Early risk stratification, treatment and outcome in ST-elevation myocardial infarction /

Björklund, Erik,

January 2005

Diss. (sammanfattning) Uppsala : Univ., 2005. / Härtill 4 uppsatser.

The effect of thrombin inhibitors on coagulation activity and generation of activated protein C /

Linder, Rikard,

January 2002

Diss. (sammanfattning)--Stockholm : Karol. inst., 2002. / Härtill 5 uppsatser.

Statins exert antithrombotic action on platelet function and modulate clot formation structure and stability

Jalal, Mohammed Mansour

January 2017

Statins are 3-hydroxy, 3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors, which block the cholesterol biosynthetic pathway to lower total serum levels and LDL-cholesterol. The cholesterol pathway also provides a supply of isoprenoids (farnesyl and geranylgeranyl) for the prenylation of signaling molecules, which include the families of Ras and Rho small GTPases. Prenyl groups provide a membrane anchor that is essential for the correct membrane localisation and function of these proteins. Statins deplete cells of lipid geranylgeranyl diphosphate (GGPP) thereby inhibiting progression of the mevalonate pathway and prenylation of proteins. Two such proteins are Rab27b and Rap1, small GTPase proteins that are involved in the secretion of platelet granule and integrin activation. We hypothesise that statins can impair prenylation of Rab27b and Rap1a in platelets and thereby attenuate platelet function. The specific aims of the project were to analyse the impact of statins on the prenylation status of Rab27b and Rap1a in platelets. As Rab27b and Rap1a are known to be involved in secretion of platelet granules a secondary aim was to analyse the downstream effects of statins on this process following activation. Finally, we assessed the impact of treatment of platelets with statins on thrombus formation, stability and resistance to fibrinolysis. Platelets incubated with statins overnight were separated into cytosolic (aqueous) and membrane (detergent) components and visualised by Western blot. An accumulation of Rab27b and Rap1a was observed in the cytosolic compartments of statins treated platelets compared to untreated platelets, thus indicating indirect evidence that statins attenuate prenylation of Rab27b and Rap1a in platelets. The most effective statin in attenuating prenylation of Rab27b and Rap1a was atorvastatin (ATV). The inhibitory effect of statins on prenylation was recovered by GGPP, indicating that the mechanism of inhibition involved the mevalonate pathway. Release of ADP from platelet dense granules was significantly impeded following overnight treatment with ATV. In line with the inhibition of prenylation of Rab27b and Rap1a by ATV, addition of GGPP rescued the release of ADP from platelet dense granules. This suggests that attenuation of dense granules release by ATV occurs via interference in the mevalonate pathway and the inhibition of Rab27b prenylation. Furthermore, ATV significantly attenuates α-granules release in thrombin stimulated platelets, which was visualised as impaired accumulation of endogenous P-selectin, PAI-1 and fibrinogen on the activated membrane. Changes in the activation of α₁₁bβ₃ integrin on the stimulated platelet surface, observed as defective binding of exogenous fibrinogen and PAC-1, were also evident following treatment of platelets with ATV. In addition, ATV treatment of platelets reduced binding of CD41a, indicating that the copy number and activation of α₁₁bβ₃ integrin on stimulated platelets was significantly reduced. Statins were also found to significantly inhibit thrombin-induced platelet aggregation following incubation of platelets overnight with therapeutic concentrations of statins. Surprisingly GGPP did not rescue platelet aggregation indicating that different mechanisms are involved in inhibition of platelet responses by statins. Incubation of whole blood with ATV overnight significantly altered several haemostatic parameters. Using thromboelastography we demonstrated a delay in the coagulation time and clot formation time. Maximum clot firmness was also significantly reduced in the presence of statins compared to the control. The effect on clot firmness generally arises from platelet dysfunction and/or a change in fibrinogen concentration and function; the latter was ruled out using a Fibtem test, which shows no difference between treated and untreated whole blood. Similarly, formation of platelet-rich plasma clots was significantly delayed following pre-treatment with ATV overnight. These clots also exhibited lower maximal absorbances, which could represent differences in the fibrin network structure. In line with the reduction in fibrinogen binding defective clot retraction was also observed in platelet-rich plasma pre-treated with ATV overnight. Similar clot retraction results were observed with tirofiban and CytoD, suggesting that the inhibitory effect of ATV may involve modulation of α₁₁bβ₃ integrin activation. Platelet-rich plasma clots formed post-treatment with statins were visualised by confocal microscopy and revealed significant alterations in clot structure; observed as thinner fibrin fibres and fewer platelet aggregates. Additionally, we demonstrated that statins modulate clot stability and shorten time to lysis. Clots formed from platelet rich plasma that was subjected to incubation with ATV overnight revealed faster lysis by tPA compared to the absence of statin. These findings are also in agreement with the lysis of Chandler model thrombi formed from overnight incubated whole blood with ATV, which demonstrated faster lysis rate mediated by tPA. Furthermore, statins were shown to change the clot thrombodynamics as assessed by HemaCore analyser, which shows that stains implicate both clot growth in response to TF-coated comb and spontaneous clot lysis by tPA. In conclusion, statins directly inhibit Rab27b and Rap1a prenylation in platelets and down-regulated dense granules release. Inhibition of Rab27b and Rap1a prenylation, and dense granules release was recovered by GGPP, indicating that these effects are mediated through the mevalonate pathway. Impairment of platelet aggregation by statins resulted via multiple mechanisms as GGPP did not recovered the inhibition of aggregation by ATV. Statins also modulate fibrinogen binding, α-granules release, clot retraction and clot formation and stability in vitro. Together these results suggest that statins may directly attenuate the platelet response in vivo. The pleotropic effect of statins on platelets may contribute to the protective function of these class of drugs in cardiovascular diseases.

610

Assessing the risks associated with warfarin therapy and related methodological considerations

Delaney, Joseph A. C.

January 1900

Thesis (Ph.D.). / Written for the Dept. of Epidemiology, Biostatistics and Occupational Health. Title from title page of PDF (viewed 2008/07/23). Includes bibliographical references.

Coagulation inhibition and development of myocardial damage in ST-elevation myocardial infarction /

Frostfeldt, Gunnar,

January 2002

Diss. (sammanfattning) Uppsala : Univ., 2002. / Härtill 4 uppsatser.

Fibrinolytic adaptations to a phase II cardiac rehabilitation program

Nagelkirk, Paul Robert.

January 2005

Thesis (Ph. D.)--Michigan State University, 2005. / Includes bibliographical references (leaves 51-64). Also available online (PDF file) by a subscription to the set or by purchasing the individual file.

Thrombomodulin/heparin functionalized membrane-mimetic assemblies strategies for generating an actively anti-thrombogenic surface /

Tseng, Po-Yuan.

January 2005

Thesis (Ph. D.)--Chemical Engineering, Georgia Institute of Technology, 2006. / Chaikof, Elliot, Committee Chair ; Hanson, Stephen, Committee Member ; Lollar, John "Pete", Committee Member ; Sambanis, Athanassios, Committee Member ; Yoganathan, Ajit, Committee Member.

Fibrinolytic adaptations to a phase II cardiac rehabilitation program

Nagelkirk, Paul Robert.

January 2005

Thesis (Ph. D.)--Michigan State University, 2005. / Includes bibliographical references (leaves 51-64)

Atividade plasmina simile e sequencia parcial de enzima fibrino(geno)litica do veneno de Bothrops lanceolatus (Fer de lance)

Sant'Ana, Christina Maria de

19 August 2005

Orientador: Albetiza Lobo de Araujo / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-05T20:58:23Z (GMT). No. of bitstreams: 1 Sant'Ana_ChristinaMariade_M.pdf: 302187 bytes, checksum: 422061925f0c5378a445c566afe71b75 (MD5) Previous issue date: 2005 / Resumo: O envenenamento botrópico leva ao desenvolvimento de eventos como necrose, hemorragia e distúrbios da coagulação, gerando um quadro fisiopatológico de grande complexicidade. O trabalho de Lôbo de Araújo et al. de 1998 descreveu uma proteína de cadeia polipeptídica simples (PII1A), a qual apresentou atividade enzimática tipo esterolítica, proteína esta, proveniente do veneno da Bothrops lanceolatus, uma serpente habitante da ilha da Martinica, no Caribe. A imunodifusão e a imunoeletroforese apresentaram uma linha simples de imunoprecipitado. A fração em questão ainda hidrolisou as cadeias a e b do fibrinogênio, o que levou a classificar esta proteína como uma enzima fibrino(geno)lítica. No presente trabalho, nos propusemos a dar continuidade ao estudo desta proteína parcialmente purificada e caracterizada e investigar sua atividade como ativadora de plasminogênio ou portadora de atividade fibrinolítica, assim a atividade plasmina símile foi determinada pela ação da proteína diretamente sobre substrato cromogênico específico (S-2251ä), estando de acordo com achados publicados por Lôbo de Araújo et al (1998) e que revelou também discreta atividade ativadora de plasminogênio, quando compara-se incubação na presença e ausência deste. Determinamos 71% da seqüência de aminoácidos da PII1A por espectrometria de massa ¿ Q-tof, este método revelou um peso molecular de 28.360 kDa. A análise da seqüência em base de dados mostrou homologia com outras proteínas se serpentes e com enzimas como tripsina e fatores da cascata de coagulação / Abstract: The main symptoms following bothropic envenoming are necroses, hemorrhage and coagulopathies, originating a characteristic and complex phisiopathology. The work of Lôbo de Araújo et al. (1998) described a single polipeptide chain protein (PII-1A) purified from Bothrops lanceolatus venom, a snake inhabitant of the Martinica island. The immunodiffusion and immunoeletrophoresis analysis showed a single immunoprecipitin line. This protein was characterized as a fibrino(geno)lytic enzyme since was able to hydrolyze the a and b chains of fibrinogen. Using synthetic substrates, the authors demonstrated a strong sterolytic activity against p-TAME. In the present work we continue to study this protein (PII-1A) investigating its activity to activate plasminogen or to present a direct fibrinolytic activity using S-2251ä substrate. The determination of its partial sequence, including N-terminal, was carried through by mass spectrometry - Q-tof that showed molecular weight 28.369 kDa / Mestrado / Farmacologia / Mestre em Farmacologia

Plasmina

Hemorragia

Envenenamento

Bothrops

Fibrinolíticos

Mordeduras de cobra

Plasmin

Fibrinolytic agents

Snake bites

Thrombomodulin/heparin functionalized membrane-mimetic assemblies: strategies for generating an actively anti-thrombogenic surface

Tseng, Po-Yuan

20 July 2005

It has been postulated that the control of thrombus formation on molecularly engineered surfaces is an important step in developing clinically durable small-diameter vascular prostheses. This has led to designing a membrane-mimetic assembly that contains physiological regulators of blood coagulation, thrombomodulin (TM) and heparin, to provide strategies for generating actively antithrombogenic surfaces. The membrane-mimetic construct contains polymeric phospholipid monolayer on an alkylated polyelectrolyte multilayer supported by planar substrate such as glass or silicone. When incorporated with TM, the model platform exhibited the biological function by catalyzing activation of protein C. Surface TM activity was extensively investigated at physiologic shear rates (50 sec-1 and 500 sec-1). Significantly, reaction rates become saturated at TM surface densities greater than or equal to ~ 800 fmole/cm2 due to due to a transport limitation. Based on the similar membrane-mimetic construct, a functional heparinized surface was designed as an alternative anticoagulant system. Immobilization of heparin onto membrane-mimetic surfaces was achieved through biotin-streptavidin binding specificity. Activity of surface heparin to facilitate thrombin inactivation was investigated at shear rates of 50 and 500 sec-1. Significantly, rate of thrombin decay becomes saturated when the surface coverage of heparin is higher than 4.4 pmole of heparin per cm2. We further investigated the effects of surface bound TM and heparin on tissue factor (TF) -induced thrombin generation in a flow model. Specifically, TF positioned over a 2 x 6 mm2 upstream region as a trigger for thrombin generation and TM and/or heparin positioned over the remaining downstream (34 x 6 mm2) portion of the test film. Compared to TF alone surface, thrombin generation was profoundly reduced in the presence of surface bound TM and/or heparin. Significantly, thrombin production was maximally inhibited more than 85% in the presence of TM and heparin, possibly due to anticoagulant synergism of both anticoagulants. We believe that current membrane-mimetic systems can potentially create actively antithrombogenic surfaces.

Antithrombogenic

Anticoagulant

Membrane-mimetic

Heparin

Thrombomodulin

Tissue factor

Thrombomodulin

Anticoagulants (Medicine)

Blood vessel prosthesis

Fibrinolytic agents

Heparin

Membranes (Technology)