scholarly journals Unsolved issues of providing medical care to patients with hemophilia with inhibitors in Russia

2019 ◽  
Vol 6 (2) ◽  
pp. 48-53
Author(s):  
N. I. Zozulya ◽  
V. M. Chernov ◽  
I. S. Tarasova ◽  
A. G. Rumyantsev
Keyword(s):  
Factor Viii ◽  
Hemophilia A ◽  
Coagulation Factor ◽  
Coagulation Factors ◽  
Factor Ix ◽  
New Drugs ◽  
Induction Treatment ◽  
Treatment Results ◽  
Bypassing Agents ◽  
Inhibitor Titer

The implementation of the state program “7 highcost nosologies” and the active work of Russian hematologists have significantly improved the specialized care for children and adults with Hemophilia. Russian hemophilia patient registry as of 10.25.2018 contained information about 7433 patients, of whom with hemophilia A – 6525 people. About 400 people were diagnosed with hemophilia with inhibitors. The inhibitor predominantly appeared at child and young age (up to 20 years). There is a high supply of coagulation factors concentrates for the treatment of hemophilia in the Russian Federation – 8.1 IU of coagulation factor VIII per capita in 2018, which corresponds to the graduation “full integration into society” according to the scale proposed by the World Hemophilia Federation. Due to the sufficient availability of coagulation factors, it is possible to conduct elimination of inhibitors by immune tolerance induction. Treatment with antiinhibitor coagulant complex and eptacog alfa (activated) requires a good venous access and is not always effective. Treatment results remain unsatisfactory in 67 % of adult patients with severe hemophilia with low inhibitor titer due to the number of bleeding per year exceeds 4. Unsatisfactory treatment results are noted in more than 1/ 3 patients with a high inhibitor titer, despite the ongoing prophylaxis with bypassing agents. Currently, clinical studies of fundamentally new drugs for hemophilia treatment, including the inhibitory form, are ongoing. One such drug is emicizumab, which is a bispecific humanized monoclonal antibody that bridges activated factor IX and factor X to restore the function of missing activated factor VIII Emicizumab is not neutralized by inhibitors to FVIII, which allows it to be successfully used in the inhibitory form of hemophilia A. The results of HAVEN 1 and HAVEN 2 studies showed the advantages of using emicizumab in prophylactic regimen in children and adults with the inhibitory form of hemophilia A compared with bypassing agents.

scholarly journals МЕТОДОЛОГІЧНІ ПІДХОДИ ОДЕРЖАННЯ ФАКТОРА VIII ЗСІДАННЯ КРОВІ

2020 ◽  
Vol 79 (1-2) ◽  
pp. 102-108
Author(s):  
N. O. Shurko ◽  
V. L. Novak
Keyword(s):  
Factor Viii ◽  
Hemophilia A ◽  
Specific Activity ◽  
Coagulation Factor ◽  
Coagulation Factors ◽  
Modern Technology ◽  
Exchange Chromatography ◽  
Factor Ix ◽  
Protein Therapy ◽  
Biotechnological Approach

The article deals with basic methods used by modern technology to obtain coagulation factor VIII (FVIII). The blood plasma fractionation remains the only biotechnological approach to make life-saving protein therapy to treat human diseases. The biological medicines from human plasma play a vital role in the treatment of patients with different diseases. These products include a range of coagulation factors (FVIII, FIX, the prothrombin complex, Von Willebrand factor, fibrinogen etc.), immunoglobulins, protease inhibitors, anticoagulants and albumin. Four plasma proteins are commercially important for production: albumin, IgG, factor VIII, and factor IX. VIII is a coagulation factor in the blood, which is missing or defective in patients with Hemophilia A. Replacement therapy with FVIII concentrates constitutes the basis for hemophilia care. Cryoprecipitate was described in the mid 60's of the XX century as a first concentrate of antihemophilic FVIII.The main indications for the clinical use of cryoprecipitate were hypofibrinogenemia or disfibrinogenemia. Previously, cryoprecipitate was used for treatment of hemophilia A and von Willebrand’s disease. Traditional FVIII production methods included deposition steps, which were aimed at elimination of protein impurities such as fibrinogen, fibronectin and immunoglobulins. These technologies could use the combination of methods at low temperatures or the addition of protein precipitating substances (PEG, polyvinylpyrrolidone, dextran, ficol, percol etc.). Using chromatographic methods in FVIII production technology allowed receiving high purity and specific activity concentrate of FVIII. Ion exchange chromatography techniques are often used in order to isolate coagulation FVIII. These techniques include methods of affinity chromatography as well as the use of monoclonal antibodies to bind of FVIII. Nowadays, production of plasma concentrate of FVIII is used in combination with different chromatographic techniques.

scholarly journals Biological Rationale for New Drugs in the Bleeding Disorders Pipeline

Hematology ◽  
2011 ◽  
Vol 2011 (1) ◽  
pp. 397-404 ◽  
Author(s):  
Patrick F. Fogarty
Keyword(s):  
Coagulation Factor ◽  
Coagulation Factors ◽  
Developed Countries ◽  
Factor Ix ◽  
New Drugs ◽  
Joint Disease ◽  
Novel Agents ◽  
Clotting Factor ◽  
Alternative Pathways ◽  
Long Acting

AbstractSince the introduction of replacement coagulation factor infusions for the treatment of hemophilia in the 1970s and subsequent improvements in the safety profile of available factor VIII (FVIII) and factor IX (FIX) concentrates, mortality among patients with hemophilia has improved considerably and now parallels that of the noncoagulopathic population in developed countries. Substantial morbidity, however, continues from the development of inhibitory antibodies, a recognized complication of clotting factor replacement; from infections and thrombosis complicating placement of central venous catheters, which are required in children with hemophilia due to frequent prophylactic infusions of coagulation factors with defined half-lives; and from disabling joint disease in individuals without access to costly prophylaxis regimens. In response to the need for long-acting, more potent, less immunogenic, and more easily administered therapies, an impressive array of novel agents is nearly ready for use in the clinical setting. These therapeutics derive from rational bioengineering of recombinant coagulation factors or from the discovery of nonpeptide molecules that have the potential to support hemostasis through alternative pathways. The number of novel agents in clinical trials is increasing, and many of the initial results are promising. In addition to advancing treatment of bleeding episodes or enabling adherence to prophylactic infusions of clotting factor concentrate, newer therapeutics may also lead to improvements in joint health, quality of life, and tolerability of iatrogenic or comorbidity-associated bleeding challenges.

scholarly journals Niños con hemofilia y su atención odontológica por estomatología pediátrica. Revisión de la literatura / Children with Hemophilia and their Dental Care by Pediatric Stomatology. Review of Literature

2016 ◽  
Vol 35 (74) ◽  
Author(s):  
Ángela Liliana Grandas Ramírez
Keyword(s):  
Factor Viii ◽  
Dental Care ◽  
Hemophilia A ◽  
Dental Treatment ◽  
Coagulation Factor ◽  
Coagulation Factors ◽  
Pediatric Dentistry ◽  
Review Of Literature ◽  
National University ◽  
Treatment Considerations

<strong>ABSTRACT. </strong><strong><em>Purpose</em></strong>: To carry out systematic review of literature about diagnostics, severity, and dental treatment considerations of children with Hemophilia A. <strong><em>Methods</em></strong>: The search for articles and other document was conducted through the databases available at the National Library System of the National University of Colombia. The English and Spanish terms used in the search were “pediatric dentistry,” “hemophilia A,” dental care,” “coagulation factors,” and/or “coagulation disorders.” <strong><em>Results</em></strong>: The sample consisted of 29 articles that met the inclusion criteria. Hemophilia A is a congenital disorder caused by a deficiency of coagulation factor VIII. Treatment of hemophilia depends on its severity and focuses on avoiding risking life of children due to preventable bleeding by timely applying local therapies such as tranexamic acid or factor VIII, depending on dental needs. Dental treatment of hemophilia A should be interdisciplinary and must emphasize primary health care, health promotion, and prevention in order to avoid invasive dental treatments that could cause bleeding. In addition, treatments seek to maintain oral health and to provide quality of life to children living with hemophilia A.

scholarly journals An Unusual Presentation of Hemophilia A: Pseudotumor of Distal End Radius—Masquerading as Giant Cell Tumor

2018 ◽  
Vol 11 (S 01) ◽  
pp. S11-S15
Author(s):  
Amit Sharma ◽  
Jeetendra Singh Lodhi ◽  
Purushottam Lingaiah ◽  
Awkash Kumar ◽  
Sumit Arora
Keyword(s):  
Factor Viii ◽  
Giant Cell Tumor ◽  
Giant Cell ◽  
Normal Limit ◽  
Hemophilia A ◽  
Coagulation Factors ◽  
Cell Tumor ◽  
Factor Ix ◽  
Factor Viii Level ◽  
Viii Level

AbstractHemophilia is a coagulation defect caused by a functional or absolute deficiency of coagulation factors. Deficiency of factor VIII leads to hemophilia A; deficiency of factor IX causes hemophilia B. Pseudotumor may arise from hemorrhage into the muscle and within the subperiosteal space and can lead to destruction of the adjacent muscle, bone, nerves, and vessels. A 60-year-old man presented with the complaint of pain and swelling in right wrist. The patient consulted the general practitioner who misdiagnosed it as a case of giant cell tumor due to typical X-ray changes. Biopsy was done following which there was prolonged bleeding leading to worsening of clinical condition and the patient presented in our hospital with ulcerated swelling. Routine blood investigations were within normal limit. Prothrombin time was 12.1 seconds and activated partial thromboplastin time (aPTT) was 54.3 seconds. Raised aPTT led to suspicion of hemophilia, and factor VIII and IX levels were investigated. Factor IX level was within normal limit. Factor VIII level was 6.3%. The patient was managed conservatively. Factor VIII level was replaced according to standard protocol (40 IU/kg per dose thrice a week for 10 days). Daily dressing was done using tranexamic acid locally. Lesion healed completely in 6 months.

scholarly journals Congenital hemophilia A with low activity of factor XII: a case report and literature review

2021 ◽  
Vol 47 (1) ◽  
Author(s):  
Baoyu Lei ◽  
Chuang Liang ◽  
Haiyan Feng
Keyword(s):  
Genetic Testing ◽  
Factor Viii ◽  
Hemophilia A ◽  
Coagulation Factor ◽  
Coagulation Factors ◽  
Coagulation Factor Viii ◽  
Factor Xii ◽  
Fviii Activity ◽  
Recombinant Fviii ◽  
Low Activity

Abstract Background Congenital hemophilia A is a recessive inherited hemorrhagic disorder. According to the activity of functional coagulation factors, the severity of hemophilia A is divided into three levels: mild, moderate and severe. The first bleeding episode in severe and moderate congenital hemophilia A occurs mostly in early childhood and mainly involves soft tissue and joint bleeds. At present, there are limited reports on severe congenital hemophilia A with low factor XII (FXII) activity during the neonatal period. Case presentation A 13-day-old neonate was admitted to the hospital with hematoma near the joints of both upper arms. Coagulation tests showed he had low activity of factor VIII (FVIII) and FXII. He was diagnosed with congenital hemophilia A and treated with human coagulation factor VIII (recombinant FVIII). Although the hematoma became smaller, FVIII activity was only increased to a certain extent and FXII activity decreased gradually. Unfortunately, the child responded poorly to recombinant human coagulation factor VIII and his guardian rejected prophylactic inhibitors and genetic testing and refused further treatment. Three months later, the child developed intracranial hemorrhage (ICH) due to low FVIII activity. Conclusions In hemophilia A, the presence of FVIII inhibitors, drug concentration and testing are three important aspects that must be considered when FVIII activity does not reach the desired level. Early positive disease treatment and prophylaxis can decrease the frequency of bleeding and improve quality of life. We recommend that pregnant women with a family history of hemophilia A undergo early prenatal and neonatal genetic testing.

scholarly journals A mutated factor X activatable by thrombin corrects bleedings in vivo in a rabbit model of antibody-induced hemophilia A

Haematologica ◽  
2019 ◽  
Vol 105 (9) ◽  
pp. 2335-2340
Author(s):  
Toufik Abache ◽  
Alexandre Fontayne ◽  
Dominique Grenier ◽  
Emilie Jacque ◽  
Alain Longue ◽  
...  
Keyword(s):  
Factor Viii ◽  
Hemophilia A ◽  
Factor Viia ◽  
Rabbit Model ◽  
Coagulation Factor ◽  
Factor Ix ◽  
Factor X ◽  
Factor Viiia

Rendering coagulation factor X sensitive to thrombin was proposed as a strategy that can bypass the need for factor VIII. In this paper, this non-replacement strategy was evaluated in vitro and in vivo in its ability to correct factor VIII but also factor IX, X and XI deficiencies. A novel modified factor X, named Actiten, was generated and produced in the HEK293F cell line. The molecule possesses the required post-translational modifications, partially keeps its ability to be activated by RVV-X, factor VIIa/tissue factor, factor VIIIa/factor IXa and acquires the ability to be activated by thrombin. The potency of the molecule was evaluated in respective deficient plasmas or hemophilia A plasmas, for some with inhibitors. Actiten corrects dose dependently all the assayed deficient plasmas. It is able to normalize the thrombin generation at 20 μg/mL showing however an increased lagtime. It was then assayed in a rabbit antibody-induced model of hemophilia A where, in contrast to recombinant factor X wild-type, it normalized the bleeding time and the loss of hemoglobin. No sign of thrombogenicity was observed and the generation of activated factor X was controlled by the anticoagulation pathway in all performed coagulation assays. This data indicates that Actiten may be considered as a possible non replacement factor to treat hemophilia's with the advantage of being a zymogen correcting bleedings only when needed.

Critical Bleeding in Acquired Hemophilia A: Bypassing Agents or Recombinant Porcine Factor VIII?

2020 ◽  
Author(s):  
Andreas Tiede
Keyword(s):  
Factor Viii ◽  
Hemophilia A ◽  
Factor Viia ◽  
Indirect Evidence ◽  
Coagulation Factor ◽  
Similar Efficacy ◽  
Acquired Hemophilia A ◽  
Acquired Hemophilia ◽  
Activated Prothrombin Complex Concentrate ◽  
Bypassing Agents

AbstractAcquired hemophilia A (AHA) is caused by autoantibodies neutralizing coagulation factor VIII (FVIII). In the presence of inhibitors against FVIII, acute bleeds can be managed with bypassing agents, including recombinant factor VIIa (eptacog alfa activated, NovoSeven) and activated prothrombin complex concentrate (FEIBA), as well as recombinant porcine FVIII (susoctocog alfa, Obizur). Studies comparing these agents directly are not available, and indirect evidence suggests an overall similar efficacy. Selecting an agent in clinical practice therefore depends on (1) availability of agent, (2) safety profile, (3) monitoring requirements, (4) cost, and (5) personal experience. This review examines available data and collects additional considerations to support decision making for bleeding emergencies in AHA.

scholarly journals Recombinant Porcine Factor VIII Use in Bleed Treatment in Non-Severe Hemophilia a Inhibitor Patients: Dosing Strategies and Efficacy

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 1202-1202
Author(s):  
Patrick Ellsworth ◽  
Sheh-Li Chen ◽  
Yasmina L. Abajas ◽  
Stephan Moll ◽  
Nigel S. Key ◽  
...  
Keyword(s):  
North Carolina ◽  
Factor Viii ◽  
Hemophilia A ◽  
Adult Patients ◽  
Inhibitor Development ◽  
Fviii Inhibitor ◽  
Fviii Activity ◽  
Bypassing Agents ◽  
The University ◽  
Inhibitor Titer

Abstract Introduction and Rationale: The development of alloantibodies to factor VIII remains a challenging and significant complication in the treatment of patients with congenital hemophilia A (HA). Inhibitor development is more common in severe HA than in non-severe HA (NSHA). Incidence of inhibitors in NSHA is approximately 3-13%, and even with attempted immune tolerance induction and immunosuppression, inhibitors have been reported to persist long-term in about 40% of NSHA patients (Hay 1998). Inhibitors in patients with NSHA can have variable kinetics, causing clinical characteristics similar to patients with acquired hemophilia A (AHA), with observable type 2 kinetics and inhibition of exogenous and endogenous FVIII activity (d'Oiron et al. 2006). Optimal treatment regimens have yet to be established for these patients, in terms of inhibitor eradication and choice of agent for control of bleeding episodes, with known thrombotic side effects when using bypassing agents, including in pediatric patients (d'Oiron et al. 2006). It has been observed as well that the efficacy of bypassing agents, such as activated prothrombin complex concentrates (aPCC) and recombinant activated factor VII (rFVIII), is diminished in the presence of an inhibitor (Rocino et al. 2017). Challenge with aPCC or rFVIII can also induce inhibitor recurrence in patients who have had previous resolution (Giuffrida et al. 2008). Recombinant porcine FVIII (rpFVIII) is an alternative therapy, which by virtue of its incomplete homology in the A2 and C2 domains of the FVIII molecule, has decreased reactivity with anti-human FVIII (hFVIII) inhibitors (Mulliez et al. 2014). rpFVIII has demonstrated efficacy in patients with severe HA with inhibitors, as well as in acquired HA (AHA) (Kempton et al. 2012; Kruse-Jarres et al. 2015). However, experience is limited for use in patients with NSHA and inhibitors. We report successful bleed treatment with rpFVIII of 3 adult patients and 1 child with NSHA who developed inhibitors at the University of North Carolina, with excellent hemostatic efficacy and no adverse treatment-related effects. Methods: We analyzed clinical, pharmacy, and laboratory data from 4 patients with NSHA who developed inhibitors treated with rpFVIII after failure of or contraindication to bypassing agents at the University of North Carolina. Investigational review board approval was obtained for our data collection and analysis. Results: Average baseline FVIII activity was 9.5%, with 3 of our 4 patients having a FVIII activity of <1 after inhibitor development. Mean anti-human FVIII inhibitor titer (hBIA) was 83 BU, ranging from 0.8 to 306 BU. Mean cumulative dose of rpFVIII used in the first 24 hours was 735 U/kg, but only 163 U/kg in our adult patients. Mean number of infusions used in the first 24 hours was 2.3 in our adult patients, and the pediatric patient required 18 infusions in the first 24 hours. Mean peak FVIII recovery was 153%. Hemostasis was achieved in all 4 patients with no treatment-related adverse effects, despite 3 of 4 patients developing a detectable anti-porcine FVIII inhibitor titer (pBIA). Conclusions: rpFVIII appears to be a safe and effective therapy in patients with NSHA who develop inhibitors. Our patients treated with immunosuppression in addition to rpFVIII, similar to how we treat patients with AHA. Of note, we achieved effective hemostasis in our 3 adult patients at much lower than FDA-recommended doses for AHA by using our previously established dosing algorithm for rp FVIII (Martin et al. 2016; Fig 1). Our pediatric patient required much more rpFVIII for effective hemostasis. This patient also had a much higher hBIA, and was being treated after the failure of multiple bypassing agents. However, once it seemed inhibitor binding sites were saturated after frequent higher rpFVIII doses, FVIII recovery was achieved, with concomitant decrease in doses required. FVIII activity was an effective means of monitoring efficacy of rpFVIII use, as in severe HA and AHA. One adult patient in particular had a very good clinical response to rpFVIII, requiring only 1 dose in the first 24 hours, with doses as low as 19 U/kg given daily required for bleeding control. Disclosures Abajas: CSL Limited: Honoraria; Bayer: Honoraria. Moll:Stago Diagnostics: Consultancy. Ma:CSL: Consultancy; Novo Nordisk: Consultancy; Shire: Honoraria, Research Funding; CVS: Honoraria.

MOLECULAR ANALYSIS OF COAGULATION FACTOR VIII AND IX GENES BY DNA PROBES

1987 ◽  
Author(s):  
C de la Salle ◽  
M J Baas ◽  
L Grunebaum ◽  
R Gialeraki ◽  
T Mandalaki ◽  
...  
Keyword(s):  
Factor Viii ◽  
Hemophilia A ◽  
Cdna Probe ◽  
Coagulation Factor ◽  
Molecular Study ◽  
Large Deletion ◽  
Factor Ix ◽  
Hemophilia B ◽  
Factor Viii Gene ◽  
Genomic Probe

About 250 individuals belonging to 44 families with hemophilia A or B were studied in our laboratory. The detection of carriers was first established by pedigree analysis of each family . and coagulation and immunological assays of factor VIII or IX. The availability of specific probes for the molecular study of these two genes makes possible a diagnosis with certainty in the case of informative families. 25 families of hemophilia A were studied. For each person, blood was collected into EDTA and leucocyte DNA was extracted, digested by restriction endonucleases, electrophoresed in 0.9 % agarose gels and transferred to nitrocellulose filters by Southern blotting. Two probes were used for the analysis of factor VIII gene. The St 14 probe (J.L. Mandel) located on the q28 region of the X chromosome and closely linked to the gene, determines a restriction fragment length polymorphism (RFLP) when the DNA is digested by the enzyme TaqI. The p114-12 genomic probe (Genentech) corresponding to the exons 17 and 18 of the factor VIII gene, reveals a RFLP in the DNA digested by the enzyme BclI. 19 families -of hemophilia B were studied. A total factor IX cDNA probe was used for the screening of potential deletions in the case of hemophiliacs with circulating antibodies. A genomic probe containing the exons II, III and IV of factor IX was used to detect the TaqI RFLP. For the study of factor VIII gene, the extragenic probe St 14 gives a very high percentage of informativity (about 90 %) but recombination can occur between the probe and the gene. The p 114-12 probe, which is used to confirm the results given by the St 14 probe, gives about 20 % informativity. In our study, we were able to diagnose carrier state with certainty in 92 % of the families. For hemophilia B, the genomic probe gives about 40 % informativity. A large deletion of the region of the factor IX gene has been found in one family and remains to be mapped. In conclusion, carrier detection and prenatal diagnosis can be established with certainty by molecular studies in most cases of hemophilia A using the St 14 probe, with a 5 % risk of recombination when the BclI RFLP cannot confirm. This diagnosis is possible in about 40 % of the cases of hemophilia B.

Structural Basis for Hemophilia A Caused by Mutations in the C Domains of Blood Coagulation Factor VIII

2000 ◽  
Vol 83 (01) ◽  
pp. 78-85 ◽  
Author(s):  
Andrew Gale ◽  
Jean-Luc Pellequer ◽  
Elizabeth Getzoff ◽  
John Griffin
Keyword(s):  
Factor Viii ◽  
Hemophilia A ◽  
Three Dimensional ◽  
Coagulation Factor ◽  
Coagulation Factors ◽  
Structural Basis ◽  
Head Orientation ◽  
Missense Mutations ◽  
C2 Domains ◽  
Blood Coagulation Factor Viii

SummaryThree dimensional homology models for the C1 and C2 domains of factor VIII (FVIII) were generated. Each C domain formed a β-sandwich, and C1 was covalently connected to C2 in a head-to-head orientation. Of the >250 missense mutations that cause FVIII deficiency and hemophilia A, 34 are in the C domains. We used the FVIII C1-C2 model to infer the structural basis for the pathologic effects of these mutations. The mutated residues were divided into four categories: 15 conserved buried residues that affect normal packing of the hydrophobic side chains, 2 non-conserved buried residues that affect structure, 11 conserved exposed residues and 6 non-conserved exposed residues. The effects of all 34 missense mutations can be rationalized by predictable disruptions of FVIII structure while at most four mutations (S2069F, T2154I, R2209Q/G/L and E2181D) may affect residues directly involved in intermolecular interactions of FVIII/VIIIa with other coagulation factors or vWF.

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