116 research outputs found
A study of autotrophic communities in two Victoria Land lakes (Continental Antarctica) using photosynthetic pigments
The composition of algal pigments and extracellular polymeric substances (EPS) was determined in microbial mats from two lakes in Victoria Land (Continental Antarctica) with different lithology and environmental features. The aim was to expand knowledge of benthic autotrophic communities in Antarctic lacustrine ecosystems, providing reference data for future assessment of possible changes in environmental conditions and freshwater communities. The results of chemical analyses were supported by microscopy observations. Pigment profiles showed that filamentous cyanobacteria are dominant in both lakes. Samples from the water body at Edmonson Point had greater biodiversity, fewer pigments and lower EPS ratios than those from the lake at Kar Plateau. Differences in mat composition and in pigment and EPS profile between the two lakes are discussed in terms of local environmental conditions such as lithology, ice-cover and UV radiation. The present study suggests that a chemical approach could be useful in the study of benthic communities in Antarctic lakes and their variations in space and time
Healthcare costs of diabetic foot disease in Italy: estimates for event and state costs
Objective This study aimed to estimate healthcare costs of diabetic foot disease (DFD) in a large population-based cohort
of people with type-2 diabetes (T2D) in the Tuscany region (Italy).
Data sources/study setting Administrative healthcare data of Tuscany region, with 2018 as the base year.
Study design Retrospective study assessing a longitudinal cohort of patients with T2D.
Data collection/extraction methods Using administrative healthcare data, DFD were identifed using the International Classifcation of Diseases, Ninth Revision, Clinical Modifcation codes.
Methods We examined the annual healthcare costs of these clinical problems in patients with T2D between 2015 and 2018;
moreover, we used a generalized linear model to estimate the total healthcare costs.
Principal fndings Between 2015 and 2018, patients with T2D experiencing DFD showed signifcantly higher average direct
costs than patients with T2D without DFD (p<0.0001). Among patients with T2D experiencing DFD, those who experienced
complications either in 2015–2017 and in 2018 incurred the highest incremental costs (incremental cost of € 16,702) followed
by those with complications in 2018 only (incremental cost of € 9,536) and from 2015 to 2017 (incremental cost of € 800).
Conclusions DFD signifcantly increase healthcare utilization and costs among patients with TD2. Healthcare costs of DFD
among patients with T2D are associated with the timing and frequency of DFD. These fndings should increase awareness
among policymakers regarding resource reallocation toward preventive strategies among patients with T2
Systemic Sclerosis Sera Impair Angiogenic Performance of Dermal Microvascular Endothelial Cells: Therapeutic Implications of Cyclophosphamide
In systemic sclerosis (SSc), dermal capillaries are progressively lost with consequent chronic tissue hypoxia insufficiently compensated by angiogenesis. Clinical studies reported that intravenous cyclophosphamide (CYC) may improve SSc-related peripheral microvascular damage. Recently, we showed that CYC treatment may normalize SSc sera-induced abnormalities in endothelial cell-matrix interactions. Our objective was to evaluate in vitro the effects of sera from treatment-naïve or CYC-treated SSc patients on dermal blood microvascular endothelial cell (dMVEC) angiogenesis, migration, proliferation and apoptosis. dMVECs were challenged with sera from 21 SSc patients, treatment-naïve (n = 8) or under CYC treatment (n = 13), and 8 healthy controls. Capillary morphogenesis on Geltrex matrix was significantly reduced upon challenge with sera from naïve SSc patients compared with healthy controls. When dMVECs were challenged with sera from CYC-treated SSc patients, their angiogenic capacity was comparable to that of cells treated with healthy sera. Wound healing capacity and chemotaxis in Boyden chamber were both significantly decreased in the presence either of naïve or CYC-treated SSc sera compared with healthy sera. WST-1 assay revealed that cell proliferation was significantly decreased in dMVECs challenged with sera from naïve SSc patients compared with healthy sera. Conversely, dMVEC proliferation was not impaired in the presence of sera from CYC-treated SSc patients. Accordingly, the percentage of TUNEL-positive apoptotic dMVECs was significantly higher in the presence of sera from naïve SSc patients than healthy controls, while CYC-treated SSc sera did not induce dMVEC apoptosis. Levels of the angiostatic mediators endostatin, pentraxin 3, angiostatin and matrix metalloproteinase-12 were all significantly elevated in sera from naïve SSc patients compared with sera from both healthy controls and CYC-treated SSc patients. In SSc, CYC treatment might boost angiogenesis and consequently improve peripheral microangiopathy through the normalization of the endothelial cell-matrix interactions, reduction of endothelial cell apoptosis and rebalance of dysregulated angiostatic factors
Brain–Computer Interface-Based Adaptive Automation to Prevent Out-Of-The-Loop Phenomenon in Air Traffic Controllers Dealing With Highly Automated Systems
International audienceIncreasing the level of automation in air traffic management is seen as a measure to increase the performance of the service to satisfy the predicted future demand. This is expected to result in new roles for the human operator: he will mainly monitor highly automated systems and seldom intervene. Therefore, air traffic controllers (ATCos) would often work in a supervisory or control mode rather than in a direct operating mode. However, it has been demonstrated how human operators in such a role are affected by human performance issues, known as Out-Of-The-Loop (OOTL) phenomenon, consisting in lack of attention, loss of situational awareness and de-skilling. A countermeasure to this phenomenon has been identified in the adaptive automation (AA), i.e., a system able to allocate the operative tasks to the machine or to the operator depending on their needs. In this context, psychophysiological measures have been highlighted as powerful tool to provide a reliable, unobtrusive and real-time assessment of the ATCo’s mental state to be used as control logic for AA-based systems. In this paper, it is presented the so-called “Vigilance and Attention Controller”, a system based on electroencephalography (EEG) and eye-tracking (ET) techniques, aimed to assess in real time the vigilance level of an ATCo dealing with a highly automated human–machine interface and to use this measure to adapt the level of automation of the interface itself. The system has been tested on 14 professional ATCos performing two highly realistic scenarios, one with the system disabled and one with the system enabled. The results confirmed that (i) long high automated tasks induce vigilance decreasing and OOTL-related phenomena; (ii) EEG measures are sensitive to these kinds of mental impairments; and (iii) AA was able to counteract this negative effect by keeping the ATCo more involved within the operative task. The results were confirmed by EEG and ET measures as well as by performance and subjective ones, providing a clear example of potential applications and related benefits of AA
SOS - Piattaforme e Impatti Offshore Report tecnico. I Campagna oceanografica 13-19 maggio 2018
Nell’ambito della convenzione stipulata tra il Ministero dell’Ambiente e della Tutela del Territorio
e del Mare (MATTM) e il Dipartimento Scienze del Sistema Terra e Tecnologie per l’Ambiente del
CNR (DTA), “SOS-Piattaforme & Impatti Off-Shore” è stata prevista un’indagine ambientale
nell’area di interesse di 10 piattaforme off-shore ENI presenti nella zona costiera compresa tra
Ravenna e Pescara. In particolare, le attività previste fanno riferimento alla sezione Macro-Attività
D della convenzione.
Obiettivo principale delle attività di indagine è lo studio della modalità di dispersione in mare delle
acque di produzione e una caratterizzazione chimico-fisica ed ecotossicologica delle stesse e delle
matrici ambientali (acqua, sedimenti, biota) che ricevono lo scarico. L’attività di ricerca prevede un
approccio di analisi ‘integrato’ di tipo chimico, e fisico per lo studio degli effetti della dispersione
in mare delle acque di produzione ed ecotossicologico per la valutazione di eventuali danni a
organismi selezionati dopo la loro esposizione all’acqua di produzione e all’acqua di mare prelevata
a diverse distanze dal punto di scarico. Inoltre, l’azione di ricerca è volta alla definizione di un
approccio metodologico innovativo per le future attività di monitoraggio da effettuare attorno alle
piattaforme off-shore per la verifica di processi e meccanismi di impatto sull’ambiente e
l’ecosistema principalmente da parte dello scarico di acque di produzione.
Questa relazione descrive le attività di campionamento e acquisizione dati effettuate durante la I
Campagna Oceanografica nell’ambito della convenzione “SOS-Piattaforme & Impatti Off-Shore”.
La campagna di campionamento si è svolta nel periodo 13-19 maggio 2018 a bordo del mezzo
navale ROCCO UNO della Marine Consulting International e dei mezzi navali ENI KING DAVID
e MARE GRIGIO
Territorial Resilience: Toward a Proactive Meaning for Spatial Planning
The international debate on resilience has grown around the ability of a community to prepare for and adapt to natural disasters, with a growing interest in holistically understanding complex systems. Although the concept of resilience has been investigated fromdifferent perspectives, the lack of understanding of its conceptual comprehensive aspects presents strong limitations for spatial planning and for the adoption of policies and programs for its measurement and achievement. In this paper, we refer to “territorial resilience” as an emerging concept capable of aiding the decision-making process of identifying vulnerabilities and improving the transformation of socio-ecological and technological systems (SETSs). Here,we explore the epistemology of resilience, reviewing the origins and the evolution of this term, providing evidence on how this conceptual umbrella is used by different disciplines
to tackle problem-solving that arises from disaster management and command-control practices to augment the robustness. Assuming the SETSs paradigm, the seismic and structural engineering, social sciences and history, urban planning and climatology perspectives intersects providing different analytical levels of resilience, including vulnerability and patrimony from a community and cultural perspective. We conclude that territorial resilience surpasses the analytical barriers between different disciplines, providing a useful concept related to complex problem-solving phenomena for land use
planning, opening a new research question: how can territorial resilience be measured, acknowledging different units and levels of analysis aiding decision-making in spatial plans and projects? In attempting to understand a resilient system, quantitative and qualitative measurements are crucial to supporting planning decisions
Morphometric analysis of lymphatics vessels in fibrotic human lung
In pulmonary fibrosis, the usual interstitial pneumonia (UIP) pattern is characterised by heterogeneous, patchy fibrosis, with areas of normal lung adjacent to areas of complete destruction (honeycombing) and by fibroblastic foci (FF). The NSIP pattern which is characteristic of systemic sclerosis, is characterised by a more homogeneous involvement of the lung without honeycombing and FF. Little is known on lymphatic vessels in lung fibrosis. Defective lymphatic clearance could lead to prolonged exposure to pathogenic antigens and/or pro-inflammatory/pro-fibrotic mediators. We evaluated the distribution and morphology of lymphatic vessels in lung biopsies of 6 patients with UIP, 6 NSIP and 5 controls. Consecutive sections were stained with Movat’s pentachrome and with double immunostaining for von Willebrand factor and podoplanin (D2-40). Area, perimeter and position were recorded for vessels with a diameter > 5µm. We investigated separately in lintralobular, sub-pleural, and interlobular spaces. Lymphatics were consistently larger in subpleural spaces and in interlobular septa than in intralobular tissue. In the latter, the density of lymphatic vessels was significantly reduced in NSIP and in UIP (both 21±1 mm-2) compared to controls (35±4 mm-2) . In controls, 85±6% of the intralobular lymphatics were close (< 100 µm) to a blood vessel, and only 5±4% were in the proximity of bronchoalveolar spaces, while in the disease groups they were less frequently perivascular (NSIP 55 ±3%, UIP 56 ±2%) and more frequently associated with the bronchoalveolar lumen (NSIP 85 ±3%, UIP 69 ±2%). By contrast, in interlobular septa, lymphatic density was significantly increased in NSIP (303±28 mm-2) and in UIP (286±124 mm-2) compared to controls (96±69 mm-2). No differences in lymphatic density was seen in subpleural spaces. Thus, our data show a marked redistribution of lymphatic vessels within the lung in pulmonary fibrosis, without noticeable differences between the NSIP and UIP patterns
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