Global ETD Search

21	Influence of Trimethylamine N-Oxide on Platelet Activation Emonds, Julian Josef, Ringel, Clemens, Reinicke, Madlen, Müller, Daniel, von Eckardstein, Arnold, Meixensberger, Jürgen, Ceglarek, Uta, Gaudl, Alexander 15 January 2024 (has links) Microbiome-derived trimethylamine N-oxide (TMAO) has been associated with platelet hyperreactivity and subsequent atherogenesis. Whether physiological TMAO-levels influence plateletderived lipid mediators remains unknown. Little is known about pre-analytic factors potentially influencing TMAO concentrations. We aimed at developing a quantitative LC-MS/MS method to investigate in-vivo and in-vitro pre-analytical factors in TMAO analysis to properly assess the proposed activating effect of TMAO on platelets. TMAO, betaine, carnitine, and choline were analyzed by HILIC-ESI-MS/MS within 6 min total run time. Method validation included investigation of reproducibility, recovery, sensitivity, and in-vitro pre-analytical factors. A 24-h monitoring experiment was performed, evaluating in-vivo pre-analytical factors like daytime or diet. Finally, the effects of different TMAO concentrations on platelet activation and corresponding alterations of plateletderived eicosanoid release were analyzed. The method showed high reproducibility (CVs 5.3%), good recovery rates (96–98%), and negligible in-vitro pre-analytical effects. The influence of in-vivo pre-analytical factors on TMAO levels was not observable within the applied experimental conditions. We did not find any correlation between TMAO levels and platelet activation at physiological TMAO concentrations, whereas platelet-derived eicosanoids presented activation of the cyclooxygenase and lipoxygenase pathways. In contrast to previously published results, we did not find any indications regarding diet dependency or circadian rhythmicity of TMAO levels. Our results do not support the hypothesis that TMAO increases platelet responsiveness via the release of lipid-mediators. info:eu-repo/classification/ddc/610 ddc:610
22	Zirkulierende Thrombozyten im Rahmen der intraarteriellen digitalen Subtraktionsangiographie und der perkutanen transluminalen Angioplastie: Durchflußzytometrische Bestimmung der Aktivierung ex vivo und in vitro Buchholz, Alexander 13 September 1999 (has links) Die Thrombozytenaktivierung ist von zentraler Bedeutung für die Pathogenese der Arteriosklerose und wird bei Patienten mit instabiler Angina pectoris, Myokardinfarkt und TIA sowie nach koronarangioplastischen und operativen Eingriffen als Verursacher okklusiver vaskulärer Ereignisse in Betracht gezogen. Wir gingen der Frage nach, ob ein Zusammenhang zwischen peripherer arterieller Verschlußkrankheit (PAVK) und der Aktivierung zirkulierender Thrombozyten besteht und ob die intraarterielle digitale Subtraktionsangiographie (DSA) sowie die perkutane transluminale Angioplastie (PTA) im Bereich der unteren Extremitäten die Aktivierung zirkulierender Plättchen beeinflussen. Unsere Studie schloß 16 Kontrollprobanden mit PAVK, 25 gesunde Kontrollprobanden und 36 Patienten ein, von denen 14 einer DSA, 12 einer PTA und 10 beiden Eingriffen unterzogen wurden. Wir entnahmen Blutproben aus einer peripheren Vene oder aus Einführungsbestecken in der Arteria und Vena femoralis vor, direkt nach und 4 h nach den Interventionen. Die Plättchenaktivierung wurde anhand durchflußzytometrischer Messungen der Expression aktivierungsspezifischer Antigene (CD62 und CD63) bestimmt, die Sensibilität der Thrombozyten analysierten wir mittels einer zusätzlichen in-vitro-Aktivierung. Wir beobachteten 4 h nach der DSA einen Abfall der Aktivierung und eine erhöhte Sensibilität von Plättchen im arteriellen und venösen Strombereich (p < 0,02). Wir sehen diese Wirkungen als Kontrastmittel(KM)-induziert an und führen die Abnahme der Relativzahl aktivierter Thrombozyten hauptsächlich auf ihre verkürzte Lebensdauer zurück. 4 h nach der PTA kam es arteriell und venös zu einem Abfall der Relativzahl aktivierter Thrombozyten (p < 0,02). Weiterhin beobachteten wir unmittelbar nach der PTA eine Verringerung des prozentualen Anteils aktivierter Plättchen in der arteriellen Zirkulation (p = 0,021) in Korrelation mit zunehmenden Dilatationszeiten und Ballonlängen (p < 0,03). Diese Beobachtungen führen wir auf eine geringe Anlagerung bzw. reduzierte Lebensdauer aktivierter Thrombozyten zurück. Von geringer quantitativer Bedeutung waren Einflüsse des Heparins und KM. Die Wirkung der DSA und PTA auf die Thrombozytenfunktionen schien sich in den 4 postinterventionellen Stunden abzuschwächen. Unsere Ergebnisse zeigen, daß die Angioplastie in peripheren Gefäßen eine Aktivierung und vermutlich geringe Anlagerung bzw. verkürzte Lebensdauer zirkulierender Plättchen unmittelbar nach der PTA und 4 Stunden später verursacht. Diese Prozesse führen wir in erster Linie auf Endothelläsionen als Folge der Dilatation zurück. Die DSA führt 4 h nach dem Eingriff zu einer Aktivierung, Sensibilisierung und in wahrscheinlich sehr geringem Umfang zu einer Anlagerung bzw. verringerten Lebensdauer der Plättchen. PAVK-Patienten im Stadium II nach Fontaine mit kardiovaskulären Risikofaktoren wiesen im Vergleich zu gesunden Probanden eine höhere Relativzahl aktivierter und sensibilisierter Plättchen auf (p = 0,0001). Deshalb vermuten wir, daß präinterventionell aktivierte Plättchen besonders in die Prozesse Aktivierung, Sensibilisierung und Anlagerung involviert bzw. von einer verkürzten Lebensdauer betroffen sind. / Platelet activation plays a crucial role in the pathogenesis of artherosclerosis. Circulating activated platelets are thought to trigger thrombotic events in patients with instable angina pectoris, myocardial infarction and transient ischaemic attacks as well as after coronary angioplasty and surgery. We studied the effect of peripheral arterial disease (PAD) on activation of circulating thrombocytes and evaluated the influence on platelet activation of intraarterial digital subtraction angiography (DSA) and percutaneous transluminal angioplasty (PTA) in the area of the lower extremities. Our study included sixteen control subjects with PAD, twenty-five healthy control subjects and thirty-six patients, fourteen of whom were undergoing DSA, twelve were undergoing PTA and ten we examined during both interventions. Blood samples were obtained from a peripheral vein or from the arterial and venous catheter introducer before and directly and four ours after the procedures. To characterize platelet activation, the expression of activation-dependent platelet antigens (CD62 and CD63) was measured using flow cytometry. Platelet sensibility was analysed by an additional in-vitro-activation. Four hours after DSA, we observed a decrease in activation and an increase in sensibility of thrombocytes in both arterial and venous circulation (p < 0.02), most likely due the contrast medium (CM). We assume, that the relative decrease of platelet activation is caused by a reduced life-time. The relative number of activated thrombocytes decreased in both arterial and venous circulation (p < 0.02) four hours after PTA. Furthermore, we observed reduced amounts of activated platelets in the arterial circulation (p = 0.021) immediately after PTA, in correlation with increased times of dilatation and larger ballon-catheters (p < 0.03). This could be explained by slight migration or shortened life-time of activated thrombocytes. The amount of CM and heparin did not have a pronounced effect. The influence of both interventions on the platelet features and functions seemed to attenuate in the four postinterventional hours. Our results show that angioplasty in peripheral vessels causes activation and presumably slight migration or reduced life-time of circulating thrombocytes immediately and four hours after PTA. We postulate that this is mainly induced by dilatation. DSA was also found to be associated with platelet activation, sensibilisation and presumptive minor migration or shortened life-time of circulating platelets. More activated and sensitized thrombocytes circulated in patients with PAD (clinical stage II according to Fontaine) with cardiovascular risk-factors compared to healthy control subjects (p = 0.001). This supports our assumption that preactivated platelets are particularly involved in activation, sensitizing and migration processes or affected by a reduced life-time. Thrombozytenaktivierung periphere arterielle Verschlußkrankheit perkutane transluminale Angioplastie digitale platelet activation peripheral arterial disease percutaneous transluminal angioplasty digital subtraction angiography 610 Medizin 33 Medizin YR 5100 ddc:610
23	Cardiovascular effects of exposure to diesel exhaust mechanistic and interventional studies / Lundbäck, Magnus, January 2009 (has links) Diss. (sammanfattning) Umeå : Umeå universitet, 2009. / Härtill 5 uppsatser. Även tryckt utgåva.
24	Plague and the Defeat of Mammalian Innate Immunity: Systematic Genetic Analysis of Yersinia pestis Virulence Factors: A Dissertation Palace, Samantha G. 26 July 2016 (has links) Yersinia pestis, the causative agent of plague, specializes in causing dense bacteremia following intradermal deposition of a small number of bacteria by the bite of an infected flea. This robust invasiveness requires the ability to evade containment by the innate immune system. Of the various mechanisms employed by Y. pestis to subvert the innate immune response and to proliferate rapidly in mammalian tissue, only a few are well-characterized. Here, I present two complementary genetic analyses of Y. pestis adaptations to the mammalian environment. In the first, genome-wide fitness profiling for Y. pestis by Tn-seq demonstrates that the bacterium has adapted to overcome limitation of diverse nutrients during mammalian infection. In the second, a series of combinatorial targeted mutations disentangles apparent functional redundancy among the effectors of the Y. pestis type III secretion system, and we report that YpkA, YopT, and YopJ contribute to virulence in mice. We have also begun to investigate a novel relationship between Y. pestis and mammalian platelets, a highly abundant cell type in plasma. I present evidence that Y. pestis has evolved specific mechanisms to interfere with platelet activation, likely in order to evade immune responses and promote maintenance of bacteremia by undermining platelet thrombotic and innate immune functions. The principles guiding this work – systematic genetic analysis of complex systems, coupled with rational modification of in vitro assays to more closely mimic the in vivo environment – are a generalizable approach for increasing the efficiency of discovering new virulence determinants in bacterial pathogens. Immune System Innate Immunity Plague Platelet Activation Virulence Virulence Factors Yersinia pestis Dissertations, UMMS Immunity, Innate Bacterial Infections and Mycoses Bacteriology Genetics and Genomics Immunity Immunology of Infectious Disease Pathogenic Microbiology
25	Platelet-Cancer Cell Interactions: Insights from the Canine Model Fuhrmann, Shauna Ashtin 11 August 2017 (has links) Animal models have been recognized for the valuable roles they serve in both animal and human medicine. Dogs share many of the same naturally occurring tumors as humans including osteosarcoma, lymphoma, and mammary tumors. In addition, dogs share the same environment as humans, have a shorter lifespan, and often have a quicker progression of disease, making them an attractive model of human disease. Platelets are small anucleate cell fragments that have essential roles in hemostasis, angiogenesis, and wound healing, and, more recently recognized, roles in development, survival, growth, and metastasis of various cancers. Their roles in angiogenesis has proven to be both directly and indirectly linked to tumor growth due to the angiogenic roles they play in the development of tumor blood supply. Being able to study the interactions and mechanisms between platelets and tumor cells at the protein level, through proteomics, would allow great insight into the effects of platelets on tumor cell behavior as well as potential biomarker identification and therapeutic development. The objective of this research is to integrate the roles of canine platelet proteins into a better understanding of the effects and interactions that platelets have with different tumor cells while utilizing the canine model of neoplasms commonly affecting their human counterparts. The first study in this research describes an efficient technique developed for the purification of canine platelets from clinically relevant volumes of whole blood with high platelet recovery and minimal contamination from other blood cells. The second study describes a non-electrophoretic detergent fractionation technique used for the digestion of canine platelet samples for proteomic analysis as well as description of the proteomic findings for the normal canine platelet. Lastly, the third study describes the proteomic analysis of proteins differentially expressed by canine osteosarcoma and mammary tumor cells following incubation with canine platelet lysate in vitro. Overall, findings of this research support the canine model of human cancers and provide comprehensive information regarding canine platelet proteomics as well as novel efficient techniques that aid the future of canine platelet-tumor cell interaction research detergent fractionation platelet purification biomarker platelet activation flow cytometry DDF platelet proteome proteomics proteome purification animal model canine platelet mammary tumor cancer osteosarcoma tumor
26	Thrombosis and Inflammation: A Dynamic Interplay and the Role of Glycosaminoglycans and Activated Protein C Kohli, Shrey, Shahzad, Khurrum, Jouppila, Annukka, Holthöfer, Harry, Isermann, Berend, Lassila, Riitta 08 June 2023 (has links) Hemostasis, thrombosis, and inflammation are tightly interconnected processes which may give rise to thrombo-inflammation, involved in infectious and non-infectious acute and chronic diseases, including cardiovascular diseases (CVD). Traditionally, due to its hemostatic role, blood coagulation is isolated from the inflammation, and its critical contribution in the progressing CVD is underrated, until the full occlusion of a critical vessel occurs. Underlying vascular injury exposes extracellular matrix to deposit platelets and inflammatory cells. Platelets being key effector cells, bridge all the three key processes (hemostasis, thrombosis, and inflammation) associated with thrombo-inflammation. Under physiological conditions, platelets remain in an inert state despite the proximity to the endothelium and other cells which are decorated with glycosaminoglycan (GAG)-rich glycocalyx (GAGs). A pathological insult to the endothelium results in an imbalanced blood coagulation system hallmarked by increased thrombin generation due to losses of anticoagulant and cytoprotective mechanisms, i.e., the endothelial GAGs enhancing antithrombin, tissue factor pathwayinhibitor (TFPI) and thrombomodulin-protein C system. Moreover, the loss of GAGs promotes the release of mediators, such as von Willebrand factor (VWF), platelet factor 4 (PF4), and P-selectin, both locally on vascular surfaces and to circulation, further enhancing the adhesion of platelets to the affected sites. Platelet-neutrophil interaction and formation of neutrophil extracellular traps foster thrombo-inflammatory mechanisms exacerbating the cardiovascular disease course. Therefore, therapies which not only target the clotting mechanisms but simultaneously or independently convey potent cytoprotective effects hemming the inflammatory mechanisms are expected to provide clinical benefits. In this regard, we review the cytoprotective protease activated protein C (aPC) and its strong anti-inflammatory effects thereby preventing the ensuing thrombotic complications in CVD. Furthermore, restoring GAGlike vasculo-protection, such as providing heparin-proteoglycan mimetics to improve regulation of platelet and coagulation activity and to suppress of endothelial perturbance and leukocyte-derived pro-inflammatory cytokines, may provide a path to alleviate thrombo-inflammatory disorders in the future. The vascular tissue-modeled heparin proteoglycan mimic, antiplatelet and anticoagulant compound (APAC), dual antiplatelet and anticoagulant, is an injury-targeting and locally acting arterial antithrombotic which downplays collagen- and thrombin-induced and complement-induced activation and protects from organ injury. info:eu-repo/classification/ddc/610 ddc:610
27	Rôle des médiateurs lipidiques dans la réaction inflammatoire chez le lapin Hamdan, Leila 04 1900 (has links) Les médiateurs lipidiques de l’inflammation dont le leucotriène B4 (LTB4) et le facteur d’activation plaquettaire (PAF) permettent la régulation de la migration des neutrophiles polymorphonucléaires (PMNs) et l’extravasation plasmatique au site inflammatoire. Afin de déterminer leurs rôles dans la régulation de la migration des PMNs au site inflammatoire, nous avons étudié leur effet potentiellement coopératif en utilisant une approche pharmacologique à l’aide d’antagonistes sélectifs des récepteurs du LTB4 et du PAF dans un modèle d’inflammation dermique chez le lapin. Les résultats montrent un effet inhibiteur additif des antagonistes des deux médiateurs lipidiques, lorsque utilisés de façon concomitante, sur la migration des neutrophiles induite par le LTB4, le PAF et aussi sur des médiateurs non-chimiquement apparentés comme le facteur nécrosant des tumeurs (TNFα), ainsi que sur l'inhibition de l’extravasation plasmatique induite par le leucotriène D4, suggérant un rôle régulateur des récepteurs du LTB4 et du PAF dans la migration des PMNs au site inflammatoire. Nous avons déterminé le rôle de ces médiateurs dans la régulation de la migration des PMNs en réponse à une ischémie-reperfusion des membres inferieurs chez le lapin. Les résultats appuient l’hypothèse selon laquelle le LTB4 et le PAF exercent un rôle important dans l’accumulation des PMNs au site inflammatoire. En effet l’administration concomitante des antagonistes des récepteurs de ces deux médiateurs lipidiques a réduit de façon significative la migration des PMNs aux poumons, intestins et foie. Nos résultats contribuent à élucider le rôle du LTB4 et du PAF dans la régulation de l’extravasation des PMNs et du plasma au site inflammatoire. / Inflammatory lipid mediators including leucotriene B4 (LTB4) and platelet activating factor (PAF) regulate the trafficking of polymorphonuclear neutrophils (PMNs) and plasma extravasation at inflammatory sites. To delineate their role in regulating PMNs extravasation, we studied the effect of PAF and/or LTB4 selective receptor antagonists in dermal inflammation induced by a variety of agonists in a rabbit bioassay model. The results show that there is an additive inhibitory effect when the two antagonists are used concomitantly on PMNs dermal accumulation induced by LTB4 and PAF, as well by chemically unrelated agonists including TNFα, in addition to inhibiting plasma extravasation induced by LTD4. These results support a regulatory role of LTB4 and PAF in regulating PMNs trafficking and plasma extravasation at inflammatory sites. Next, we studied the regulatory role of lipid mediators in regulating PMNs trafficking in response to hind limb ischemia-reperfusion. The results show that the administration of both PAF and LTB4 receptor antagonists reduced significantly PMNs migration to the lung, the liver and the intestine. Our results contributed to elucidate the role of LTB4 and PAF in the regulation of PMNs migration and oedema formation at inflammatory sites. Inflammation dermique Dermal inflammation Ischémie-reperfusion Ischemia-reperfusion Leucotriène B4 Leukotriene B4 Lapin Rabbit Myéloperoxydase Myeloperoxidase Neutrophiles polymorphonucléaires Polymorphonuclear neutrophils Oedème Oedema Facteur d'activation plaquettaire Platelet activation factor
28	Role des anthocyanes et des métabolites sur la fonction des cellules endothéliales et plaquettes humaine in vitro. / Efect of anthocyanins and their metabolites on the function of human endothelial cells and platelets in vitro Krga, Irena 21 September 2018 (has links) Un nombre croissant de preuves suggèrent le rôle bénéfique des anthocyanes alimentaires, composés phyto-chimiques principalement présents dans les baies et les produits dérivés, sur la santé cardiovasculaire. Ces bénéfices peuvent être attribués à leur effet sur les cellules endothéliales ou les plaquettes qui sont les acteurs clés dans le développement des maladies cardiovasculaires (MCV). Cependant, les mécanismes moléculaires sous-jacents aux effets cardio-protecteurs de l'anthocyanine ne sont pas entièrement compris. L'objectif de cette thèse était d'évaluer l'effet in vitro des anthocyanines et de leurs métabolites, dans des conditions physiologiques, sur la fonction endothéliale et plaquettaire et d'identifier les mécanismes sous-jacents à leur action. Les résultats de ma thèse ont montré que le prétraitement des cellules endothéliales avec des concentrations physiologiques d'anthocyanes et de leurs métabolites circulants diminue l'adhésion des monocytes aux cellules endothéliales activées ainsi que leur migration transendothéliale qui sont les étapes initiales du développement de l'athérosclérose précédant le MCV. En accord avec ces résultats, l'analyse de l'expression génique a révélé que le traitement des cellules endothéliales avec ces molécules modulait l'expression des gènes impliqués dans la régulation de l'adhésion cellulaire, le réarrangement du cytosquelette d'actine, l'adhésion focale et la transmigration leucocytaire. Les analyses bioinformatiques de ces données ont permis d'identifier les facteurs de transcription potentiellement impliqués dans les effets nutrigénomiques observés ainsi que les protéines de signalisation cellulaire régulant leur activité. Les analyses bioinformatiques ont permit d’identifier des protéines de signalisation cellulaire auxquelles ces bioactifs peuvent se lier et potentiellement affecter leur activité entraînant modification d’activité des protéines de signalisation en aval. L’impact sur des facteurs de transcription a également été cherché et ces effets ont été confirmés par les résultats obtenus des analyses par Western blot. Les anthocyanines et leurs métabolites ont également modulé l'expression de microARN, en particulier ceux impliqués dans la régulation de la perméabilité des cellules endothéliales, contribuant ainsi aux changements observés dans la fonction endothéliale. En plus de leurs effets sur les cellules endothéliales, les résultats de mes travaux ont également montré la capacité des anthocyanes et de leurs métabolites à moduler la fonction plaquettaire en diminuant l'activation plaquettaire et leur agrégation avec les leucocytes, qui contribuent fortement au développement des MCV.En conclusion, les résultats de ma thèse ont révélé les effets positifs des anthocyanes et de leurs métabolites, aux concentrations physiologiques, sur la fonction endothéliale et plaquettaire et ont fourni de nouvelles informations sur les mécanismes sous-jacents de leurs effets cardio-protecteurs. / Increasing number of scientific evidence suggests the beneficial role of dietary anthocyanins, phytochemicals mainly present in berries and derived products, in cardiovascular health. These anthocyanin health benefits may be attributed to their effect on endothelial cells or platelets that represent the key players in the development of cardiovascular diseases (CVD). However, the exact molecular mechanisms underlying anthocyanin cardioprotective effects are not fully understood. The aim of this thesis was to investigate the effect of anthocyanins and their metabolites in vitro on endothelial and platelet function and identify the underlying mechanisms of their action using physiologically relevant conditions.Results from this thesis showed that the pretreatment of endothelial cells with physiologically relevant concentrations of circulating anthocyanins and their metabolites attenuated monocyte adhesion to activated endothelial cells as well as their transendothelial migration, which are the initial steps in the development of atherosclerosis that precede CVD. In agreement with these results, gene expression analysis revealed that the treatment of endothelial cells with these compounds modulated the expression of genes involved in regulation of cell-cell adhesion, actin cytoskeleton reorganisation, focal adhesion and leukocyte transmigration. Bioinformatics analyses of gene expression data allowed the identification of potential transcription factors involved in the observed nutrigenomic effects and cell signalling proteins regulating their activity.Molecular docking analyses further revealed cell signalling proteins to which these bioactives may bind to and potentially affect their activity and the activation of downstream signalling proteins and transcription factors, effects that were in agreement with the results of Western blot analyses. Anthocyanins and their metabolites also modulated the expression of microRNAs, especially those involved in regulation of endothelial cell permeability, contributing to the observed changes in endothelial cell function.In addition to their effects on endothelial cells, anthocyanins and their metabolites displayed the capacity to modulate platelet function by decreasing platelet activation and their aggregation with leukocytes, the processes that are important contributors to CVD development.In conclusion, results from this thesis revealed the positive effects of anthocyanins and their metabolites, at physiologically relevant concentrations, on endothelial and platelet function and provided new insights into the mechanisms underlying their cardioprotective effects. Activation plaquettaire Métabolites Anthocyanes Dysfonction endothéliale Adhésion des monocytes Transmigration endothéliale Agrégation plaquettes-leucocytes Anthocyanins Platelet-leukocyte aggregation Platelet activation Monocyte transendothelial migration Monocyte-endothelial cell adhesion, Endothelial dysfunction Metabolites 571.6
29	Rôle des médiateurs lipidiques dans la réaction inflammatoire chez le lapin Hamdan, Leila 04 1900 (has links) Les médiateurs lipidiques de l’inflammation dont le leucotriène B4 (LTB4) et le facteur d’activation plaquettaire (PAF) permettent la régulation de la migration des neutrophiles polymorphonucléaires (PMNs) et l’extravasation plasmatique au site inflammatoire. Afin de déterminer leurs rôles dans la régulation de la migration des PMNs au site inflammatoire, nous avons étudié leur effet potentiellement coopératif en utilisant une approche pharmacologique à l’aide d’antagonistes sélectifs des récepteurs du LTB4 et du PAF dans un modèle d’inflammation dermique chez le lapin. Les résultats montrent un effet inhibiteur additif des antagonistes des deux médiateurs lipidiques, lorsque utilisés de façon concomitante, sur la migration des neutrophiles induite par le LTB4, le PAF et aussi sur des médiateurs non-chimiquement apparentés comme le facteur nécrosant des tumeurs (TNFα), ainsi que sur l'inhibition de l’extravasation plasmatique induite par le leucotriène D4, suggérant un rôle régulateur des récepteurs du LTB4 et du PAF dans la migration des PMNs au site inflammatoire. Nous avons déterminé le rôle de ces médiateurs dans la régulation de la migration des PMNs en réponse à une ischémie-reperfusion des membres inferieurs chez le lapin. Les résultats appuient l’hypothèse selon laquelle le LTB4 et le PAF exercent un rôle important dans l’accumulation des PMNs au site inflammatoire. En effet l’administration concomitante des antagonistes des récepteurs de ces deux médiateurs lipidiques a réduit de façon significative la migration des PMNs aux poumons, intestins et foie. Nos résultats contribuent à élucider le rôle du LTB4 et du PAF dans la régulation de l’extravasation des PMNs et du plasma au site inflammatoire. / Inflammatory lipid mediators including leucotriene B4 (LTB4) and platelet activating factor (PAF) regulate the trafficking of polymorphonuclear neutrophils (PMNs) and plasma extravasation at inflammatory sites. To delineate their role in regulating PMNs extravasation, we studied the effect of PAF and/or LTB4 selective receptor antagonists in dermal inflammation induced by a variety of agonists in a rabbit bioassay model. The results show that there is an additive inhibitory effect when the two antagonists are used concomitantly on PMNs dermal accumulation induced by LTB4 and PAF, as well by chemically unrelated agonists including TNFα, in addition to inhibiting plasma extravasation induced by LTD4. These results support a regulatory role of LTB4 and PAF in regulating PMNs trafficking and plasma extravasation at inflammatory sites. Next, we studied the regulatory role of lipid mediators in regulating PMNs trafficking in response to hind limb ischemia-reperfusion. The results show that the administration of both PAF and LTB4 receptor antagonists reduced significantly PMNs migration to the lung, the liver and the intestine. Our results contributed to elucidate the role of LTB4 and PAF in the regulation of PMNs migration and oedema formation at inflammatory sites. Inflammation dermique Dermal inflammation Ischémie-reperfusion Ischemia-reperfusion Leucotriène B4 Leukotriene B4 Lapin Rabbit Myéloperoxydase Myeloperoxidase Neutrophiles polymorphonucléaires Polymorphonuclear neutrophils Oedème Oedema Facteur d'activation plaquettaire Platelet activation factor
30	<b>Predictive Modeling of Mechanical Platelet Activation in Fibromuscular Dysplasia</b> James Scott Malloy (18431865) 26 April 2024 (has links) <p dir="ltr">Fibromuscular Dysplasia (FMD) is a non-inflammatory, non-atherosclerotic blood vessel disorder characterized by a series of narrowed and dilated regions of vasculature. These patients are prescribed blood thinners or anti-platelet therapeutics as treatment to this systemic disease. Current image-based diagnostic methods cannot reliably predict a patient’s risk of stroke in order to properly manage medication. There are also challenges in distinguishing FMD from other diseases that can cause arterial obstructions, like atherosclerosis or vasculitis.</p><p dir="ltr">The ultimate goal of this research is to develop a methodology for evaluating the risk of mechanical platelet activation based on medical imaging. Our hypothesis is that subject-specific assessment of platelet activation due to hemodynamic stress can improve risk stratification of FMD patients. The aims of the projects were therefore to 1) Develop a CFD-based methodology for estimating platelet activation state, and 2) Test this methodology on a small cohort of subjects with FMD, carotid artery stenosis, and healthy controls. A modeling workflow was developed, combining Eulerian and Lagrangian approaches to compute flow fields and evaluate shear stress history of particles advected through the vascular geometries. From this stress history, predictive estimates of mechanical platelet activation can be calculated utilizing a platelet activation state (PAS) metric. We applied this modeling workflow to assess platelet activation in segments of carotid arteries of patients with Fibromuscular Dysplasia, Carotid Artery Stenosis, and healthy controls for comparison against experiments performed at the Cleveland Clinic assessing mechanical platelet activation in patients with each of these conditions. This work supports the development of a patient-specific determination of these same metrics, in order to more precisely assess patient risk of stroke.</p> Haematology Biomedical imaging Computational physiology Bio-fluids Biomedical fluid mechanics Mechanical Platelet Activation Computational Fluid Dynamics Stroke Modeling Clot Modeling Hemodynamics Thrombosis fibromuscular dysplasia (FMD)

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