3,042 research outputs found

    Rethinking the norm of Life Beyond Biopolitics. Towards an Ethical Framework

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    This thesis is concerned with the qualification of forms of life in approaches of biopolitics and vitalism, two main perspectives that map discussions around the politics of life in contemporary political theorising. The literature on biopolitics highlights how modes of life are given meaning as effect of regimes of power that construct the value ascribed to forms of living. The idea of a norm of life captures the functioning of biopolitical apparatuses that operate through logics of inclusion and exclusion of forms of life, by rearticulating the ancient Greek distinction between zoe and bios. Opposite to biopolitics, vitalism looks at life in its materiality and attempts to re-ground the value ascribed to forms of living in an ontological dimension that starts from the assumption of a power intrinsic to life as the principle to inform also the laws of the social and political domain. Even though formulating an apparently opposite account to biopolitics, the thesis argues that perspectives of vitalism entail an idea of life that reproduces qualifications and exclusions in drawing out their political projects. By so doing, they are unable to reframe the terms of the debate of the politics of life in a way that fundamentally challenges the premises of biopolitics. After providing a schematic of this debate, the thesis elaborates an alternative perspective that, following the trajectory of the engagement with life that runs through the works of Michel Foucault, Georges Canguilhem and contemporary Spinozist perspectives, argues that a more comprehensive account of the ways in which power and life relate to each other cannot be captured by either a discursive or a materialist account only and needs to be seen as dependent on the contingent situations in which the engagement and encounter with modes of life are defined. By critically deploying William Connolly’s notion of ontopolitics, the argument maintains that this approach, which fosters a practical ethics of life, remains open and receptive to modes of life and their interaction with multiple levels of power. To this aim, the analysis formulates an ethical approach that conceives of modes of existence not as object of a discursive power over life only nor as a purely vital-materialist power of life, but treats modes of life in their singularity

    Renormalization group and Ward identities in quantum liquid phases and in unconventional critical phenomena

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    By reviewing the application of the renormalization group to different theoretical problems, we emphasize the role played by the general symmetry properties in identifying the relevant running variables describing the behavior of a given physical system. In particular, we show how the constraints due to the Ward identities, which implement the conservation laws associated with the various symmetries, help to minimize the number of independent running variables. This use of the Ward identities is examined both in the case of a stable phase and of a critical phenomenon. In the first case we consider the problems of interacting fermions and bosons. In one dimension general and specific Ward identities are sufficient to show the non-Fermi-liquid character of the interacting fermion system, and also allow to describe the crossover to a Fermi liquid above one dimension. This crossover is examined both in the absence and presence of singular interaction. On the other hand, in the case of interacting bosons in the superfluid phase, the implementation of the Ward identities provides the asymptotically exact description of the acoustic low-energy excitation spectrum, and clarifies the subtle mechanism of how this is realized below and above three dimensions. As a critical phenomenon, we discuss the disorder-driven metal-insulator transition in a disordered interacting Fermi system. In this case, through the use of Ward identities, one is able to associate all the disorder effects to renormalizations of the Landau parameters. As a consequence, the occurrence of a metal-insulator transition is described as a critical breakdown of a Fermi liquid.Comment: 47 pages, 11 figure

    Artificial intelligence for heart rate variability analyzing with arrhythmias

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    Introduction. Existing standards of Heart Rate Variability (HRV) technology limit its use to sinus rhythm. A small number of extrasystoles is allowed, if the device used has special procedures for the detection and replacement of ectopic complexes. However, it is important to expand the indicated limits of the applicability of the HRV technology. This specially regards the cases when the HRV technology looks promising in the diagnostics, as, for example, in atrial fibrillation and atrial flutter. Materials and Methods. All ECG measurements were performed on XAI-MEDICA® equipment and software. Processing of the obtained RR Series was carried out using the software Kubios® HRV Standard. All recommended HRV characteristics for Time-Domain, Frequency-Domain and Nonlinear were calculated. The purpose of the work. The article presents an artificial intelligence (AI) procedure for detecting episodes of arrhythmias and reconstruction of core patient’s rhythm, and demonstrates the efficacy of its use for the HRV analysis in patients with varying degrees of arrhythmias. The results of the study. It was shown efficiency of developed artificial intelligence procedure for HRV analyzing of patients with different level of arrhythmias. These were demonstrated for Time-Domain, Frequency-Domain and Nonlinear methods. The direct inclusion into review of Arrhythmia Episodes and the use of the initial RR Series leads to a significant distortion of the results of the HRV analysis for the whole set of methods and for all considered options for arrhythmia. Conclusion. High efficacy of operation of the procedure AI core rhythm extraction from initial RR Series for patients with arrhythmia was reported in all cases

    Theory of the spin galvanic effect at oxide interfaces

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    The spin galvanic effect (SGE) describes the conversion of a non-equilibrium spin polarization into a transverse charge current. Recent experiments have demonstrated a large conversion efficiency for the two-dimensional electron gas formed at the interface between two insulating oxides, LaAlO3_3 and SrTiO3_3. Here we analyze the SGE for oxide interfaces within a three-band model for the Ti t2g_{2g} orbitals which displays an interesting variety of effective spin-orbit couplings in the individual bands that contribute differently to the spin-charge conversion. Our analytical approach is supplemented by a numerical treatment where we also investigate the influence of disorder and temperature, which turns out to be crucial to provide an appropriate description of the experimental data.Comment: 5 pages, 3 figure

    Report of the Integrative Molecular Cancer Epidemiology International Symposium, Lyon, France

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    An International Symposium on Integrative Molecular Cancer Epidemiology took place in Lyon, France, on 3–5 July 2008. The Symposium focused on aetiological and mechanistic aspects of molecular and genetic cancer epidemiology research and was divided into the following three sections: Molecular epidemiology—application of novel molecular markers to cancer epidemiology.Genomic epidemiology in the era of whole genome scan.Integrative molecular epidemiology: visions for the future

    Effect of insulin glargine on cardiovascular risk analysed by mean HRV

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    Type 2 diabetes mellitus is an insidious disease that is increasingly present in geriatric population [1]. The greatest difficulty is represented by glycaemic control in geriatric patients often not very compliant with diet therapy and drug therapy. A new insulin glargine 300 units/ml formulation seems im- prove patient compliance due to the lower volume of insulin to be injected and improved glycaemic control over 24 hours. The HRV signal, derived from digital electrocardiographic recording, is the simplest and most imme- diate analysis that consists in calculating some temporal parameters [2]. HRV is a simple statistics derived from beat-beat intervals of sinus origin expressed as units of time in milliseconds. Data in the literature indicate that a decrease in HRV, measured with time domain analysis, denotes a worse prognosis and/or an increased risk of mortality in patients with heart disease, especially in the elderly ones

    Stratification of THROMBOTIC RISK in patients that are undergoing to PICC implantation. The “CoRa-MaPiCC STUDY”

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    Background: The PICC is a central venous system inserted in the peripherally vein. The central peripheral catheter catheter system (PICC=peripherally inserted central catheters) is a widely used procedure in clinical practice by medical and nurse team. PICC has potential complications that are rare but not entirely irrelevant. It is used for continuous and discontinuous treatment and, after a correct insertion procedure, it can be used for a period of time between 1 week to 3 months. The last-generation dispositive has an high-biocompatibility due to the high quality of the materials (silicone or polyurethane), a total length of 40-60 cm and a diameter between 16 to 25 Gauge or 2 to 5 French. Aims: The aim of our study is to evaluate the trombotic risk related to the positioning of the device in relation to the individual risk factors. Therefore we have elaborated the CoRaMaPicc protocol that allows, based on the preliminary data evaluation, to reduce the trombotic risk in patients with high cardiovascular risk profile. Methods: The study has started in July 2016. We have enrolled 30 patients (18 males and 12 females with range age of 30-99 yrs and mean age of 82+13,5 yrs). Enrolled patients have Body mass Index or (BMI) with range from 16,3-26,5 Kg/mq and mean BMI value of 23,5+2,5 Kg/mq. Enrolled patients were subjected to laboratory assessment of cardiovascular risk factors like laboratory assessment of Methyl-Tetra-Hydro-Folate-Reductase or (MTHFR) and Homocysteine, Fibrinogen, D-Dimer, International Normalized Ratio (INR), Prothrombin Time (PT), activated Partial Thromboplastin Time (aPTT), Platelets (PLT), trombotic risk evaluation (CHA2DS2-VASc Score), and bledding risk evaluation (HAS-BLED Score). Before the insertion procedure of the PICC, single or duble lumen (Groshong or Power PICC type), the patient were subjected to a preliminary ultrasound and echo-doppler vein evaluation to underline the presence of atipical anatomical state of the patients veins. After the procedure the patients were subjected to second ultrasound and echo-doppler vein evaluation and then to a radiographic examination to verify the correct position of the PICC. All patients were enrolled for follow- Up to evaluate trombotic complications. Statistical analysis was performed using the Survival Analysis test to evaluate the patients during the follow-up period in relation to thrombotic events. The data obtained from our study have been described taking also into account the data present in the international literature. Setting: The study was performed using a specific setting in a room of the Internal Medicine Department of the Alfredo Fiorini Hospital (Terracina, Italy), guarantee an aseptic procedure , the right comfort for the patients and the appropriate privacy. Discussion: More data in the literature underline the presence of non-eliminable risk factors like anatomic state of the patients vein that can play a variable role of procedural risk factor and can predispose to procedural or post-procedural complication after the implantation procedure. In specific cases it is difficult to asses an echo-doppler examination of heart for meteorism or ascites and radiographic exams for the presence of pleural effusion. The CoRaMaPiCC protocol use different technique to explore the post-insertion period and the follow-up time at 12 week. In case of meteorism or ascites the ultrasound examination of the heart cameras was replaced by the radiographyc evaluation while in case of pleural effusion, the evaluation of the device position was deduced using the only ultrasound approach (when the vein system is explorable). Procedural algorithm utilized in our implant protocol allows to improve the diagnostic capabilities of the conditions that can predispose to thrombotic complications. During the study period (1 year), the PICCs were removed for death (7 patients; 4 patients for irreversible heart disease, 1 patient for cardiogenic shock 1 patient for septic shock and 1 patient for Creutzfeld-Jacob disease), for spontaneously remotion (1 patient for low compliance of the patient) and for end of therapy (22 patients). The presence of cardiovascular risk factors alone is not sufficient for determining statistically significant changes in the thrombotic risk. As reported historically by the description of the wirkow triad, the presence of three clinical signs, and in particular the presence of endothelial damage (functio lesa) is a sine qua non condition for the occurrence of thrombotic episodes. Conclusion: The CoRaMaPicc protocol allows, based on the evaluation of the data, to minimize endothelial damage and therefore to reduce the incidence of the wirchof's triade related with an high trombotic risk. The data were elaborated considering the different thrombotic risk linked to the presence of the homozygous MTHR mutation responsible for the increase of homocysteine values and therefore of the further thrombotic risk. Further studies are needed to expand the number of enrolled patients and increase the follow-up period. Our data give comfortable results but further evaluation are needed to have conclusive results

    Density inhomogeneities and Rashba spin-orbit coupling interplay in oxide interfaces

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    There is steadily increasing evidence that the two-dimensional electron gas (2DEG) formed at the interface of some insulating oxides like LaAlO3/SrTiO3 and LaTiO3/SrTiO3 is strongly inhomogeneous. The inhomogeneous distribution of electron density is accompanied by an inhomogeneous distribution of the (self-consistent) electric field confining the electrons at the interface. In turn this inhomogeneous transverse electric field induces an inhomogeneous Rashba spin-orbit coupling (RSOC). After an introductory summary on two mechanisms possibly giving rise to an electronic phase separation accounting for the above inhomogeneity,we introduce a phenomenological model to describe the density-dependent RSOC and its consequences. Besides being itself a possible source of inhomogeneity or charge-density waves, the density-dependent RSOC gives rise to interesting physical effects like the occurrence of inhomogeneous spin-current distributions and inhomogeneous quantum-Hall states with chiral "edge" states taking place in the bulk of the 2DEG. The inhomogeneous RSOC can also be exploited for spintronic devices since it can be used to produce a disorder-robust spin Hall effect.Comment: 13 pages, 15 figure

    Current-induced spin polarization in InGaAs and GaAs epilayers with varying doping densities

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    The current-induced spin polarization and momentum-dependent spin-orbit field were measured in Inx_{x}Ga1x_{1-x}As epilayers with varying indium concentrations and silicon doping densities. Samples with higher indium concentrations and carrier concentrations and lower mobilities were found to have larger electrical spin generation efficiencies. Furthermore, current-induced spin polarization was detected in GaAs epilayers despite the absence of measurable spin-orbit fields, indicating that the extrinsic contributions to the spin polarization mechanism must be considered. Theoretical calculations based on a model that includes extrinsic contributions to the spin dephasing and the spin Hall effect, in addition to the intrinsic Rashba and Dresselhaus spin-orbit coupling, are found to qualitatively agree with the experimental results.Comment: 16 pages, 8 figure

    Improving the model checking of strategies under partial observability and fairness constraints

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    Reasoning about strategies has been a concern for several years, and many extensions of Alternating-time Temporal Logic have been proposed. One extension, ATLKirF , allows the user to reason about the strategies of the agents of a system under partial observability and unconditional fairness constraints. However, the existing model-checking algorithm for ATLKirF is inefficient when the user is only interested in the satisfaction of a formula in a small subset of states, such as the set of initial states of the system. We propose to generate fewer strategies by only focusing on partial strategies reachable from this subset of states, reducing the time needed to perform the verification. We also describe several practical improvements to further reduce the verification time and present experiments showing the practical impact of the approach
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