinogen measurement is also one of the basic coagulation screening tests. The fibrinogen antigen assay is used to distinguish between qualitative and quantitative fibrinogen disorders. Methods: The aim of the study was the use of fibrinogen determination methods in differential diagnosis of hypofibrinogenemia and dysfibrinogenemia, statistical evaluation and determine the relationship of fibrinogen Clauss assay, prothrombin time (PT) derived fibrinogen assay, and fibrinogen antigen in the group of 60 patients with congenital fibrinogen disorders (n = 40 dysfibrinogenemia; n = 20 hypofibrinogenemia). Results: The results measured by the PT-derived fibrinogen assay were approximately four times higher compared to the fibrinogen Clauss assay in the group of patients with dysfibrinogenemia. In patients with hypofibrino-genemia, there is a correlation (r = 0.9016) between the fibrinogen Clauss assay and PT-derived fibrinogen assay with a statistical significance of p < 0.0001. Using a linear or quadratic interpolation function, we were able to determine the fibrinogen Clauss assay and the fibrinogen antigen assay before analysis. Conclusions: The higher level of the PT-derived fibrinogen assay compared to the fibrinogen Clauss assay in the group of patients with dysfibrinogenemia may pose a greater risk to asymptomatic patients who require diagnosis and treatment in case of bleeding. The fibrinogen value using the PT-derived fibrinogen assay could erroneously give a normal level. The use of the interpolation function is important to estimate the value of fibrinogen activity and antigen before the analysis itself by the Clauss assay or analysis by the fibrinogen antigen assay. [ABSTRACT FROM AUTHOR]

Published

2021

11. Impact of Dabigatran Treatment on Rotation Thromboelastometry.

Author

Sokol, Juraj, Nehaj, Frantisek, Ivankova, Jela, Mokan, Michal, Zolkova, Jana, Lisa, Lenka, Linekova, Ludmila, Mokan, Marian, and Stasko, Jan

Subjects

DABIGATRAN, THROMBELASTOGRAPHY, ANTITHROMBINS, ATRIAL fibrillation, ROTATIONAL motion

Abstract

A rapid and reliable assessment of the dabigatran effect is desirable in dabigatran treated patients with uncontrolled bleeding or before acute surgery. The aim of this study was to study the anticoagulant effects of dabigatran in patients with atrial fibrillation (AF) as assessed by the whole blood assays ROTEM, and how data from these methods correlate to plasma dabigatran concentrations measured by Hemoclot. ROTEM was performed with ROTEM Gamma (Pentapharm GmbH, Munich, Germany). The assays used in our study were Ex-tem and In-tem assay. Plasma dabigatran concentrations were determined by hemoclot thrombin inhibitor assay (Hyphen BioMed, France) at trough and post-dose in 27 patients on dabigatran 150 mg BID. Median plasma dabigatran concentrations at trough were 74 ng/mL (11.2–250) and post-dose (2 h after ingestion) 120 ng/mL (31–282). The ROTEM clotting time (CT) and maximum clot firmnes (MCF) correlated strongly with dabigatran concentrations when activated with the reagents Ex-tem (p < 0.0001) and In-tem (p < 0.0001). In summary, in our study, we have found that the ROTEM variable CT and MCF, when activated with triggers Ex-tem and In-tem, has a strong and highly significant correlation with the plasma dabigatran concentration in a real-life population of AF-patients and could thereby be an alternative to estimate dabigatran concentration in emergency situations. However, additional studies are needed to further validate these findings. [ABSTRACT FROM AUTHOR]

Published

2021

12. Genetic Background of von Willebrand Disease: History, Current State, and Future Perspectives.

Author

Zolkova, Jana, Sokol, Juraj, Simurda, Tomas, Vadelova, Lubica, Snahnicanova, Zuzana, Loderer, Dusan, Dobrotova, Miroslava, Ivankova, Jela, Skornova, Ingrid, Lasabova, Zora, Kubisz, Peter, and Stasko, Jan

Subjects

*HISTORY of diseases, *VON Willebrand factor, *BLOOD coagulation factors, *GENETIC testing, *VON Willebrand disease, *NUCLEOTIDE sequencing

Abstract

Sequencing of the gene encoding for von Willebrand factor (VWF) has brought new insight into the physiology of VWF as well as its pathophysiology in the context of von Willebrand disease (VWD). Molecular testing in VWD patients has shown high variability in the overall genetic background of this condition. Almost 600 mutations and many disease-causing mechanisms have been described in the 35 years since the VWF gene was identified. Genetic testing in VWD patients is now available in many centers as a part of the VWD diagnostic algorithm. Molecular mechanisms leading to types 2 and 3 VWD are well characterized; thus, information from genetic analysis in these VWD types may be beneficial for their correct classification. However, the molecular basis of type 1 VWD is still not fully elucidated and most likely represents a multifactorial disorder reflecting a combined impact of environmental and genetic factors within and outside of VWF . Regarding sequencing methods, the previous gold-standard Sanger sequencing is gradually being replaced with next-generation sequencing methods that are more cost- and time-effective. Instead of gene-by-gene approaches, gene panels of genes for coagulation factors and related proteins have recently become a center of attention in patients with inherited bleeding disorders, especially because a high proportion of VWD patients, mainly those with low VWF plasma levels (type 1), appear to be free of mutations in VWF. Whole-exome sequencing (WES) and whole-genome sequencing (WGS) are accessible in a very limited number of laboratories. Results from these studies have presented several genes other than VWF or ABO possibly affecting VWF levels, and such findings will need further validation studies. [ABSTRACT FROM AUTHOR]

Published

2020

13. Impact of Edoxaban on Thrombin-Dependent Platelet Aggregation.

Author

Sokol, Juraj, Nehaj, Frantisek, Ivankova, Jela, Mokan, Michal, Lisa, Lenka, Zolkova, Jana, Vadelova, Lubica, Mokan, Marian, and Stasko, Jan

Subjects

BLOOD platelet aggregation, KIDNEY function tests, EDOXABAN, BLOOD coagulation factor X, ATRIAL fibrillation, LIVER function tests

Abstract

Edoxaban, a direct factor Xa inhibitor (FXa), is the fourth direct oral anticoagulant (DOAC) approved for clinical use. As the main adverse event is bleeding, it is relevant whether edoxaban has additional effects on platelet function. We aimed to assess in vitro aggregation in patients with atrial fibrillation (AF) receiving edoxaban. We evaluated 20 AF patients treated with edoxaban. We assessed light transmittance platelet aggregation (LTA) with 100 nmol/L γ-thrombin. The LTA was performed at 2 time-points. The thrombin-induced platelet aggregation was significantly lower 2 hours after edoxaban was taken compared to baseline measurement (27.25% ± 30.8% vs. 60.35% ± 33.3%). In addition, we also performed 16 subanalyses in order to identify the differences in the outcome of different comorbidities, age, dosage, liver and kidney function tests, and concomitant treatment. Results of the subgroup analyses were consistent with the findings of the main analysis; there was no apparent heterogeneity across the prespecified subgroups. The thrombin-induced platelet aggregation is reduced in non-valvular AF patients receiving edoxaban. [ABSTRACT FROM AUTHOR]

Published

2020

14. Identification of Two Novel Fibrinogen Bβ Chain Mutations in Two Slovak Families with Quantitative Fibrinogen Disorders.

Author

Simurda, Tomas, Zolkova, Jana, Snahnicanova, Zuzana, Loderer, Dusan, Skornova, Ingrid, Sokol, Juraj, Hudecek, Jan, Stasko, Jan, Lasabova, Zora, and Kubisz, Peter

Subjects

*FIBRINOGEN polymorphisms, *FIBRINOGEN, *CONGENITAL disorders, *BLOOD coagulation, *HEMORRHAGE

Abstract

Congenital fibrinogen disorders are caused by mutations in one of the three fibrinogen genes that affect the synthesis, assembly, intracellular processing, stability or secretion of fibrinogen. Functional studies of mutant Bβ-chains revealed the importance of individual residues as well as three-dimensional structures for fibrinogen assembly and secretion. This study describes two novel homozygous fibrinogen Bβ chain mutations in two Slovak families with afibrinogenemia and hypofibrinogenemia. Peripheral blood samples were collected from all subjects with the aim of identifying the causative mutation. Coagulation-related tests and rotational thromboelastometry were performed. All exons and exon-intron boundaries of the fibrinogen genes (FGA, FGB and FGG) were amplified by PCR followed by direct sequencing. Sequence analysis of the three fibrinogen genes allowed us to identify two novel homozygous mutations in the FGB gene. A novel Bβ chain truncation (BβGln180Stop) was detected in a 28-year-old afibrinogenemic man with bleeding episodes including repeated haemorrhaging into muscles, joints, and soft tissues, and mucocutaneous bleeding and a novel Bβ missense mutation (BβTyr368His) was found in a 62-year-old hypofibrinogenemic man with recurrent deep and superficial venous thromboses of the lower extremities. The novel missense mutation was confirmed by molecular modelling. Both studying the molecular anomalies and the modelling of fibrinogenic mutants help us to understand the extremely complex machinery of fibrinogen biosynthesis and finally better assess its correlation with the patient's clinical course. [ABSTRACT FROM AUTHOR]

Published

2018

15. Heterogeneity of Genotype–Phenotype in Congenital Hypofibrinogenemia—A Review of Case Reports Associated with Bleeding and Thrombosis.

Author

Brunclikova, Monika, Simurda, Tomas, Zolkova, Jana, Sterankova, Miroslava, Skornova, Ingrid, Dobrotova, Miroslava, Kolkova, Zuzana, Loderer, Dusan, Grendar, Marian, Hudecek, Jan, Stasko, Jan, and Kubisz, Peter

Subjects

CONGENITAL disorders, THROMBOSIS, HEMORRHAGE, FIBRINOGEN, HETEROGENEITY, SYMPTOMS

Abstract

Congenital fibrinogen disorders are diseases associated with a bleeding tendency; however, there are also reports of thrombotic events. Fibrinogen plays a role in the pathogenesis of thrombosis due to altered plasma concentrations or modifications to fibrinogen's structural properties, which affect clot permeability, resistance to lysis, and its stiffness. Several distinct types of genetic change and pathogenetic mechanism have been described in patients with bleeding and a thrombotic phenotype, including mutations affecting synthesis or processing in three fibrinogen genes. In this paper, we focused on familial hypofibrinogenemia, a rare inherited quantitative fibrinogen disorder characterized by decreased fibrinogen levels with a high phenotypic heterogeneity. To begin, we briefly review the basic information regarding fibrinogen's structure, its function, and the clinical consequences of low fibrinogen levels. Thereafter, we introduce 15 case reports with various gene mutations derived from the fibrinogen mutation database GFHT (French Study Group on Hemostasis and Thrombosis), which are associated with congenital hypofibrinogenemia with both bleeding and thrombosis. Predicting clinical presentations based on genotype data is difficult. Genotype–phenotype correlations would be of help to better understand the pathologic properties of this rare disease and to provide a valuable tool for the identification of patients who are not only at risk of bleeding, but also at risk of a thrombotic event. [ABSTRACT FROM AUTHOR]

Published

2022

16. Multimer Analysis of Von Willebrand Factor in Von Willebrand Disease with a Hydrasys Semi-Automatic Analyzer—Single-Center Experience.

Author

Skornova, Ingrid, Simurda, Tomas, Stasko, Jan, Zolkova, Jana, Sokol, Juraj, Holly, Pavol, Dobrotova, Miroslava, Plamenova, Ivana, Hudecek, Jan, Brunclikova, Monika, Stryckova, Alena, and Kubisz, Peter

Subjects

VON Willebrand disease, VON Willebrand factor, BLOOD proteins

Abstract

von Willebrand disease (VWD) is reportedly the most common inherited bleeding disorder. This disorder develops as a result of defects and/or deficiency of the plasma protein von Willebrand factor (VWF). Laboratory testing for VWF-related disorders requires the assessment of both VWF level and VWF activity, the latter requiring multiple assays. As an additional step, an evaluation of VWF structural features by multimer analysis is useful in selective investigations. Multimer analysis is also important for the selection of a suitable VWF therapy preparation (desmopressin, VWF/FVIII concentrate, recombinant VWF) and the determination of the correct dose for the patient. Based on clinical and laboratory findings, including the analysis of VWF multimers, we classified our patients into individual types of VWD. Our study group included 58 patients. The study group consisted of 66% (38 patients) with VWD type 1, 5% (3 patients) with VWD type 2, 7% (4 patients) with VWD type 3, 5% (3 patients) with mixed type 1/2A VWD, and 17% (10 patients) comprising an unclassified group. In this article, we provide an overview of our practical experience using a new complementary method—the analysis of von Willebrand factor multimers with a semi-automatic analyzer Hydrasys 2 scan. We explain the principle, procedure, advantages, and pitfalls associated with the introduction of the VWF multimer analysis methodology into standard VWD diagnostics. [ABSTRACT FROM AUTHOR]

Published

2021

17. Congenital Afibrinogenemia and Hypofibrinogenemia: Laboratory and Genetic Testing in Rare Bleeding Disorders with Life-Threatening Clinical Manifestations and Challenging Management.

Author

Simurda, Tomas, Asselta, Rosanna, Zolkova, Jana, Brunclikova, Monika, Dobrotova, Miroslava, Kolkova, Zuzana, Loderer, Dusan, Skornova, Ingrid, Hudecek, Jan, Lasabova, Zora, Stasko, Jan, and Kubisz, Peter

Subjects

SYMPTOMS, GENETIC testing, LOW-molecular-weight heparin, VON Willebrand disease, DIAGNOSIS, CONGENITAL disorders

Abstract

Congenital fibrinogen disorders are rare pathologies of the hemostasis, comprising quantitative (afibrinogenemia, hypofibrinogenemia) and qualitative (dysfibrinogenemia and hypodysfibrinogenemia) disorders. The clinical phenotype is highly heterogeneous, being associated with bleeding, thrombosis, or absence of symptoms. Afibrinogenemia and hypofibrinogenemia are the consequence of mutations in the homozygous, heterozygous, or compound heterozygous state in one of three genes encoding the fibrinogen chains, which can affect the synthesis, assembly, intracellular processing, stability, or secretion of fibrinogen. In addition to standard coagulation tests depending on the formation of fibrin, diagnostics also includes global coagulation assays, which are effective in monitoring the management of replacement therapy. Genetic testing is a key point for confirming the clinical diagnosis. The identification of the precise genetic mutations of congenital fibrinogen disorders is of value to permit early testing of other at risk persons and better understand the correlation between clinical phenotype and genotype. Management of patients with afibrinogenemia is particularly challenging since there are no data from evidence-based medicine studies. Fibrinogen concentrate is used to treat bleeding, whereas for the treatment of thrombotic complications, administered low-molecular-weight heparin is most often. This review deals with updated information about afibrinogenemia and hypofibrinogenemia, contributing to the early diagnosis and effective treatment of these disorders. [ABSTRACT FROM AUTHOR]

Published

2021

18. How Can Rotational Thromboelastometry as a Point-of-Care Method Be Useful for the Management of Secondary Thromboprophylaxis in High-Risk Pregnant Patients?

Author

Stanciakova, Lucia, Dobrotova, Miroslava, Holly, Pavol, Zolkova, Jana, Vadelova, Lubica, Skornova, Ingrid, Ivankova, Jela, Bolek, Tomas, Samos, Matej, Grendar, Marian, Danko, Jan, Kubisz, Peter, Stasko, Jan, and Muñoz-Berbel, Xavier

Subjects

THROMBOEMBOLISM, PREGNANT women, PUERPERIUM, HEMOSTASIS, HEPARIN

Abstract

Thromboprophylaxis with low-molecular-weight heparin (LMWH) for patients with a history of venous thromboembolism (VTE) is suggested. Rotational thromboelastometry (ROTEM®) represents an innovative point-of-care method enabling the complex and quick evaluation of hemostasis. However, there are only episodic cases of its use for hemostasis assessment and guidance of LMWH in pregnancy. Therefore, we provide the results of unique prospective and longitudinal monitoring of hemostasis in high-risk pregnant women, which we used for the individualized optimalization of secondary thromboprophylaxis. According to the shortening of clot formation time (CFT) in EXTEM (p = 0.0007 from the 26th gestational week vs. controls) and INTEM (p = 0.002 from the 35th gestational week), increase in alpha angle (AA) in EXTEM, INTEM, and HEPTEM, and the persistence of increase in maximum clot firmness (MCF) in EXTEM, INTEM, and HEPTEM (p < 0.001 from the 26th and 35th gestational week vs. controls for EXTEM and INTEM, p = 0.0012 from the 26th gestational week in HEPTEM), LMWH dose was modified. Even after the postpartum period, AA in EXTEM was steeper than in controls (p = 0.0007), indicating that hemostasis is not fully normalized after 6–8 weeks following delivery. Therefore, ROTEM may be a useful tool for the individual evaluation of the termination of anticoagulant thromboprophylaxis. [ABSTRACT FROM AUTHOR]

Published

2021

19. A Novel Nonsense Mutation in FGB (c.1421G>A; p.Trp474Ter) in the Beta Chain of Fibrinogen Causing Hypofibrinogenemia with Bleeding Phenotype.

Author

Simurda, Tomas, Vilar, Rui, Zolkova, Jana, Ceznerova, Eliska, Kolkova, Zuzana, Loderer, Dusan, Neerman-Arbez, Marguerite, Casini, Alessandro, Brunclikova, Monika, Skornova, Ingrid, Dobrotova, Miroslava, Grendar, Marian, Stasko, Jan, and Kubisz, Peter

Subjects

NONSENSE mutation, PHENOTYPES, FIBRINOGEN, GENETIC mutation, PROTEIN models, VON Willebrand disease

Abstract

Congenital hypofibrinogenemia is a rare bleeding disorder characterized by a proportional decrease of functional and antigenic fibrinogen levels. Hypofibrinogenemia can be considered the phenotypic expression of heterozygous loss of function mutations occurring within one of the three fibrinogen genes (FGA, FGB, and FGG). Clinical manifestations are highly variable; most patients are usually asymptomatic, but may appear with mild to severe bleeding or thrombotic complications. We have sequenced all exons of the FGA, FGB, and FGG genes using the DNA isolated from the peripheral blood in two unrelated probands with mild hypofibrinogenemia. Coagulation screening, global hemostasis, and functional analysis tests were performed. Molecular modeling was used to predict the defect of synthesis and structural changes of the identified mutation. DNA sequencing revealed a novel heterozygous variant c.1421G>A in exon 8 of the FGB gene encoding a Bβ chain (p.Trp474Ter) in both patients. Clinical data from patients showed bleeding episodes. Protein modelling confirmed changes in the secondary structure of the molecule, with the loss of three β sheet arrangements. As expected by the low fibrinogen levels, turbidity analyses showed a reduced fibrin polymerisation and imaging difference in thickness fibrin fibers. We have to emphasize that our patients have a quantitative fibrinogen disorder; therefore, the reduced function is due to the reduced concentration of fibrinogen, since the Bβ chains carrying the mutation predicted to be retained inside the cell. The study of fibrinogen molecules using protein modelling may help us to understand causality and effect of novel genetic mutations. [ABSTRACT FROM AUTHOR]

Published

2020

20. Genetic Variants in the FGB and FGG Genes Mapping in the Beta and Gamma Nodules of the Fibrinogen Molecule in Congenital Quantitative Fibrinogen Disorders Associated with a Thrombotic Phenotype.

Author

Simurda, Tomas, Brunclikova, Monika, Asselta, Rosanna, Caccia, Sonia, Zolkova, Jana, Kolkova, Zuzana, Loderer, Dusan, Skornova, Ingrid, Hudecek, Jan, Lasabova, Zora, Stasko, Jan, and Kubisz, Peter

Subjects

FIBRIN, FIBRONECTINS, FIBRINOGEN, GENE mapping, MOLECULES, BLOOD coagulation

Abstract

Fibrinogen is a hexameric plasmatic glycoprotein composed of pairs of three chains (Aα, Bβ, and γ), which play an essential role in hemostasis. Conversion of fibrinogen to insoluble polymer fibrin gives structural stability, strength, and adhesive surfaces for growing blood clots. Equally important, the exposure of its non-substrate thrombin-binding sites after fibrin clot formation promotes antithrombotic properties. Fibrinogen and fibrin have a major role in multiple biological processes in addition to hemostasis and thrombosis, i.e., fibrinolysis (during which the fibrin clot is broken down), matrix physiology (by interacting with factor XIII, plasminogen, vitronectin, and fibronectin), wound healing, inflammation, infection, cell interaction, angiogenesis, tumour growth, and metastasis. Congenital fibrinogen deficiencies are rare bleeding disorders, characterized by extensive genetic heterogeneity in all the three genes: FGA, FGB, and FGG (enconding the Aα, Bβ, and γ chain, respectively). Depending on the type and site of mutations, congenital defects of fibrinogen can result in variable clinical manifestations, which range from asymptomatic conditions to the life-threatening bleeds or even thromboembolic events. In this manuscript, we will briefly review the main pathogenic mechanisms and risk factors leading to thrombosis, and we will specifically focus on molecular mechanisms associated with mutations in the C-terminal end of the beta and gamma chains, which are often responsible for cases of congenital afibrinogenemia and hypofibrinogenemia associated with thrombotic manifestations. [ABSTRACT FROM AUTHOR]

Published

2020