572 research outputs found
Bibliometric analysis on the papers dedicated to microplastics in wastewater treatments
The presence of microplastics (MPs) in the environment is becoming a problem for soils and seas, as well as for the food chain of animals and humans. The scientific community has been called upon to contribute to solving the problem and several papers have been published, especially in the last decade. The aim of this work is to carry out a bibliometric analysis of the scientific literature dedicated to the problem of MPs, highlighting its course over the years, and to identify the sectors to which the research could be profitably addressed. The VOSviewer software has been used to perform the analysis of the data in which specific maps were used to represent the network of the relationships among countries, journals, organizations, authors, and keywords related to the investigated topic and subtopics. The results of the survey demonstrated that during the investigated range of time, most attention has been paid to the individuation of the MPs, and to marine pollution, while a gap seems to exist in the possible advanced oxidation processes specifically addressing the degradation of MPs and their derivates
Controlling the Er content of porous silicon using the doping current intensity
The results of an investigation on the Er doping of porous silicon are presented. Electrochemical impedance spectroscopy, optical reflectivity, and spatially resolved energy dispersive spectroscopy (EDS) coupled to scanning electron microscopy measurements were used to investigate on the transient during the first stages of constant current Er doping. Depending on the applied current intensity, the voltage transient displays two very different behaviors, signature of two different chemical processes. The measurements show that, for equal transferred charge and identical porous silicon (PSi) layers, the applied current intensity also influences the final Er content. An interpretative model is proposed in order to describe the two distinct chemical processes. The results can be useful for a better control over the doping process
Effect of potential and chlorides on photoelectrochemical removal of diethyl phthalate from water
Removal of persistent pollutants from water by photoelectrocatalysis has emerged as a promising powerful process. Applied potential plays a key role in the photocatalytic activity of the semi-conductor as well as the possible presence of chloride ions in the solution. This work aims to investigate these effects on the photoelectrocatalytic oxidation of diethyl phthalate (DEP) by using TiO2 nanotubular anodes under solar light irradiation. PEC tests were performed at constant potentials under different concentration of NaCl. The process is able to remove DEP following a pseudo-first order kinetics: values of kapp of 1.25 × 10−3 min−1 and 1.56 × 10−4 min−1 have been obtained at applied potentials of 1.8 and 0.2 V, respectively. Results showed that, depending on the applied potential, the presence of chloride ions in the solution affects the degradation rate resulting in a negative effect: the presence of 500 mM of Cl− reduces the value of kapp by 50 and 80% at 0.2 and 1.8 V respectively
Electrochemical synthesis of polyaniline/metal-based anodes and their use in microbial fuel cell
A limited number of metals may be suitable as bioanode material: noble metals, such as gold and platinum, could be the optimum choice being electrochemically inert in the operational potential window of the bioelectrochemical system. However, high costs limit their wide scale application. Even though its antimicrobial nature, copper is being considered as a promising alternative anode material, due to its high conductivity, that allows minimising the electrode material costs. Literature research indicated that high-performing electrochemically active biofilms may be grown on this metal. In the present work, gold and copper substrates have been coated by a conductive polymer (PANI), using a layer – by – layer procedure: surface grafting by reduction of 4-nitrobenzendiazonium salt was followed by reduction of nitro- to amino-groups; PANI was electrodeposited on this under-layer. The synthesized anodes were tested as working electrodes (WE) in a microbial fuel cell fed with anaerobic sludge and acetate; to assess the growth of the biofilm on the WE surface, the trend of the bioelectrocatalytic current of acetate oxidation was monitored over time. Cyclic voltammetries reveal the presence of typical redox couples related to the presence of electroactive microorganisms on the electrode surface. Preliminary data show bioelectrochemical activity on polyaniline-coated metal surfaces
Organ preserving surgery in bilateral testicular mass: epidermoid cyst
Introdução: O quisto epidermóide do testÃculo é uma lesão benigna testicular pouco comum. Representa cerca de 1% a 2% de todas as massas testiculares e a
sua ocorrência bilateral é muito rara.
Caso clÃnico: Reportamos o caso de um doente de 21 anos com quisto epidermóide bilateral do testÃculo, submetido a cirurgia poupadora de órgão bilateral, através de abordagem inguinal após exame extemporâneo.
Discussão: Discutimos ainda o diagnóstico e a abordagem deste tipo de lesões
Clinical phenotypes of Parkinson’s disease associate with distinct gut microbiota and metabolome enterotypes
Parkinson’s disease (PD) is a clinically heterogenic disorder characterized by distinct clinical entities. Most studies on motor deficits dichotomize PD into tremor dominant (TD) or non-tremor dominant (non-TD) with akinetic-rigid features (AR). Different pathophysiological mechanisms may affect the onset of motor manifestations. Recent studies have suggested that gut microbes may be involved in PD pathogenesis. The aim of this study was to investigate the gut microbiota and metabolome composition in PD patients in relation to TD and non-TD phenotypes. In order to address this issue, gut microbiota and the metabolome structure of PD patients were determined from faecal samples using 16S next generation sequencing and gas chromatography–mass spectrometry approaches. The results showed a reduction in the relative abundance of Lachnospiraceae, Blautia, Coprococcus, Lachnospira, and an increase in Enterobacteriaceae, Escherichia and Serratia linked to non-TD subtypes. Moreover, the levels of important molecules (i.e., nicotinic acid, cadaverine, glucuronic acid) were altered in relation to the severity of phenotype. We hypothesize that the microbiota/metabolome enterotypes associated to non-TD subtypes may favor the development of gut inflammatory environment and gastrointestinal dysfunctions and therefore a more severe α-synucleinopathy. This study adds important information to PD pathogenesis and emphasizes the potential pathophysiological link between gut microbiota/metabolites and PD motor subtypes
Entrapment of citrus limon var. Pompia essential oil or pure citral in liposomes tailored as mouthwash for the treatment of oral cavity diseases
This work aimed at developing a mouthwash based on liposomes loading Citrus limon var. pompia essential oil or citral to treat oropharyngeal diseases. Vesicles were prepared by dispersing phosphatidylcholine and pompia essential oil or citral at increasing amounts (12, 25 and 50 mg/mL) in water. Transparent vesicle dispersions were obtained by direct sonication avoiding the use of organic solvents. Cryogenic transmission electron microscopy (cryo-TEM) confirmed the formation of unilamellar, spherical and regularly shaped vesicles. Essential oil and citral loaded liposomes were small in size (~110 and ~100 nm, respectively) and negatively charged. Liposomes, especially those loading citral, were highly stable as their physico-chemical properties did not change during storage. The formulations were highly biocompatible against keratinocytes, were able to counteract the damages induced in cells by using hydrogen peroxide, and able to increase the rate of skin repair. In addition, liposomes loading citral at higher concentrations inhibited the proliferation of cariogenic bacterium
Does the longevity of one or both parents influence the health status of their offspring?
According to the findings of some recent studies, the centenarians' offspring appear to represent a promising
model for research on longevity and healthy aging. This study compares the health status and the functional
status of three groups of subjects: 1. individuals with two long-lived parents (one of whom centenarian), 2.
individuals with only one long-lived (centenarian) parent, and 3. individuals with no long-lived parents.
The goal is to verify whether the centenarians' offspring display any advantage over the offspring of both
non-long-lived parents and to evaluate whether the longevity of the non-centenarian parent provides a
further advantage. A total of 374 subjects (mean age approximately 70 years) was examined. A threshold
for longevity was established for non-centenarian parents through demographic data available for Italy
(males surviving to at least 81 years of age and females to 87 years). The participants were assessed for
their health and functional status by means of a standardized questionnaire and tests of physical performance.
Data were analyzed using multivariate regression models adjusted for socio-demographic characteristics
and risk factors for age-related pathologies.
The results of the study show that centenarians' offspring have a better functional status, a reduced risk for
several age-related pathologies and reduced drug consumption than the offspring of non-long-lived parents.
In addition, the health status of centenarians' offspring does not appear to be influenced by the longevity of
the second parent. It therefore seems possible to conclude that at ages around 70 years the genetic contribution
to health status deriving from having one centenarian parent is not substantially improved if the other
parent is also long-lived
Climbing walls, making bridges: children of immigrants’ identity negotiations through capoeira and parkour in Turin.
Capoeira and parkour are two different body practices which have gained worldwide attention in urban settings in the last few decades. The following paper will explore how capoeira and parkour relate to the construction of identity paths amongst children of immigrants between 12 and 20 in Turin, Italy. It will do so by looking at how such practices are used by young men of migrant origin to negotiate and perform narratives of self-worth, belonging and recognition within marginalising and excluding urban environments. This study acknowledges that social identifications are created, negotiated and (re)produced through bodily and spatial means and within networks of power relations. Following this premise, the insights proposed in this paper suggest that the ambivalent and fluid use of bodies and spaces implied by capoeira and parkour can represent a meaningful lens to understand the embodied and spatial identity negotiations enacted by participants in their daily lives. This theoretical perspective will illuminate the place that active bodies, spaces and leisure practices take in the negotiation of social identities, and dynamics of inclusion/exclusion, enacted by youth of migrant origin within early twenty-first century Turin cityscape
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