101,998 research outputs found

    Gomaraschi M, Ossoli A, Castelnuovo S, Simonelli S, Balzarotti G, Arca M, Di Costanzo A, Sampietro T, Vaudo G, Veglia F, Franceschini G, Calabresi L

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    The aim of this study was to evaluate the vasoprotective effects of HDL isolated from carriers of LCAT deficiency, which are characterized by a selective depletion of LpA-I:A-II particles and predominance of preβ migrating HDL. HDLs were isolated from LCAT-deficient carriers and tested in vitro for their capacity to promote NO production and to inhibit vascular cell adhesion molecule-1 (VCAM-1) expression in cultured endothelial cells. HDLs from carriers were more effective than control HDLs in promoting eNOS activation with a gene-dose-dependent effect (PTrend = 0.048). As a consequence, NO production induced by HDL from carriers was significantly higher than that promoted by control HDL (1.63 ± 0.24-fold vs. 1.34 ± 0.07-fold, P = 0.031). HDLs from carriers were also more effective than control HDLs in inhibiting the expression of VCAM-1 (homozygotes, 65.0 ± 8.6%; heterozygotes, 53.1 ± 7.2%; controls, 44.4 ± 4.1%; PTrend = 0.0003). The increased efficiency of carrier HDL was likely due to the depletion in LpA-I:A-II particles. The in vitro findings might explain why carriers of LCAT deficiency showed flow-mediated vasodilation and plasma-soluble cell adhesion molecule concentrations comparable to controls, despite low HDL-cholesterol levels. These results indicate that selective depletion of apoA-II-containing HDL, as observed in carriers of LCAT deficiency, leads to an increased capacity of HDL to stimulate endothelial NO production, suggesting that changes in HDL apolipoprotein composition may be the target of therapeutic interventions designed to improve HDL functionalit

    Optimal Use of the Non-Inferiority Trial Design

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    Superiority trials are conducted to test the hypothesis that a treatment or strategy A is superior to (i.e., better than) treatment strategy B in reducing the impact of disease. However, A may be considerably safer, more convenient, or cheaper than B. These features may make A more attractive than B even if the burden of disease is reduced comparably by the two treatments, or even a bit worse by A over B. In this context, non-inferiority trials have become increasingly popular to test the hypothesis that a new treatment is not ‘unacceptably worse’ than an active comparator by more than a predefined non-inferiority margin. Non-inferiority trials have unique design features and methodology and require a different analysis than traditional superiority trials. The main aim of this overview is to analyze the role of non-inferiority trials in the development of new treatments, involving some scientific, statistical, and practical considerations. We elucidate some aspects of non-inferiority trials that contribute to the validity of the results. The unique design features and methodology of non-inferiority trials are summarized and key findings to consider when evaluating a non-inferiority trial are illustrated

    Matrix metalloproteinases and hypertension-mediated organ damage: Current insights

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    Matrix metalloproteinases (MMPs) are important extracellular enzymes involved in many physiological and pathological processes. Changes in the activity and concentration of specific MMPs, as well as the unbalance with their inhibitors (tissue inhibitors of metalloproteinases – TIMPs), have been described as a part of the pathogenic cascade promoted by arterial hypertension. MMPs are able to degrade various protein substrates in the extracellular matrix, to influence endothelial cells function, vascular smooth muscle cells migration, proliferation and contraction, and to stimulate cardiomyocytes changes. All these processes can be activated by chronically elevated blood pressure values. Animal and human studies demonstrated the key function of MMPs in the pathogenesis of hypertension-mediated vascular, cardiac, and renal damage, besides age and blood pressure values. Thus, the role of MMPs as biomarkers of hypertension-mediated organ damage and potential pharmacological treatment targets to prevent further cardiovascular and renal complications in hypertensive population is increasingly supported. In this review, we aimed to describe the main scientific evidence about the behavior of MMPs in the development of vascular, cardiac, and renal damage in hypertensive patients
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