• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 7
  • 1
  • 1
  • 1
  • 1
  • Tagged with
  • 12
  • 12
  • 8
  • 4
  • 4
  • 4
  • 3
  • 3
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Potential roles of TFPI in both thrombotic and hemorrhagic diseases / Rôle potentiel du TFPI dans les maladies thrombotiques et hémorragiques

Tardy-Poncet, Brigitte 26 November 2012 (has links)
L'inhibiteur de la Voie du Facteur Tissulaire (TFPI) est une protéine régulatrice de la coagulation plasmatique intervenant à la phase initiale de la cascade. Il inhibe en présence de la protéine S (PS) le facteur Xa et ce complexe TFPI-Xa inactive ensuite le complexe FT-VIIa. Nous avons recherché une résistance à l'activité anticoagulante du TFPI. La sensibilité du plasma à une quantité fixe de TFPI a été évaluée sur la base d'un temps de thromboplastine diluée (TTD) réalisé avec et sans TFPI : - chez des patients ayant présenté une thrombose veineuse profonde inexpliquée ; cette résistance suspectée sur une 1ère étude n'a pas été confirmée sur la 2ème. - chez des patientes enceintes ; une résistance au TFPI acquise a été montrée et rapportée au déficit acquis en PS ; cependant le degré de résistance au TFPI ne peut pas être utilisé comme marqueur de risque de pathologie vasculaire placentaire. Chez des patients obèses l'effet inhibiteur des taux élevés de Lp(a) sur l'activité TFPI décrit in vitro n'a pas été retrouvé in vivo pas plus que l'effet de l'aspirine sur la normalisation des taux de Lp(a). Le TFPI joue un rôle dans les manifestations hémorragiques des hémophiles. Nous avons montré que les hémophiles B ont comparativement aux A des taux moindres de TFPI ce qui pourrait expliquer leur différence en terme de manifestations hémorragiques. Les taux de TFPI libre sont bien corrélés aux paramètres de la génération de thrombine surtout au temps de latence. En présence d’un anti TFPI humain la génération de thrombine est corrigée chez l'hémophile. Cette correction dépend de la concentration d'anti TFPI, est saturable et doit être étudiée sur du plasma riche en plaquettes / TFPI is a multivalent Kunitz-type proteinase inhibitor that directly inhibits FXa and produces FXa-dependent feedback inhibition of the FVIIa–TF complex. It was recently demonstrated that Protein S (PS) plays the role of TFPI cofactor by enhancing the TFPI inhibition of factor Xa in vivo. Approximately 80% of plasma TFPI circulates as a complex with plasma lipoproteins, about 5–20% circulating as free TFPI. Under quiescent conditions, approximately 50–80% of intravascular TFPI is stored in association with the endothelium. Full-length TFPI α carried in platelets constitutes 8-10% of the total amount of TFPI in the blood, corresponding to a quantity comparable to that of soluble full-length TFPI α in the plasma. We searched for resistance to TFPI activity in patients who presented idiopathic venous thrombosis at a young age. Plasma sensitivity to TFPI was evaluated on the basis of diluted prothrombin time (dPT) measured in patients and in control plasma in the presence (W) and absence (Wo) of exogenous TFPI. At the same time, dPT was measured on a reference plasma to establish a normalized ratio termed TFPI NR and defined as (dPT wTFPI/ dPT Wo TFPI) patient or control / (dPT wTFPI/ dPT Wo TFPI) reference plasma. In an initial study, we found that TFPI resistance could be considered as a new coagulation abnormality that could be related to unexplained thrombosis. In a second study, we failed to demonstrate a role of TFPI resistance in patients with venous thrombosis, abnormal TFPI NR being more likely related to the non-respect of preanalytical conditions rather than to an inherited trait. However, in another study, we showed that inherited or acquired PS deficiency was responsible for a TFPI resistance, providing an ex vivo demonstration that PS is the cofactor of TFPI activity. We showed that this TFPI resistance existed throughout pregnancy and that it disappeared when PS returned to normal values after delivery. We evaluated this TFPI resistance as a possible marker of the risk of a gestational vascular complication (GVC) in 72 patients at risk of developing a GVC. TFPI NR did not differ between GVC+ patients (n =15) and GVC– patients (n = 57). High levels of Lipoprotein(a) (Lp(a) have been shown to be an independent risk factor for cardiovascular disease, lowering of these levels not being achievable by any treatment except possibly aspirin. An in vitro study showed that TFPI activity could be inhibited by Lp(a). We did not confirm this TFPI inhibition in vivo in 20 obese patients with coronary insufficiency who had either normal Lp(a) levels (≤ 0.3 g/L; n = 15) or high Lp(a) levels (≥ 0.3 g/L; n = 5) . Moreover, we found no effect of aspirin treatment on Lp(a) whatever the initial level of Lp(a). Haemophilia B patients bleed less than haemophilia A patients. We showed that this difference in bleeding profile could be explained by lower free TFPI levels in haemophilia B patients compared to haemophilia A patients. In an ongoing study, we showed that in haemophilia A patients there was a strong correlation between the different parameters of thrombin generation (TG) and free TFPI. We also showed, in a TG assay performed in platelet-rich plasma (PRP) with a low TF concentration, that LT was sensitive to free TFPI levels whatever the type of haemophilia and whatever theseverity of the disease. We demonstrated that blocking TFPI by an anti-TFPI Antibody (Ab) allows complete correction of the TG profile in PRP. We showed that it is of major importance to perform a TG assay in PRP in order to evaluate the efficacy of anti-TFPI Ab in correcting TG parameters in haemophilia patients
12

Patobiochemie diabetes mellitus a jeho komplikací - oxidační stres, mikrozánět a genetická predispozice. / Pathobiochemistry of diabetes mellitus and its complications - oxidative stress, microinflammation and genetic predisposition.

Škrha, Jan January 2018 (has links)
Diabetes is a chronic disease with high prevalence and significant morbidity. Chronic changes in the wall of small and large vessels lead to main diabetes complications. Apart from long- term hyperglycemia, several factors are involved in the development of diabetes vasculopathy. The aim of this work was to describe new early biomarkers of these vascular changes, to identify risky patients. Alongside, gene polymorphisms involved in protective pathways of glucose metabolism were studied. In three human studies with Type 1 (T1D) and Type 2 (T2D) diabetes patients special biochemical parameters of receptor for advanced glycation endproducts (RAGE) and its ligands, deglycation enzyme glyoxalase 1 (GLO1) and fructosamine 3-kinase (FN3K) gene polymorphisms were analyzed. Non-invasive measurement of glycation by skin autofluorescence (SAF) was assessed in all subjects. Soluble RAGE, HMGB1 and endothelial dysfunction markers were increased in patients with diabetes as compared with controls, however the differences between T1D and T2D were not significant. For the first time, an association between FN3K (rs1056534) and (rs3848403) polymorphism and sRAGE concentration in diabetes was shown. GLO1 (rs4746) polymorphism was associated with changes in endothelial dysfunction. Patients with diabetes had higher...

Page generated in 0.1124 seconds