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A drug repurposing study based on clinical big data for the treatment of interstitial lung disease / 間質性肺疾患の治療のための臨床ビッグデータに基づくドラッグリパーパシング研究SONI, SISWANTO 23 September 2020 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(薬科学) / 甲第22752号 / 薬科博第126号 / 新制||薬科||14(附属図書館) / 京都大学大学院薬学研究科薬科学専攻 / (主査)教授 金子 周司, 教授 土居 雅夫, 教授 竹島 浩 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM
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Efeito dos anticoagulantes sobre a agregabilidade plaquetária: ação da heparina de baixo peso molecular enoxaparina, e do inibidor direto da trombina dabigatrana / Influence of dabigatran and enoxaparin on platelet aggregation in patients with stable coronary artery diseaseArantes, Flávia Bittar Britto 10 July 2018 (has links)
Introdução: A interação entre os anticoagulantes e a agregabilidade plaquetária é complexa. Dados laboratoriais prévios mostraram que a dabigatrana aumenta a excreção urinária de metabólito do tromboxano, indicando efeito de ativação de plaquetas. Posteriormente, dados do estudo RELY sugeriram que a dabigatrana 150mg poderia aumentar o risco de infarto do miocárdio em pacientes com fibrilação atrial. Objetivos: Comparar a influência da Dabigatrana e Enoxaparina na agregabilidade plaquetária. Métodos: Estudo prospectivo, intervencionista, realizado em pacientes com doença arterial coronariana (DAC) crônica em uso de aspirina em baixas doses. Os indivíduos foram inicialmente designados para dabigatrana 150mg, 2x/dia, por 5 dias, seguido por um período de washout de 30 dias e depois para exoxaparina 1mg/kg, 2x/dia, por um período adicional de 5 dias. Os testes de função plaquetária foram realizados no início e após cada fase de intervenção, usando agregometria de sangue total p (MEA) (objetivo primário), ELISA para determinação quantitativa de tromboxano B2 (TXB2), Verify Now Aspirin e testes de coagulação (objetivos secundários). Resultados: Em comparação com os valores basais, a dabigatrana aumentou a agregabilidade plaquetária avaliada pelo teste MEA-ASPI (+5U ± 24,1), enquanto a enoxaparina diminuiu a agregabilidade plaquetária (-6U ± 22,2), p=0,012 para a comparação entre os grupos ). O mesmo padrão foi observado usando o ensaio TXB2 (+2pg/mL para dabigatrana, -13pg/mL para enoxaparina, p = 0,011). Não houve diferenças significativas entre os dois grupos em relação aos demais testes. Individualmente, a enoxaparina diminuiu significativamente a agregabilidade plaquetária por TXB2 [33 (16,5 - 95)pg/mL vs. 20 (10-52) pg/mL, respectivamente, p = 0,026), mas não foram observadas diferenças significativas individuais com a dabigatrana em relação aos valores basais. Conclusões: Em relação à agregabilidade plaquetária, há um efeito oposto significativo da dabigatrana (aumento) em comparação com a enoxaparina (diminuição). Individualmente, foi observada uma diminuição significativa na agregabilidade plaquetária apenas com a enoxaparina, quando comparada com valores basais / Background: The interaction between anticoagulants and platelet aggregation is complex. Previous laboratory data have shown that dabigatran increases urinary thromboxane metabolite excretion, indicating platelet-activating effect. Thereafter, data from RELY trial suggested that dabigatran 150mg could enhance the risk of myocardial infarction in atrial fibrillation patients. Objectives: To compare the influence of Dabigatran and Enoxaparin on platelet aggregation. Methods: Prospective, interventional study conducted in chronic coronary artery disease (CAD) patients taking low-dose aspirin. Subjects were assigned initially to dabigatran 150mg bid for 5 days followed by a washout period of 30 days and then to exoxaparin 1mg/kg bid for an additional 5 days period. Platelet function tests were performed at baseline and after each intervention phase using multiple electrode aggregometry (MEA) (primary endpoint), ELISA for plasma quantitative determination of thromboxane B2, Verify Now Aspirin and coagulation tests as secondary endpoints. Results: In comparison with the baseline values, dabigatran increased platelet aggregation evaluated by MEAASPI test (+5U ± 24.1), whereas enoxaparin decreased platelet aggregation (- 6U± 22.2), p=0.012 for the comparison between the groups). The same pattern was observed using theTxB2 assay (+2pg/mL for dabigatran, -13pg/mL for enoxaparin, p=0.011). There were no significant differences between both groups regarding the VerifyNow Aspirin or the other platelet function and coagulation tests utilized. Individually, enoxaparin significantly decreased platelet aggregation by TXB2 [33 (16,5 - 95) pg/mL vs. 20 (10-52) pg/mL, respectivamente, p = 0.026) but no significant differences were observed with dabigatran when individually compared to baseline. Conclusions: Regarding platelet aggregation, there is a significant opposite effect of dabigatran (increase) in comparison with enoxaparin (decrease). Individually, a significant decrease in platelet aggrebability was observed with enoxaparin, but no significant differences were observed with dabigatran
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Efeito dos anticoagulantes sobre a agregabilidade plaquetária: ação da heparina de baixo peso molecular enoxaparina, e do inibidor direto da trombina dabigatrana / Influence of dabigatran and enoxaparin on platelet aggregation in patients with stable coronary artery diseaseFlávia Bittar Britto Arantes 10 July 2018 (has links)
Introdução: A interação entre os anticoagulantes e a agregabilidade plaquetária é complexa. Dados laboratoriais prévios mostraram que a dabigatrana aumenta a excreção urinária de metabólito do tromboxano, indicando efeito de ativação de plaquetas. Posteriormente, dados do estudo RELY sugeriram que a dabigatrana 150mg poderia aumentar o risco de infarto do miocárdio em pacientes com fibrilação atrial. Objetivos: Comparar a influência da Dabigatrana e Enoxaparina na agregabilidade plaquetária. Métodos: Estudo prospectivo, intervencionista, realizado em pacientes com doença arterial coronariana (DAC) crônica em uso de aspirina em baixas doses. Os indivíduos foram inicialmente designados para dabigatrana 150mg, 2x/dia, por 5 dias, seguido por um período de washout de 30 dias e depois para exoxaparina 1mg/kg, 2x/dia, por um período adicional de 5 dias. Os testes de função plaquetária foram realizados no início e após cada fase de intervenção, usando agregometria de sangue total p (MEA) (objetivo primário), ELISA para determinação quantitativa de tromboxano B2 (TXB2), Verify Now Aspirin e testes de coagulação (objetivos secundários). Resultados: Em comparação com os valores basais, a dabigatrana aumentou a agregabilidade plaquetária avaliada pelo teste MEA-ASPI (+5U ± 24,1), enquanto a enoxaparina diminuiu a agregabilidade plaquetária (-6U ± 22,2), p=0,012 para a comparação entre os grupos ). O mesmo padrão foi observado usando o ensaio TXB2 (+2pg/mL para dabigatrana, -13pg/mL para enoxaparina, p = 0,011). Não houve diferenças significativas entre os dois grupos em relação aos demais testes. Individualmente, a enoxaparina diminuiu significativamente a agregabilidade plaquetária por TXB2 [33 (16,5 - 95)pg/mL vs. 20 (10-52) pg/mL, respectivamente, p = 0,026), mas não foram observadas diferenças significativas individuais com a dabigatrana em relação aos valores basais. Conclusões: Em relação à agregabilidade plaquetária, há um efeito oposto significativo da dabigatrana (aumento) em comparação com a enoxaparina (diminuição). Individualmente, foi observada uma diminuição significativa na agregabilidade plaquetária apenas com a enoxaparina, quando comparada com valores basais / Background: The interaction between anticoagulants and platelet aggregation is complex. Previous laboratory data have shown that dabigatran increases urinary thromboxane metabolite excretion, indicating platelet-activating effect. Thereafter, data from RELY trial suggested that dabigatran 150mg could enhance the risk of myocardial infarction in atrial fibrillation patients. Objectives: To compare the influence of Dabigatran and Enoxaparin on platelet aggregation. Methods: Prospective, interventional study conducted in chronic coronary artery disease (CAD) patients taking low-dose aspirin. Subjects were assigned initially to dabigatran 150mg bid for 5 days followed by a washout period of 30 days and then to exoxaparin 1mg/kg bid for an additional 5 days period. Platelet function tests were performed at baseline and after each intervention phase using multiple electrode aggregometry (MEA) (primary endpoint), ELISA for plasma quantitative determination of thromboxane B2, Verify Now Aspirin and coagulation tests as secondary endpoints. Results: In comparison with the baseline values, dabigatran increased platelet aggregation evaluated by MEAASPI test (+5U ± 24.1), whereas enoxaparin decreased platelet aggregation (- 6U± 22.2), p=0.012 for the comparison between the groups). The same pattern was observed using theTxB2 assay (+2pg/mL for dabigatran, -13pg/mL for enoxaparin, p=0.011). There were no significant differences between both groups regarding the VerifyNow Aspirin or the other platelet function and coagulation tests utilized. Individually, enoxaparin significantly decreased platelet aggregation by TXB2 [33 (16,5 - 95) pg/mL vs. 20 (10-52) pg/mL, respectivamente, p = 0.026) but no significant differences were observed with dabigatran when individually compared to baseline. Conclusions: Regarding platelet aggregation, there is a significant opposite effect of dabigatran (increase) in comparison with enoxaparin (decrease). Individually, a significant decrease in platelet aggrebability was observed with enoxaparin, but no significant differences were observed with dabigatran
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FUNCTIONAL STUDIES WITH DIRECT ORAL ANTICOAGULANTS: INVESTIGATION OF THE REGULATION OF KEY BLOOD COAGULATION PROTEASESYeh, Calvin Hsiung January 2016 (has links)
Intrinsic structural and conformational mechanisms regulate the functional specificity of the coagulation system. The study of these structure-function relationships is important for understanding the strategies used in the management of clinical thrombosis. Previous studies have shown that the central enzyme in clotting, thrombin, is sequestered inside of a clot, and protected from the natural downregulator antithrombin (AT). This is problematic for anticoagulants like heparin which depend on AT. Subsequently, it was found that the key upstream propagator of thrombin, the prothrombinase enzyme complex, is also resistant to the AT-heparin. Our data show that further upstream of prothrombinase, the intrinsic tenase is only moderately protected, while there is no protection at the level of the initiator complex, extrinsic tenase. This protection phenomenon possibly reflects steric and allosteric mechanisms that ensure maximal activation of the coagulation system once a threshold stimulus is achieved. These mechanisms likely evolved as a result of conformational rearrangement, as evidenced by the proteolytic activation of thrombin activity following proteolysis of prothrombin. Indeed, subtle differences in the structural interaction of ligands with the active site can lead to substantial differences in enzyme activity. The binding of rivaroxaban and apixaban to factor Xa is nearly identical; both interact with the active site with comparable affinity. Despite this, a 3-fold faster rate of the rivaroxaban on-rate yields significantly greater prolongation of the prothrombin time (PT) and activated partial thromboplastin time (aPTT), global tests of coagulation. These small differences in ligand interaction also have allosteric consequences. Structural differences between the direct thrombin inhibitors dabigatran and argatroban yield divergent exosite-mediated thrombin binding to physiologic ligands like yA-fibrin, y'-fibrin, factor Va, and factor VIII, interactions that govern clot-mediated protection from AT inhibition, and the various functions of thrombin. These divergent effects were robust and ligand-dependent, suggesting conserved energetic scaffolds within the thrombin molecule that govern allosteric changes throughout the molecule. Because proteolysis of prothrombin yields significant allosteric and structural rearrangement that capacitates the active site for substrate recognition amd catalytic ability, we investigated the role of Ser195, a key residue in the thrombin catalytic triad in also regulating thrombin allostery. Site directed mutagenesis of Ser195 to Ala yielded a significant increase in the flexibility of the entire thrombin molecule, as evidenced by increased potency of dabigatran and argatroban in terms of their capacity to modulate exosite binding through the active site, and increased interexosite cooperative and competitive allostery. Together, these studies represent an advance in our understanding of the consequences of both small molecule ligation of coagulation proteases, as well as the consequences of subtle structural modification for overall allosteric function. / Thesis / Doctor of Philosophy (PhD)
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Problématique du choix thérapeutique : application multicritère au cas de la fibrillation auriculaire (FA)Kabura, Emmanuel 07 December 2012 (has links)
Trois essais cliniques ARISTOTLE, RE-LY et ROCKET-AF, sont réalisés sur les quatre nouveaux anticoagulants oraux qui sont l’Apixaban, le Dabigatran 110mg, Dabigatran 150mg et le Rivaroxaban, afin d’améliorer la prise en charge de la fibrillation auriculaire (FA). Ils ne permettent pas de déterminer la meilleure option thérapeutique. L’objectif de cette thèse est de développer une approche d’aide multicritère à la décision pour la problématique du choix thérapeutique appliquée au cas de la FA afin d’évaluer ces quatre options thérapeutiques médicamenteuses. La méthodologie d’aide multicritère développée, PROMETHEE-GAIA appliquée à la FA permet de comparer ces quatre nouveaux anticoagulants (l’Apixaban, le Dabigatran 110mg, Dabigatran 150mg et le Rivaroxaban) en se basant sur les cinq critères essentiels élaborés selon un processus de concertation cadrée, qui sont l’efficacité, la sécurité, la fonction rénale, l’observance et le prix. Les résultats de l’évaluation de ces quatre nouveaux anticoagulants est un classement de ces options thérapeutiques par leur ordre de performance dans la prise en charge des patients de la FA selon ces cinq critères en considération.
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Problématique du choix thérapeutique : application multicritère au cas de la fibrillation auriculaire (FA)Kabura, Emmanuel 07 December 2012 (has links)
Trois essais cliniques ARISTOTLE, RE-LY et ROCKET-AF, sont réalisés sur les quatre nouveaux anticoagulants oraux qui sont l’Apixaban, le Dabigatran 110mg, Dabigatran 150mg et le Rivaroxaban, afin d’améliorer la prise en charge de la fibrillation auriculaire (FA). Ils ne permettent pas de déterminer la meilleure option thérapeutique. L’objectif de cette thèse est de développer une approche d’aide multicritère à la décision pour la problématique du choix thérapeutique appliquée au cas de la FA afin d’évaluer ces quatre options thérapeutiques médicamenteuses. La méthodologie d’aide multicritère développée, PROMETHEE-GAIA appliquée à la FA permet de comparer ces quatre nouveaux anticoagulants (l’Apixaban, le Dabigatran 110mg, Dabigatran 150mg et le Rivaroxaban) en se basant sur les cinq critères essentiels élaborés selon un processus de concertation cadrée, qui sont l’efficacité, la sécurité, la fonction rénale, l’observance et le prix. Les résultats de l’évaluation de ces quatre nouveaux anticoagulants est un classement de ces options thérapeutiques par leur ordre de performance dans la prise en charge des patients de la FA selon ces cinq critères en considération.
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Desenvolvimento e validação de métodos analíticos e estudo de estabilidade de etexilato de dabigatrana em cápsulas / Development and validation of analytical methods and stability study of dabigatran etexilate in capsulesBernardi, Raquel Martini January 2013 (has links)
Etexilato de dabigatrana (DAB) é um pró-fármaco da dabigatrana disponível para administração oral. DAB é um inibidor direto da trombina, desenvolvido para prevenção de acidente vascular cerebral e embolia sistêmica em pacientes com fibrilação atrial e para a prevenção de eventos tromboembólicos em pacientes que se submeteram à cirurgia de artroplastia total de joelho e de quadril. Atualmente, não há métodos publicados para a análise qualitativa e quantitativa e estudos de estabilidade de DAB em cápsulas. Portanto, inicialmente, a caracterização da substância química de referência foi realizada por espectrometria de massas (EM), espectroscopia de absorção no infravermelho, espectroscopia de ressonância magnética nuclear de 1H e calorimetria exploratória diferencial. Os métodos por cromatografia em camada delgada, CLAE utilizando detectores UV, CAD e EM foram usados para identificar o fármaco nas cápsulas. Na sequência, foram desenvolvidos métodos empregando a cromatografia líquida de alta eficiência (CLAE) com detector ultravioleta (CLAE-UV) e detector aerossol carregado (CLAECAD) para a quantificação de DAB em cápsulas. Os mesmos foram validados, avaliando-se parâmetros como especificidade, linearidade, precisão, exatidão, robustez e limites de detecção e quantificação. Os métodos foram comparados estatisticamente por ANOVA e nenhuma diferença estatisticamente significante foi encontrada entre os mesmos. O estudo de estabilidade de DAB frente à degradação térmica foi investigado. Através dos métodos por CLAE-UV e CLAE-EM pode-se propor a identidade dos produtos de degradação formados, sem processo de isolamento ou purificação. Adicionalmente, a cinética de degradação do DAB e a citotoxicidade das amostras degradadas também foram estudadas. O estudo de cinética de degradação térmica apresentou cinética de primeira ordem (R2 = 0,9900). Além disso, nenhuma evidência de citotoxicidade in vitro em estudo utilizando células mononucleares humanas foi observada. Desse modo estabeleceram-se procedimentos que podem ser aplicados para aprimorar o controle de qualidade, contribuindo para assegurar a eficácia terapêutica de produtos à base de DAB. / Dabigatran etexilate (DAB) is an orally available prodrug of dabigatran. DAB is a direct thrombin inhibitor, developed for stroke and systemic embolism prevention in patients with atrial fibrillation and prevention of venous thromboembolic events in patients who have undergone elective total hip replacement or total knee replacement surgery. Currently, there are no methods published for the qualitative and quantitative analysis and stability study of DAB in capsules. Thus, initially, the characterization of the chemical reference substance was performed by mass spectrometry (MS), infrared spectroscopy, 1H nuclear magnetic resonance spectroscopy and differencial scanning calorimetry. The methods by thin-layer chromatography, LC using UV and CAD detector and LC-MS were used to identify the drug in capsule. High performance liquid chromatographic (LC) methods were developed for the assessment of dabigatran etexilate (DAB) in capsules with ultraviolet detector (LC-UV) and charged aerosol detector (LC-CAD). They were validated by evaluating parameters such as specificity, linearity, precision, accuracy, robustness and limits of detection and quantitation. The methods were compared statistically by ANOVA and no statistic difference was found between them. The stability study of DAB under thermal condition was investigated. The degradation products formed were analyzed by LC-UV and LC-MS methods and it’s identify could be suggested, without isolation or purification process. Additionally, the thermal degradation kinetic of DAB and the cytotoxicity of the degraded samples were also studied. The kinetics results could be best described as first-order process (R2 = 0.9900). No evidence of cytotoxicity in human mononuclear cell was observed for drugs degraded samples. So, procedures which can be applied to improve the quality control and contribute to ensure the therapeutic efficacy of products containing DAB.
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Desenvolvimento e validação de métodos analíticos e estudo de estabilidade de etexilato de dabigatrana em cápsulas / Development and validation of analytical methods and stability study of dabigatran etexilate in capsulesBernardi, Raquel Martini January 2013 (has links)
Etexilato de dabigatrana (DAB) é um pró-fármaco da dabigatrana disponível para administração oral. DAB é um inibidor direto da trombina, desenvolvido para prevenção de acidente vascular cerebral e embolia sistêmica em pacientes com fibrilação atrial e para a prevenção de eventos tromboembólicos em pacientes que se submeteram à cirurgia de artroplastia total de joelho e de quadril. Atualmente, não há métodos publicados para a análise qualitativa e quantitativa e estudos de estabilidade de DAB em cápsulas. Portanto, inicialmente, a caracterização da substância química de referência foi realizada por espectrometria de massas (EM), espectroscopia de absorção no infravermelho, espectroscopia de ressonância magnética nuclear de 1H e calorimetria exploratória diferencial. Os métodos por cromatografia em camada delgada, CLAE utilizando detectores UV, CAD e EM foram usados para identificar o fármaco nas cápsulas. Na sequência, foram desenvolvidos métodos empregando a cromatografia líquida de alta eficiência (CLAE) com detector ultravioleta (CLAE-UV) e detector aerossol carregado (CLAECAD) para a quantificação de DAB em cápsulas. Os mesmos foram validados, avaliando-se parâmetros como especificidade, linearidade, precisão, exatidão, robustez e limites de detecção e quantificação. Os métodos foram comparados estatisticamente por ANOVA e nenhuma diferença estatisticamente significante foi encontrada entre os mesmos. O estudo de estabilidade de DAB frente à degradação térmica foi investigado. Através dos métodos por CLAE-UV e CLAE-EM pode-se propor a identidade dos produtos de degradação formados, sem processo de isolamento ou purificação. Adicionalmente, a cinética de degradação do DAB e a citotoxicidade das amostras degradadas também foram estudadas. O estudo de cinética de degradação térmica apresentou cinética de primeira ordem (R2 = 0,9900). Além disso, nenhuma evidência de citotoxicidade in vitro em estudo utilizando células mononucleares humanas foi observada. Desse modo estabeleceram-se procedimentos que podem ser aplicados para aprimorar o controle de qualidade, contribuindo para assegurar a eficácia terapêutica de produtos à base de DAB. / Dabigatran etexilate (DAB) is an orally available prodrug of dabigatran. DAB is a direct thrombin inhibitor, developed for stroke and systemic embolism prevention in patients with atrial fibrillation and prevention of venous thromboembolic events in patients who have undergone elective total hip replacement or total knee replacement surgery. Currently, there are no methods published for the qualitative and quantitative analysis and stability study of DAB in capsules. Thus, initially, the characterization of the chemical reference substance was performed by mass spectrometry (MS), infrared spectroscopy, 1H nuclear magnetic resonance spectroscopy and differencial scanning calorimetry. The methods by thin-layer chromatography, LC using UV and CAD detector and LC-MS were used to identify the drug in capsule. High performance liquid chromatographic (LC) methods were developed for the assessment of dabigatran etexilate (DAB) in capsules with ultraviolet detector (LC-UV) and charged aerosol detector (LC-CAD). They were validated by evaluating parameters such as specificity, linearity, precision, accuracy, robustness and limits of detection and quantitation. The methods were compared statistically by ANOVA and no statistic difference was found between them. The stability study of DAB under thermal condition was investigated. The degradation products formed were analyzed by LC-UV and LC-MS methods and it’s identify could be suggested, without isolation or purification process. Additionally, the thermal degradation kinetic of DAB and the cytotoxicity of the degraded samples were also studied. The kinetics results could be best described as first-order process (R2 = 0.9900). No evidence of cytotoxicity in human mononuclear cell was observed for drugs degraded samples. So, procedures which can be applied to improve the quality control and contribute to ensure the therapeutic efficacy of products containing DAB.
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Oral anticoagulation and stroke riskSjögren, Vilhelm January 2017 (has links)
Background: The risk of ischaemic stroke in patients with atrial fibrillation (AF) and mechanical heart valve (MHV) prostheses can be reduced by oral anticoagulation (OAC), which increases the risk of serious bleeding. The aims of this thesis were [1] to find out how effective and safe warfarin is where treatment quality is high, i.e. Sweden, with proportion of time that patients spend within the therapeutic range (TTR) >70%, [2] whether there is evidence for administering low-molecular-weight heparin (LMWH) during temporary interruptions of OAC (bridging therapy), and whether non-vitamin K-dependent oral anticoagulants (NOACs) as a group, [3] or individually, [4] are more effective and safer than warfarin when used for stroke prevention in patients with AF. Materials and methods: All four studies were retrospective, based on the Swedish anticoagulation register Auricula, and done with merging of data from some or all of the National Patient Register, the Prescribed Drug Register, the Swedish Stroke Register (Riksstroke), and the Cause of Death Register. In studies 2–4, propensity score matching was performed to obtain treatment groups with similar risk profiles. Outcomes were defined as haemorrhages or thromboses requiring specialist care, or death. Haemorrhages were intracranial, gastrointestinal, or other. Thromboses were ischaemic stroke, systemic embolism, myocardial infarction, or venous thromboembolism (VTE). Study 1 described all patients on warfarin during 2006–2011, which was before the introduction of NOACs. Study 2 was a cohort study of all patients who had a planned interruption of warfarin during the same period. Study 3 included all 49,011 patients starting OAC for stroke prevention due to AF between 1 July 2011 and 31 December 2014, and study 4 all 64,382 patients with the same indication between 1 January 2013 and 31 December 2015. Results: Study 1 showed that for the 77,423 patients on warfarin with 217,804 treatment years, TTR was 77.4% for patients with AF, 74.5% with MHV, and 75.9% with VTE. Annual rates of intracranial bleeding were 0.38%, 0.51%, and 0.30%. In study 2, with 14,556 warfarin interruptions, the 30-day risk of a bleeding requiring specialist care was 0.64% for LMWH treated and 0.46% for controls. For patients with VTE as indication for OAC, bleeding rate with LMWH was significantly higher at 0.85% vs. 0.16% (hazard ratio 5.24, 95% confidence interval 1.39–19.77), but with no difference for patients with MHV or AF. The incidence of ischaemic complications was higher in the LMWH bridging group overall and for patients with MHV and AF, but not for patients with VTE. In study 3, for the 12,694 patients starting NOAC (10,392 treatment years) or matched warfarin patients (9,835 treatment years, TTR 70%) due to AF, annual incidence of ischaemic stroke and systemic embolism did not differ between the groups (1.35% vs. 1.58%), but risks of major bleedings and intracranial bleedings were significantly lower: 2.76% vs. 3.61% and 0.40% vs. 0.69%. In study 4, patients on individual NOACs (6,574 dabigatran, 8,323 rivaroxaban, 12,311 apixaban) were compared to 37,174 patients starting warfarin (in total 81,176 treatment years). No NOAC showed any difference in risk of ischaemic stroke or systemic embolism, but there were fewer intracranial bleedings, serious bleedings overall, and deaths for dabigatran and apixaban compared to warfarin. For patients starting rivaroxaban the risk of gastrointestinal bleeding was higher than for matched warfarin counterparts, with no significant differences in other bleeding risks, or mortality. Conclusions: Swedish warfarin treatment shows TTR levels that are high by international standards, correlating to low incidences of ischaemic and haemorrhagic events. LMWH bridging has not been proven beneficial, even for patients with MHV, meaning that bridging in general cannot be recommended. NOACs as a group were safer than high-quality warfarin treatment. Efficacy did not differ, even when comparing individual NOACs to warfarin, but there were fewer bleedings on dabigatran and apixaban. Although not more efficient than warfarin with a high TTR, NOACs should be the recommended first choice for OAC in AF, on the merit of lower bleeding risks. / <p>Finansiär: Forskning och Utveckling, Region Västernorrland</p>
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Problématique du choix thérapeutique : application multicritère au cas de la fibrillation auriculaire (FA)Kabura, Emmanuel January 2012 (has links)
Trois essais cliniques ARISTOTLE, RE-LY et ROCKET-AF, sont réalisés sur les quatre nouveaux anticoagulants oraux qui sont l’Apixaban, le Dabigatran 110mg, Dabigatran 150mg et le Rivaroxaban, afin d’améliorer la prise en charge de la fibrillation auriculaire (FA). Ils ne permettent pas de déterminer la meilleure option thérapeutique. L’objectif de cette thèse est de développer une approche d’aide multicritère à la décision pour la problématique du choix thérapeutique appliquée au cas de la FA afin d’évaluer ces quatre options thérapeutiques médicamenteuses. La méthodologie d’aide multicritère développée, PROMETHEE-GAIA appliquée à la FA permet de comparer ces quatre nouveaux anticoagulants (l’Apixaban, le Dabigatran 110mg, Dabigatran 150mg et le Rivaroxaban) en se basant sur les cinq critères essentiels élaborés selon un processus de concertation cadrée, qui sont l’efficacité, la sécurité, la fonction rénale, l’observance et le prix. Les résultats de l’évaluation de ces quatre nouveaux anticoagulants est un classement de ces options thérapeutiques par leur ordre de performance dans la prise en charge des patients de la FA selon ces cinq critères en considération.
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