Your search keyword '"Andrea Magrin"' showing total 70 results

1. Editorial: The structure of the central Mediterranean: Insights from seismological and geophysical data

Author

Giuliana Rossi, Irene Bianchi, Andrea Magrin, Irene Molinari, Josip Stipčević, and Mark R. Handy

Subjects

Mediterranean, geodynamic models, crustal 3-D structure, anisotropy, surface processes, Science

Published

2022

2. Deriving a New Crustal Model of Northern Adria: The Northern Adria Crust (NAC) Model

Author

Andrea Magrin and Giuliana Rossi

Subjects

crustal model, Northern Adria microplate, Moho geometry, geophysical properties, uncertainty analysis, Science

Abstract

We presented a new 3D model of the geophysical properties of the crust (namely depth of the Moho and VP, VS, density, Young’s modulus, and shear modulus) of the northern tip of the Adria microplate that we called NAC (Northern Adria Crust). The horizontal dimensions of the physical properties variations are optimized at 5 × 5 km and the vertical dimension at 1 km. NAC has been built by critically choosing and integrating all available information about the depth of the main interfaces and the physical properties of the crust. We started from a VP dataset, and we converted it in VS and density by using empirical relations, tuned through the comparison with the available data from local tomographic inversion, and taking into account the lithologies of the area. Uncertainties and reliability of the model are quantified, taking into account the data quality and the interpolation procedure. NAC has two versions, different in the structure of the Moho interface: the first considers one continuous surface for the whole area, while the second implies three separate surfaces for the Adria microplate, Eurasia, and the Pannonian fragment. The differences between the two models are minimal, but the available data better sustain the solution of the fragmented crust. For its characteristics of multiparametric information and resolution, NAC can be precious for any purpose and use where a detailed knowledge of the crustal structure of this area is required. Moreover, it is easy to improve NAC, including new information on the crustal structures, when they will be available.

Published

2020

3. Applicability of Cost-Effective GNSS Sensors for Crustal Deformation Studies

Author

Lavinia Tunini, David Zuliani, and Andrea Magrin

Subjects

GNSS, low-cost receivers, cost-effective sensors, crustal deformation, GAMIT-GLOBK, Chemical technology, TP1-1185

Abstract

The geodetic monitoring of the continuous crustal deformation in a particular region has traditionally been the prerogative of the scientific communities capable of affording high-price geodetic-class instruments to track the tiny movements of tectonic plates without losing precision. However, GNSS technology has been continuously and rapidly growing, and in the last years, new cost-efficient instruments have entered the mass market, gaining the attention of the scientific community for potentially being high-performing alternative solutions. In this study, we match in parallel a dual-frequency low-cost receiver with two high-price geodetic instruments, all connected to the same geodetic antenna. We select North-East Italy as testing area, and we process the data together with the observations coming from a network of GNSS permanent stations operating in this region. We show that mm-order precision can be achieved by cost-effective GNSS receivers, while the results in terms of time series are largely comparable to those obtained using high-price geodetic receivers.

Published

2022

4. Multi-scenario Physics-Based Seismic Hazard Assessment of Cultural Heritage Sites

Author

Marco Fasan, Hany M. Hassan, Andrea Magrin, Franco Vaccari, Fabio Romanelli, and Mohamed ElGabry

Published

2023

5. To boldly go where no microRNAs have gone before: spaceflight impact on risk for small-for-gestational-age infants

Author

Giada Corti, JangKeun Kim, Francisco J. Enguita, Joseph W. Guarnieri, Lawrence I. Grossman, Sylvain V. Costes, Matias Fuentealba, Ryan T. Scott, Andrea Magrini, Lauren M. Sanders, Kanhaiya Singh, Chandan K. Sen, Cassandra M. Juran, Amber M. Paul, David Furman, Jean Calleja-Agius, Christopher E. Mason, Diego Galeano, Massimo Bottini, and Afshin Beheshti

Subjects

Biology (General), QH301-705.5

Abstract

Abstract In the era of renewed space exploration, comprehending the effects of the space environment on human health, particularly for deep space missions, is crucial. While extensive research exists on the impacts of spaceflight, there is a gap regarding female reproductive risks. We hypothesize that space stressors could have enduring effects on female health, potentially increasing risks for future pregnancies upon return to Earth, particularly related to small-for-gestational-age (SGA) fetuses. To address this, we identify a shared microRNA (miRNA) signature between SGA and the space environment, conserved across humans and mice. These miRNAs target genes and pathways relevant to diseases and development. Employing a machine learning approach, we identify potential FDA-approved drugs to mitigate these risks, including estrogen and progesterone receptor antagonists, vitamin D receptor antagonists, and DNA polymerase inhibitors. This study underscores potential pregnancy-related health risks for female astronauts and proposes pharmaceutical interventions to counteract the impact of space travel on female health.

Published

2024

6. The Antarctic Seismographic Argentinean Italian Network (ASAIN): Recording Earthquakes in the Scotia Sea Region

Author

Paolo Comelli, Andrea Magrin, Marco Santulin, Damiano Pesaresi, D. Sandron, Monica Sugan, Roberto Laterza, Stefano Parolai, Milton Percy Plasencia Linares, P. Bernardi, Alessandro Vuan, Claudio Cravos, Maurizio Grossi, Plasencia Linares, Mp, Cravos, C, Laterza, R, Bernardi, P, Comelli, P, Grossi, M, Magrin, A, Pesaresi, D, Sandron, D, Santulin, M, Sugan, M, Vuan, A, and Parolai, S

Subjects

Geophysics, Oceanography, ASAIN, 010504 meteorology & atmospheric sciences, Antarctica, seismic network, 010502 geochemistry & geophysics, 01 natural sciences, Geology, Scotia sea, 0105 earth and related environmental sciences

Abstract

The Antarctic Seismographic Argentinean Italian Network (ASAIN) is a permanent broadband seismic network that has operated since 1995 in the Scotia Sea region, the Antarctic peninsula, and the polar area. It was deployed and is managed in the framework of cooperation between the National Institute of Oceanography and Applied Geophysics and Dirección Nacional del Antártico–Instituto Antártico Argentino and is financially supported by the Programma Nazionale di Ricerca in Antartide. The network consists of seven seismological stations with broadband sensors. ASAIN provides data to Incorporated Research Institutions for Seismology, Observatories and Research Facilities for European Seismology, and GEOFOrschungsNetz. It improves the worldwide seismic networks’ detection capabilities and contributes to refining regional earthquake locations released by the U.S. Geological Survey. The proximity of the seismic stations to the Antarctic continent and their continuous operation in the long term also allows for having a privileged observatory on the ice-related seismicity along the Antarctica peninsula. In this article, we discuss the historical development of ASAIN, its current configuration, and the main characteristics of the seismic stations. Finally, we also provide information on the ASAIN data exchange and the contribution to the scientific research in Antarctica.

Published

2021

7. Nanomaterials and security in occupational and forensic medicine: insights from nanotoxicology

Author

Lang Tran, Michele Treglia, Luca Coppeta, Cristiana Ferrari, Margherita Pallocci, Luisa Campagnolo, Luiz C. De Miranda Junior, Bruno Piccoli, Sharyn Gaskin, Francisco Cortes Fernandes, Fabio Dantas Filho, Pierluigi Passalacqua, Antonio Pietroiusti, Lorenzo Ippoliti, Mario Bragaglia, Francesca Nanni, Andrea Magrini, and Luigi Tonino Marsella

Subjects

nanobombs, occupational medicine, thermobaric, forensic medicine, nanotoxicology (NT), Toxicology. Poisons, RA1190-1270

Abstract

Nanoenergetics are defined as a class of nanomaterials that possess the ability to release energy in certain situations. These properties have been studied and deepened in recent years, so much so that nanoenergetics have been introduced into the use of the weapons industry, among others. It is therefore an emerging reality that deserves attention with regard to potential harmful effects on human and environmental health. it has been suggested that nanoenergetics may have genotoxic and immunotoxic effects, among others. Problems related to exposure to nanonenergetics can therefore potentially affect both exposed workers (both in the production and use phase) and the civilian population, if used in war scenarios, for example,. Starting from these assumptions, the INNOTOX research project aims to contribute to the in-depth study of the toxicity of nanonenergetics, through an integrated approach involving experts in occupational and forensic medicine, nanotoxicology and bioengineering.

Published

2024

8. Adria-Eurasia collision front: insights from GNSS time series in NE Italy

Author

Andrea Magrin, Lavinia Tunini, David Zuliani, and Giuliana Rossi

Abstract

North-Eastern Italy is a region of particular interest in tectonics because it is located on the northernmost edge of the convergent margin between Eurasia and the Adria microplate with consequences on the regional deformation and seismicity. The FReDNet (Friuli Venezia Giulia Deformation Network) GNSS network was established in 2002 to monitor the crustal deformation in NE-Italy and it is currently counting 19 permanent GNSS stations. In order to place the regional deformation in a broader tectonic context, we processed the data from FReDNet and other geodetic networks covering northern Italy and surrounding areas (including some sites in Slovenia and Austria) in the period 2002-2021. We used the GAMIT-GLOBK software ver10.71 to process multi-satellite data and to calculate the position and velocity for each station. We processed the whole dataset by using Galileo and G100 CINECA HPC clusters. In this study, we will show the processing strategies and analyze the GNSS time-series of NE-Italy stations, as well as the outcoming deformation field. The preliminary results confirm the decrease in the velocity module from the Friuli plain toward the Alps, suggesting a possible deformation accrual in the latter.This research was supported by OGS and CINECA under HPC-TRES program award number 2020-11. We acknowledge the CINECA award under the ISCRA initiative, for the availability of high performance computing resources and support (IscraC IsC83_GPSIT).

Published

2022

9. Cost-effective GNSS sensors applied for crustal deformation purposes: insights from an experiment in NE-Italy

Author

Lavinia Tunini, David Zuliani, and Andrea Magrin

Abstract

The global data coverage of the Global Navigation Satellite Systems (GNSS) provides a fundamental and unique dataset for a wide range of applications, such as crustal deformation, topographic measurements, or near surface processes studies. However, a strong limitation is represented by the high costs of the GNSS receivers and the supporting software, which make them available only by the scientific communities capable of affording them. The GNSS technology has been continuously and rapidly growing and, in recent years, new cost-efficient (low-cost) instruments have entered the mass market, gaining the attention of the scientific community for potentially being high-performing alternative solutions. In this study, we matched in parallel a dual-frequency cost-effective receiver (u-blox ZED F9P) and two high-cost receivers, all connected to the same geodetic-class antenna. We tested the system by processing the data together with the observations coming from a network of GNSS permanent stations operating in North-East Italy. We compare the time-series obtained using cost-effective geodetic equipment with those obtained using geodetic-class instruments. We show that mm-order precision can be achieved by cost-effective GNSS receivers, while the results in terms of time series are largely comparable to those obtained using high-price geodetic receivers.

Published

2022

10. Regional application of the NDSHA approach for continental seismogenic sources in the Iberian Peninsula

Author

Fabio Romanelli, Franco Vaccari, Mariano García-Fernández, Giuliano F. Panza, Andrea Magrin, María José Vela Jiménez, Giuliano Panza, Vladimir Kossobokov, Efraim Laor, Benedetto DeVivo, García-Fernández, Mariano, Vaccari, Franco, Jiménez, María-José, Magrin, Andrea, Romanelli, Fabio, and Panza, Giuliano F.

Subjects

Seismic Hazard Assessment, Peak ground acceleration, geography, geography.geographical_feature_category, Seismicity, Induced seismicity, Displacement (vector), NDSHA, Peninsula, Iberian Peninsula, Scale (map), Seismogram, Seismic hazard assessment, Seismology, Geology

Abstract

In recent years, probabilistic seismic hazard assessment (PSHA) has been the most common procedure to evaluate the potential effects of future earthquakes. It assesses the probability that some measure of ground motion intensity (e.g., the peak ground acceleration) exceeds some threshold during a given period of time (most commonly 10% in 50 years’time). In Europe and the Mediterranean region, different efforts starting in the 1990s have provided several regional hazard models at the continental scale (e.g., Jiménez et al., 1999, 2001; Giardini et al., 2003) with the latest model in Woessner et al. (2015) deriving a complete set of harmonized seismic hazard results and associated uncertainties for Europe. Site studies for nuclear power plants were the onset for the development of seismic hazard in Spain at the beginning of the 1970s. At that time, the existing regulations demanded classical deterministic analysis. Therefore, only a few works included either statistical or probabilistic approaches, which later on were widely applied in most of the regional hazard studies carried out in Spain in the 1980s and 1990s (see, e.g., Martín, 1984; Muñoz et al., 1984; Litehiser and Marrone, 1991, among others). It was for the first time in 1994 when the update of the Spanish Building Code incorporated a probabilistic seismic hazard map to define the basic seismic action (Martín, 1995). Studies incorporating alternative statistical analysis, including Bayesian techniques, of hazard parameters were also applied in the last 1980s and early 1990s (see, e.g., García-Fernández et al., 1989; Egozcue et al., 1991)

Published

2022

11. Contributors

Author

Tahmeed M. Al-Hussaini, Giorgio Altin, Bogdan Felix Apostol, N. Seth Carpenter, Sudipta Chakraborty, Ishika N. Chowdhury, Gian Paolo Cimellaro, Carmen Ortanza Cioflan, Maria Rosaria Costanzo, Mattia Crespi, Melissa De Iuliis, Benedetto De Vivo, Zhifeng Ding, Elena Dumova-Jovanoska, Mohamed N. Elgabry, Lihua Fang, Hasan al Faysal, Shanghua Gao, Mariano García-Fernández, Alexander Gorshkov, Hany M. Hassan, Hesham Hussein, Maurizio Indirli, Irwandi Irwandi, Junbo Jia, Changsheng Jiang, María-José Jiménez, Jens-Uwe Klügel, Vladimir Kossobokov, Mihaela Kouteva-Guentcheva, Efraim Laor, Andrea Magrin, Elena Florinela Manea, Sebastiano Marasco, Sokol Marku, Kristina Milkova, Lalliana Mualchin, Concettina Nunziata, Rapo Ormeni, Giuliano F. Panza, Imtiyaz A. Parvez, Ivanka Paskaleva, Antonella Peresan, Habib Rahimi, Mehdi Rastgoo, Giuseppe Rolandi, Fabio Romanelli, Leontina Romashkova, Paolo Rugarli, Farhana Sarwar, Alexander Soloviev, Franco Vaccari, Zhenming Wang, Edward W. Woolery, Zhongliang Wu, and Yan Zhang

Published

2022

12. Limitations and consequences of public health models centred on hospitals and lacking connections with territorial and home-based social and health services

Author

Lavinia Gentile, Martina Scaramella, Giuseppe Liotta, Andrea Magrini, Maria Franca Mulas, Giuseppe Quintavalle, and Leonardo Palombi

Subjects

Frequent users, Emergency Department, Emergency Room, Public Health Model, Triage, Social frailty, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background Delayed discharge from hospital to home or other care institutions is a significant problem and has been investigated in the international scientific literature for many years. Behind this condition is a health care system based on a hospital-centered concept characterized by a lack of territorial health and social welfare services. This phenomenon causes two different problems: an excessive length of hospital stay, resulting in slow turnover of bed utilization; and overcrowding in emergency rooms (ERs). The phenomenon of frequent users assumes particular importance in this context. These patients repeatedly visit the emergency department (ED) in the same year because care needs are not met by primary care services. The authors in this study tried to describe the Frequent users (FUs) population and the variables associated with this condition. Materials and methods A retrospective "single-arm" descriptive study was conducted by analysing all accesses made to the ED of Policlinico Tor Vergata (PTV) from January 1, 2022, to December 31, 2022. FUs were defined as patients who had 4 or more accesses to PTV ER during the year. Results A total of 37,800 accesses occurred during the study period. A total of 31,691 users accessed the PS, with a mean age of 55.8 ± 22.2 years. There were 359 FU patients (approximately 1%) who had a total of 1984 accesses, corresponding to 5.2% of the total accesses. The triage codes for the FU patients were red, 2%; orange, 21%; blue, 45%; green, 26%; white, 5%; and not performed, 1%. Considering the 1984 FU accesses, the most frequently attributed "main problems" in the ED were "other symptoms or disorders" (54%), "psychomotor agitation" (12%), "trauma or burn" (8%), "abdominal pain" (6%), "chest pain" (4%), "dyspnea" (4%) and "urological symptoms or disorders" (4%). Multivariate analysis revealed that the main determinants of FUs were psychomotor agitation (HR = 7,23; CL95%:6,194–8,443), urological disorders (HR = 2,16; CL95%:1,68–2,76) and poor socioeconomic status (HR = 2,40; CL95%:2,213–2,663). Conclusions The FUs phenomenon expresses an area of health and social distress where poverty and lack of territorial services oblige people to refer to the ED. Primary care interventions integrated with social support are crucial for managing access to the ED.

Published

2024

13. Seismic Site Response Characterization for Suez Canal Region, Egypt

Author

Franco Vaccari, Mohamed N. ElGabry, Hany M. Hassan, Fabio Romanelli, Guiliano Panza, Andrea Magrin, Shehata Hany, Badr Mona, Elgabry, Mohamed, Hassan, Hany M., Vaccari, Franco, Magrin, Andrea, Romanelli, Fabio, and Panza, Guiliano

Subjects

geography, Focal mechanism, geography.geographical_feature_category, Bedrock, Ambient noise level, Suez canal, Seismic Hazard, Seismic Input, Displacement (vector), Acceleration, Seismic hazard, Lithosphere, Geology, Seismology

Abstract

The Suez Canal Economic Zone (SCZone) is a mega project in Egypt that was launched to increase the role of the Suez Canal region in international trading and to develop the urbanization of the region. The reliable assessment of seismic hazard is a crucial input information for the designer and planner of all projects in this area. In this study, an updated seismic hazard map for Suez Canal region that incorporates revised historical earthquake catalogs, morphostructural zonation data (MZ), revised focal mechanism solutions and mechanical models of the lithospheric structure is provided. This is done within the framework of the Neo-Deterministic Seismic Hazard Assessment (NDSHA) procedure that may efficiently incorporate earthquake source rupture data, geological information and any reliable new information to adequately compute the earthquake ground motion maps, like PGA, PGV and PGD. This methodology provides a comprehensive source of ground motion records (acceleration, velocity, displacement) for Egypt where a substantial challenge is posed by the lack of recorded data. To consistently assess the uncertainty of our understanding of the seismic hazard and its effect on critical structures a sensitivity analysis is performed varying, for example, (a) source focal mechanism, (b) directivity (c) rupture process and (d) seismotectonic model. Starting from the initial definition of the source, bedrock and site properties based on the available knowledge of the characteristics of the different earthquake scenarios and of the soil structural properties of the area deduced from the ambient noise array measurements, a set of ground shaking scenarios have been computed at the selected profile crossing the Suez Canal. Variations of the ground shaking scenarios are evaluated looking basically at: (a) the amplitudes measured on the waveforms and the response spectra, (b) the changes in the shaking duration and (c) the modifications in the amplification patterns. Finally, the seismic input (e.g. response spectra, time histories) at the tunnel site that undergoes the Suez Canal to connect Sinai peninsula with the western side of the country is provided.

Published

2021

14. Neo-deterministic seismic hazard assessment studies for Bangladesh

Author

Franco Vaccari, Sudipta Chakraborty, Andrea Magrin, Hasan al Faysal, Ishika N. Chowdhury, Fabio Romanelli, T.M. Al-Hussaini, Giuliano Panza, Vladimir Kossobokov, Efraim Laor, Benedetto DeVivo, Al-Hussaini, Tahmeed M., Chowdhury, Ishika N., al Faysal, Hasan, Chakraborty, Sudipta, Vaccari, Franco, Romanelli, Fabio, and Magrin, Andrea

Subjects

Bangladesh, MCSI, Wave propagation, Earth structure, MCSI, spectral acceleration, Process (computing), seismic hazard, Induced seismicity, engineering.material, Spectral acceleration, seismicity, seismic hazard, seismic zoning map, Seismic hazard, spectral acceleration, NDSHA, design ground acceleration, scenario earthquake, Building code, engineering, seismicity, Zoning, Geology, Seismology

Abstract

The neo-deterministic seismic hazard assessment (NDSHA), developed at the University of Trieste (UT), has emerged as an attractive tool for predicting the ground motion for given seismic sources and known earth structure. This method, a computationally intensive procedure, is based on physical modeling of wave propagation and seismic source process. Under ongoing research and academic collaboration program between UT and BUET, NDSHA studies have been performed for Bangladesh. This chapter briefly presents significant results obtained under this initiative. Results obtained are compared with the seismic zoning map in the updated Bangladesh National Building Code (BNBC-2020). The seismicity and seismo-tectonics of Bangladesh and the adjoining region are also briefly discussed.

Published

2021

15. The OGS–Northeastern Italy Seismic and Deformation Network: Current Status and Outlook

Author

Paolo Fabris, Elvio Del Negro, Andrea Magrin, Pier Luigi Bragato, Giuliana Rossi, Michele Bertoni, Maurizio Grossi, G. Bressan, P. Bernardi, S. Urban, Milton Percy Plasencia Linares, Elisa Venturini, Stefano Parolai, Lavinia Tunini, Valerio Poggi, Paolo Di Bartolomeo, Chiara Scaini, David Zuliani, Alessio Compagno, Damiano Pesaresi, A. Snidarcig, Marco Romanelli, Luca Moratto, Monica Sugan, Carla Barnaba, Paolo Comelli, Bojana Petrovic, Enrico Magrin, Marco Garbin, A. Saraò, Pl, Bragato, P, Comelli, A, Saraò, D, Zuliani, L, Moratto, V, Poggi, G, Rossi, C, Scaini, M, Sugan, C, Barnaba, P, Bernardi, M, Bertoni, G, Bressan, A, Compagno, E, Del Negro, P, Di Bartolomeo, P, Fabri, M, Garbin, M, Grossi, A, Magrin, E., Magrin, D, Pesaresi, B, Petrovic, M, Plasencia Linare, M, Romanelli, A, Snidarcig, L, Tunini, S, Urban, E, Venturini, and Parolai, S

Subjects

010504 meteorology & atmospheric sciences, SMINO, Deformation (meteorology), 010502 geochemistry & geophysics, 01 natural sciences, Geophysics, OGS, seismic network, Current (fluid), Geology, Seismology, 0105 earth and related environmental sciences

Abstract

In this article, we describe the infrastructure developed and managed by the Italian National Institute of Oceanography and Applied Geophysics – OGS for the seismological and geodetic monitoring of northeastern Italy. The infrastructure was constituted in response to the ML 6.4 Friuli destructive earthquake of 1976, with the main mandate of supporting civil protection emergency activities. The OGS monitoring infrastructure is presently composed of a seismometric and a strong-motion network, complemented by a number of Global Navigation Satellite Systems stations, each delivering observational data in real time, which are collected and processed by the headquarters of the Center for Seismological Research of OGS in Udine. The OGS networks operate in close cooperation with Italian and international networks from neighboring countries, within the framework of the agreements for real-time data exchange, to obtain improved rapid earthquake location and magnitude estimations. Information regarding seismic events is released to the public through a dedicated web portal and, since 2013, through social media. Aside from the standard monitoring activities (>30,000 events have been recorded since 1976), the OGS has progressively increased the number of services to the public and to the Civil Protection of the Friuli Venezia Giulia and Veneto regions. The high availability of good quality data has resulted in the enhancement of scientific products, including advanced seismological studies of the area, spanning broadly from seismic source characterization to engineering seismology. In the future, the OGS networks are expected to further contribute to the development of seismological research and monitoring infrastructures of the Central European region.

Published

2021

16. Multi-Frequency Aeroelastic ROM for Transonic Compressors

Author

Marco Casoni, Andrea Magrini, and Ernesto Benini

Subjects

flutter, compressor, aeroelasticity, reduced order model, reduced frequency, aerodynamic damping, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

The accurate prediction of the aeroelastic behavior of turbomachinery for aircraft propulsion poses a difficult yet fundamental challenge, since modern aircraft engines tend to adopt increasingly slender blades to achieve a higher aerodynamic efficiency, incurring an increased aeroelastic interaction as a drawback. In the present work, we present a reduced order model for flutter prediction in axial compressors. The model exploits the aerodynamic influence coefficients technique with the adoption of a broadband frequency signal to compute the aerodynamic damping for multiple reduced frequencies using a single training simulation. The normalized aerodynamic work is computed for a single oscillation mode at three different vibration frequencies, comparing the outputs of aerodynamic input/output models trained with a chirp signal to those from single-frequency harmonic simulations. The results demonstrate the ability of the adopted model to accurately and efficiently reproduce the aerodynamic damping at multiple frequencies and arbitrary nodal diameters with a single simulation.

Published

2024

17. Deriving a New Crustal Model of Northern Adria: The Northern Adria Crust (NAC) Model

Author

Giuliana Rossi and Andrea Magrin

Subjects

010504 meteorology & atmospheric sciences, Lithology, Moho geometry, Inversion (geology), Crust, 3d model, 010502 geochemistry & geophysics, 01 natural sciences, Shear modulus, geophysical properties, General Earth and Planetary Sciences, lcsh:Q, lcsh:Science, Northern Adria microplate, uncertainty analysis, Geology, Uncertainty analysis, Seismology, 0105 earth and related environmental sciences, Interpolation, crustal model

Abstract

We presented a new 3D model of the geophysical properties of the crust (namely depth of the Moho and VP, VS, density, Young’s modulus, and shear modulus) of the northern tip of the Adria microplate that we called NAC (Northern Adria Crust). The horizontal dimensions of the physical properties variations are optimized at 5 × 5 km and the vertical dimension at 1 km. NAC has been built by critically choosing and integrating all available information about the depth of the main interfaces and the physical properties of the crust. We started from a VP dataset, and we converted it in VS and density by using empirical relations, tuned through the comparison with the available data from local tomographic inversion, and taking into account the lithologies of the area. Uncertainties and reliability of the model are quantified, taking into account the data quality and the interpolation procedure. NAC has two versions, different in the structure of the Moho interface: the first considers one continuous surface for the whole area, while the second implies three separate surfaces for the Adria microplate, Eurasia, and the Pannonian fragment. The differences between the two models are minimal, but the available data better sustain the solution of the fragmented crust. For its characteristics of multiparametric information and resolution, NAC can be precious for any purpose and use where a detailed knowledge of the crustal structure of this area is required. Moreover, it is easy to improve NAC, including new information on the crustal structures, when they will be available.

Published

2020

18. Pulmonary function assessment after COVID-19 in vaccinated healthcare workers

Author

Lorenzo Ippoliti, Luca Coppeta, Giuseppina Somma, Giuseppe Bizzarro, Francesco Borelli, Teresa Crispino, Cristiana Ferrari, Ilaria Iannuzzi, Andrea Mazza, Agostino Paolino, Andrea Magrini, and Antonio Pietroiusti

Subjects

COVID-19, Spirometry, Vaccination, Respiratory function, Healthcare workers, SARS-CoV-2, Industrial medicine. Industrial hygiene, RC963-969

Abstract

Abstract COVID-19 typically presents with flu-like symptoms due to the viral infection itself. The most severe cases are characterised by lung damage, an important factor in fatal outcome due to alveolar damage. In some cases, patients develop a long COVID with persistent symptoms of chest pain and fatigue. Causes, including organ damage or inflammation, are being investigated. Clinical outcomes are variable and permanent lung damage is not fully understood, while vaccination is effective against severe infection but its effect on respiratory function in mild cases remains uncertain. This retrospective study aims to analyse changes in lung function in HCWs who had COVID-19 between 2020 and 2022, comparing their spirometric test results before and after the pandemic and taking into account their vaccination status. 321 HCWs were included in the study. The study examined spirometric parameters both before and after the pandemic, and all measured outcomes except the FEV1/FVC ratio showed a significant decrease during the study period. We then assessed the association between SARS-CoV-2 infection and changes in lung function parameters, analysing infections in 2020, 2021 and 2022 separately. We found a statistically significant difference in Forced vital capacity (FVC) between infected and non-infected subjects in 2020 and 2021, but not in 2022. To evaluate the protective effect of SARS-CoV-2 vaccination on respiratory function, a linear regression analysis was performed using changes in FVC, Forced expiratory volume in 1 s (FEV1), FVC/FEV1 ratio and Peak expiratory flow (PEF) as dependent variables. The analysis showed that the decline in FVC was significantly lower in subjects who had been vaccinated prior to infection. The study concludes that subclinical SARS-CoV-2 infections in 2020 and 2021 worsened respiratory parameters (FVC and FEV1), but vaccination protected against these effects. Even healthy individuals with previous infections showed respiratory changes, with vaccination providing protection, especially for FVC decline. This highlights the importance of vaccinating healthcare workers against COVID-19.

Published

2023

19. Neo-deterministic seismic hazard scenarios for India—a preventive tool for disaster mitigation

Author

Giuliano F. Panza, Ramees R. Mir, Andrea Magrin, Imtiyaz A. Parvez, Ashish, Franco Vaccari, Antonella Peresan, Parvez, Imtiyaz A., Magrin, Andrea, Vaccari, Franco, Ashish, Mir, Ramees R., Peresan, Antonella, and Panza, Giuliano Francesco

Subjects

Peak ground acceleration, Seismic microzonation, 010504 meteorology & atmospheric sciences, Ground motion, India, Disaster mitigation, 010502 geochemistry & geophysics, 01 natural sciences, Incremental Dynamic Analysis, NDSHA, Seismic hazard, Geophysics, Geochemistry and Petrology, Seismic wave, Earthquake scenario, Earthquake simulation, Geophysic, Seismogram, Seismology, Geology, 0105 earth and related environmental sciences

Abstract

Current computational resources and physical knowledge of the seismic wave generation and propagation processes allow for reliable numerical and analytical models of waveform generation and propagation. From the simulation of ground motion, it is easy to extract the desired earthquake hazard parameters. Accordingly, a scenario-based approach to seismic hazard assessment has been developed, namely the neo-deterministic seismic hazard assessment (NDSHA), which allows for a wide range of possible seismic sources to be used in the definition of reliable scenarios by means of realistic waveforms modelling. Such reli- able and comprehensive characterization of expected earthquake ground motion is essential to improve building codes, particularly for the protection of critical infrastructures and for land use planning. Parvez et al. (Geophys J Int 155:489–508, 2003) published the first ever neo-deterministic seismic hazard map of India by computing synthetic seismograms with input data set consisting of structural models, seismogenic zones, focal mechanisms and earthquake catalogues. As described in Panza et al. (Adv Geophys 53:93–165, 2012), the NDSHA methodology evolved with respect to the original formulation used by Parvez et al. (Geophys J Int 155:489–508, 2003): the computer codes were improved to better fit the need of producing real- istic ground shaking maps and ground shaking scenar- ios, at different scale levels, exploiting the most significant pertinent progresses in data acquisition and modelling. Accordingly, the present study supplies a revised NDSHA map for India. The seismic hazard, expressed in terms of maximum displacement (Dmax), maximum velocity (Vmax) and design ground acceleration (DGA), has been extracted from the synthetic signals and mapped on a regular grid over the studied territory.

Published

2017

20. Author Correction: To boldly go where no microRNAs have gone before: spaceflight impact on risk for small-for-gestational-age infants

Author

Giada Corti, JangKeun Kim, Francisco J. Enguita, Joseph W. Guarnieri, Lawrence I. Grossman, Sylvain V. Costes, Matias Fuentealba, Ryan T. Scott, Andrea Magrini, Lauren M. Sanders, Kanhaiya Singh, Chandan K. Sen, Cassandra M. Juran, Amber M. Paul, David Furman, Jean Calleja-Agius, Christopher E. Mason, Diego Galeano, Massimo Bottini, and Afshin Beheshti

Subjects

Biology (General), QH301-705.5

Published

2024

21. Neo-Deterministic Scenario-Earthquake Accelerograms and Spectra: A NDSHA Approach to Seismic Analysis

Author

Giuliano F. Panza, Franco Vaccari, Fabio Romanelli, Claudio Amadio, Marco Fasan, Antonella Peresan, Paolo Rugarli, Andrea Magrin, Junbo Jia, Jeom Kee Paik, Rugarli, Paolo, Amadio, Claudio, Peresan, Antonella, Fasan, Marco, Vaccari, Franco, Magrin, Andrea, Romanelli, Fabio, and Panza, Giuliano F.

Subjects

Quake (natural phenomenon), Seismic hazard, Safety factor, Process (engineering), Magnitude (mathematics), Scale (map), Geology, Seismology, Seismic wave, Seismic analysis

Abstract

The Neo-Deterministic Seismic Hazard Assessment (NDSHA) procedure for the development of seismic hazard maps at the regional scale has been validated by all the events occurred in regions where NDSHA maps were available at the time of the quake. NDSHA method reliably and realistically simulates the wide suite of earthquake ground motions that may impact civil populations as well as their heritage buildings. The scenario based NDSHA’s modeling technique is developed from comprehensive physical knowledge of: (i) the seismic source process; (ii) the propagation of earthquake waves; and (iii) their combined interactions with site effects. A useful safety factor conceptually similar to the ones used in structural engineering can be used to set the estimated magnitude of the scenario events. Using the signals generated by NDSHA, well rooted on the fundamental laws of physics and on the experimental evidence, a number of possible structural engineering approaches become available.

Published

2018

22. Antimicrobial resistance in the times of COVID-19 in a roman teaching hospital

Author

Carla Fontana, Marco Favaro, Silvia Minelli, Maria Cristina Bossa, Anna Altieri, Mariagrazia Celeste, Chiara Pennacchiotti, Loredana Sarmati, Massimo Andreoni, Carmela Cucchi, and Andrea Magrini

Subjects

antimicrobial resistance, hospital infection, covid-19, mdro, alert organism, Biotechnology, TP248.13-248.65, Life, QH501-531

Abstract

Objective: A troublesome implication of the COVID-19 pandemic has been an increased incidence of antimicrobial resistance. Implementation of containment measures, surveillance and monitoring of multiresistant microorganisms and/or alert organisms (MDROs_AL) should be strengthened. Here, we present the results of our observational study in which the isolation trend of MDROs_AL was compared over several quarters before and during the SARS-CoV-2 pandemic (2019-2020). Results: Although in our hospital the number of hospital admissions decreased significantly during the SARS-CoV-2 pandemic (due to the conversion of our hospital to a COVID hospital), the incidence rate of MDRO_AL infection increased from 18.0–34.6. (incidence rate) Among the MDROs_AL, A. baumannii, carbapenem-resistant enterobacteria, staphylococci/streptococci-MLSB, intermediate/glycopeptide-resistant coagulase-negative staphylococci and vancomycin-resistant enterococci were the most represented.

Published

2022

23. Measles vaccine uptake among Italian medical students compared to the pre-COVID-19 era

Author

Cristiana Ferrari, Giuseppina Somma, Ole Olesen, Ersilia Buonomo, Matteo Pasanisi Zingarello, Andrea Mazza, Stefano Rizza, Luca Di Giampaolo, Andrea Magrini, Francesca Ponzani, and Luca Coppeta

Subjects

measles, measles vaccine, outbreak, vaccination, healthcare workers, medical students, covid-19, sars-cov-2 pandemic, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950

Abstract

The COVID-19 pandemic has severely affected health systems worldwide and raised the issue of vaccine hesitancy. In 2022, the World Health Organization reported an outbreak of measles infection among people over 20 years of age in the European Region. Previous studies found low rates of measles immunization among Italian healthcare workers (HCWs) and medical students. Vaccine hesitancy is a relevant cause of low immunization rate among HCWs and the general population. We aim to evaluate the measles vaccine uptake among medical students of a large teaching hospital, compared to the pre-pandemic period. This is a retrospective observational study, that evaluated the immune status and the vaccine acceptance rate for measles in medical students at the University of Tor Vergata, Rome, who underwent occupational health surveillance from 1 January to 1 December 2022. We also compared the data with the results of a pre-pandemic survey conducted in 2018. Vaccine uptake among unprotected medical students was 59.5%. The data showed no significant difference in vaccine uptake compared with the pre-COVID-19 period. Conversely, the rate of serologically immune subjects to measles increased from 89.66% in 2018 to 97.45% in 2022 as a result of the recent mandatory vaccination policy. Despite efforts to tackle vaccine hesitancy during the COVID-19 pandemic, measles vaccine uptake is still low among young adults starting their medical training, and their compliance with free workplace vaccination offers is suboptimal. Occupational health services should raise awareness among workers and work together to implement strategies to achieve comprehensive measles vaccination coverage among occupational health workers.

Published

2023

24. Update and sensitivity analysis of the neo-deterministic seismic hazard assessment for Egypt

Author

Mohamed N. ElGabry, Giuliano F. Panza, Andrea Magrin, Hany M. Hassan, Fabio Romanelli, Hassan, Hany M., Romanelli, Fabio, Panza, Giuliano F., Elgabry, Mohamed N., and Magrin, Andrea

Subjects

Hazard (logic), Focal mechanism, Seismic microzonation, 010504 meteorology & atmospheric sciences, Geology, Neo-deterministic seismic hazard assessment, Sensitivity analysis, Potential uncertainty, Morphostructural zonation, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Incremental Dynamic Analysis, Earthquake scenario, Morphostructural zonation, Seismic hazard, Earthquake simulation, Neo-deterministic seismic hazard assessment, Sensitivity analysis, Seismogram, Seismology, Potential uncertainty, 0105 earth and related environmental sciences

Abstract

The main goal of this work is to provide an update on the seismic hazard maps available for Egypt that incorporates the results of recent studies, i.e. revised historical earthquake catalogs, morphostructural zonation data (MZ), revised focal mechanism solutions and mechanical models of the lithospheric structure. This is done within the framework of the neo-deterministic seismic hazard assessment (NDSHA) procedure that may effectively accommodate any reliable new information to adequately compute the earthquake ground motion maps (i.e. PGA, PGV and PGD). Furthermore, with the set of relevant scenario earthquakes, this work provides a large dataset of synthetic seismograms, particularly important for the areas that suffer from the endemic lack of useful strong motion time histories such as Egypt, setting the base toward detailed and comprehensive seismic microzonation studies. NDSHA aims to supply an envelope value, in other words a value that should not be exceeded, therefore it is immediately falsifiable and verifiable. A sensitivity analysis based on the different ground motion maps, computed adopting different (a) models for the earthquake source process, (b) mechanical models of the crust and (c) mapmaker's preconceptions (e.g. different seismotectonic models), is provided. The maps of difference and ratio between various ground motion maps computed for different variants are shown and discussed in order to explore the influence of using various input models. The results provide the potential users with an adequate spectrum of choices and reliably assess and clearly communicate the possible uncertainties. The availability of a wide spectrum of hazard maps is a prerequisite to supply valuable information for the significant improvement of a seismic code.

Published

2017

25. Broadband NDSHA computations and earthquake ground motion observations for the Italian territory

Author

Fabio Romanelli, Franco Vaccari, Giuliano F. Panza, Alexander A. Gusev, Andrea Magrin, Magrin, Andrea, Gusev, A. A., Romanelli, Fabio, Vaccari, Franco, and Panza, G. F.

Subjects

ground motion observation, Peak ground acceleration, Computation, synthetic seismograms, scaling law for source spectra, SLSS, modal summation, strong motion estimation, ground motion prediction equation, GMPE, NDSHA, earthquake scenarios, modelling, seismic hazard, ground motion observations, Italy, Scale (descriptive set theory), Spectral acceleration, Spectral line, synthetic seismogram, Broadband, earthquake scenario, Attenuation, General Medicine, Geodesy, Geography, Seismic hazard, Seismology

Abstract

The aim of this work is two-fold: 1) to compare the results of national scale NDSHA modelling for the Italian region at 10 Hz cut-off, based on the relevant available knowledge, with observations (e.g., peak ground motion values) and existing empirical attenuation relations; 2) to update the scaling law for source spectra (SLSS) to be used for the selected area. The new set of source spectra, defined along the lines suggested by the comparison with empirical attenuation relations, produces acceptable results in terms of PGV and spectral acceleration at long periods. Synthetic PGA and SA at short periods show a faster attenuation with respect to the observed ones and, therefore, the effect of complex attenuation factors should be explored in future ad hoc studies.

Published

2016

26. Neo-deterministic Definition of Seismic and Tsunami Hazard Scenarios for the Territory of Gujarat (India)

Author

Stefano Cozzini, D. Bisignano, B. K. Rastogi, Fabio Romanelli, Franco Vaccari, Giuliano Panza, Imtiyaz A. Parvez, A. Peresan, Ashish, Ramees R. Mir, Ketan Singha Roy, Pallabee Choudhury, Andrea Magrin, D'Amico, Sebastiano, A. Margin, I. A. Parvez, Vaccari, Franco, Peresan, Antonella, Rastogi, B. K., Cozzini, S., Bisignano, Davide, Romanelli, Fabio, Ashish, Choudhury, Pallabee, Roy, K. S., Mir, R. R., and Panza, Giuliano

Subjects

Deterministic algorithm, Attenuation, Stability (learning theory), Range (statistics), Land-use planning, Seismic hazard assessment NDSHA PSHA Tsunami modelling Gujarat, Scale (map), Seismic hazard assessment, Geology, Seismology, Seismic wave

Abstract

A reliable and comprehensive characterization of expected seismic ground shaking is essential to improve building codes, particularly for the protection of critical infrastructures and for land use planning. So far, one of the major problems in classical methods for seismic hazard assessment consisted in the adequate characterization of the attenuation models, which may be unable to account for the complexity of the medium and of the seismic sources and are often weakly constrained by the available observations. Current computational resources and physical knowledge of the seismic waves generation and propagation processes allow nowadays for viable numerical and analytical alternatives to the use of attenuation relations. Accordingly, a scenario-based approach to seismic hazard assessment has been developed, namely the neo-deterministic approach (NDSHA), which allows considering a wide range of possible seismic sources as the starting point for deriving scenarios by means of full waveforms modelling. The method does not make use of attenuation relations and, thanks to advanced computational infrastructures, permits to carry on parametric analysis and stability tests that contribute characterizing the related uncertainties, as well as to fill in the unavoidable gaps in available observations. Results from preliminary application of NDSHA method to regional scale seismic hazard assessment (ground motion at bedrock) and tsunami scenarios modelling for the Gujarat territory are illustrated. The resulting estimates are compared with available information about intensities from past earthquakes, as well as with recently developed probabilistic seismic hazard map of Gujarat.

Published

2015

27. Do Media Extracellular Vesicles and Extracellular Vesicles Bound to the Extracellular Matrix Represent Distinct Types of Vesicles?

Author

Saida Mebarek, Rene Buchet, Slawomir Pikula, Agnieszka Strzelecka-Kiliszek, Leyre Brizuela, Giada Corti, Federica Collacchi, Genevieve Anghieri, Andrea Magrini, Pietro Ciancaglini, Jose Luis Millan, Owen Davies, and Massimo Bottini

Subjects

media extracellular vesicles, matrix vesicles, cell-cell communication, biomineralization, collagenase, ultracentrifugation, Microbiology, QR1-502

Abstract

Mineralization-competent cells, including hypertrophic chondrocytes, mature osteoblasts, and osteogenic-differentiated smooth muscle cells secrete media extracellular vesicles (media vesicles) and extracellular vesicles bound to the extracellular matrix (matrix vesicles). Media vesicles are purified directly from the extracellular medium. On the other hand, matrix vesicles are purified after discarding the extracellular medium and subjecting the cells embedded in the extracellular matrix or bone or cartilage tissues to an enzymatic treatment. Several pieces of experimental evidence indicated that matrix vesicles and media vesicles isolated from the same types of mineralizing cells have distinct lipid and protein composition as well as functions. These findings support the view that matrix vesicles and media vesicles released by mineralizing cells have different functions in mineralized tissues due to their location, which is anchored to the extracellular matrix versus free-floating.

Published

2023

28. Reliable Moment Tensor Inversion for Regional- to Local-Distance Earthquakes

Author

Giuliano F. Panza, Enrico Brandmayr, and Andrea Magrin

Published

2015

29. A novel, integrated approach for understanding and investigating Healthcare Associated Infections: A risk factors constellation analysis.

Author

Mariachiara Carestia, Massimo Andreoni, Ersilia Buonomo, Fausto Ciccacci, Luigi De Angelis, Gerardo De Carolis, Patrizia De Filippis, Daniele Di Giovanni, Leonardo Emberti Gialloreti, Carla Fontana, Luca Guarente, Andrea Magrini, Marco Mattei, Stefania Moramarco, Laura Morciano, Claudia Mosconi, Stefano Orlando, Giuseppe Quintavalle, Fabio Riccardi, Viviana Santoro, and Leonardo Palombi

Subjects

Medicine, Science

Abstract

IntroductionHealthcare-associated infections (HAIs) and antimicrobial resistance (AMR) are major public health threats in upper- and lower-middle-income countries. Electronic health records (EHRs) are an invaluable source of data for achieving different goals, including the early detection of HAIs and AMR clusters within healthcare settings; evaluation of attributable incidence, mortality, and disability-adjusted life years (DALYs); and implementation of governance policies. In Italy, the burden of HAIs is estimated to be 702.53 DALYs per 100,000 population, which has the same magnitude as the burden of ischemic heart disease. However, data in EHRs are usually not homogeneous, not properly linked and engineered, or not easily compared with other data. Moreover, without a proper epidemiological approach, the relevant information may not be detected. In this retrospective observational study, we established and engineered a new management system on the basis of the integration of microbiology laboratory data from the university hospital "Policlinico Tor Vergata" (PTV) in Italy with hospital discharge forms (HDFs) and clinical record data. All data are currently available in separate EHRs. We propose an original approach for monitoring alert microorganisms and for consequently estimating HAIs for the entire period of 2018.MethodsData extraction was performed by analyzing HDFs in the databases of the Hospital Information System. Data were compiled using the AREAS-ADT information system and ICD-9-CM codes. Quantitative and qualitative variables and diagnostic-related groups were produced by processing the resulting integrated databases. The results of research requests for HAI microorganisms and AMR profiles sent by the departments of PTV from 01/01/2018 to 31/12/2018 and the date of collection were extracted from the database of the Complex Operational Unit of Microbiology and then integrated.ResultsWe were able to provide a complete and richly detailed profile of the estimated HAIs and to correlate them with the information contained in the HDFs and those available from the microbiology laboratory. We also identified the infection profile of the investigated hospital and estimated the distribution of coinfections by two or more microorganisms of concern. Our data were consistent with those in the literature, particularly the increase in mortality, length of stay, and risk of death associated with infections with Staphylococcus spp, Pseudomonas aeruginosa, Klebsiella pneumoniae, Clostridioides difficile, Candida spp., and Acinetobacter baumannii. Even though less than 10% of the detected HAIs showed at least one infection caused by an antimicrobial resistant bacterium, the contribution of AMR to the overall risk of increased mortality was extremely high.ConclusionsThe increasing availability of health data stored in EHRs represents a unique opportunity for the accurate identification of any factor that contributes to the diffusion of HAIs and AMR and for the prompt implementation of effective corrective measures. That said, artificial intelligence might be the future of health data analysis because it may allow for the early identification of patients who are more exposed to the risk of HAIs and for a more efficient monitoring of HAI sources and outbreaks. However, challenges concerning codification, integration, and standardization of health data recording and analysis still need to be addressed.

Published

2023

30. Seismic Hazard Assesment: Parametric Studies on Grid Infrastructures

Author

Franco Vaccari, Andrea Magrin, Giuliano F. Panza, Iztok Gregori, Cristina La Mura, Stefano Cozzini, A. A. Gusev, Burra G. Sidharth, Marisa Michelini, Lorenzo Santi, Magrin, Andrea, LA MURA, Cristina, Vaccari, Franco, Panza, Giuliano, Gusev, Alexander A., Gregori, Iztok, and Cozzini, Stefano

Subjects

Scale (ratio), Computation, Magnitude (mathematics), Seismic hazard, E-infrastructures, Grid, Seismic wave, Seismic hazard, Physics::Geophysics, E-infrastructures, Seismogram, Seismology, Parametric statistics

Abstract

Seismic hazard assessment can be performed following a neo-deterministic approach (NDSHA), which allows to give a realistic description of the seismic ground motion due to an earthquake of given distance and magnitude. The approach is based on modelling techniques that have been developed from a detailed knowledge of both the seismic source process and the propagation of seismic waves. This permits us to define a set of earthquake scenarios and to simulate the associated synthetic signals without having to wait for a strong event to occur. NDSHA can be applied at the regional scale, computing seismograms at the nodes of a grid with the desired spacing, or at the local scale, taking into account the source characteristics, the path and local geological and geotechnical conditions. Synthetic signals can be produced in a short time and at a very low cost/benefit ratio. They can be used as seismic input in subsequent engineering analyses aimed at the computation of the full non-linear seismic response of the structure or simply the earthquake damaging potential. Massive parametric tests, to explore the influence not only of deterministic source parameters and structural models but also of random properties of the same source model, enable realistic estimate of seismic hazard and their uncertainty. This is particular true in those areas for which scarce (or no) historical or instrumental information is available. Here we describe the implementation of the seismological codes and the results of some parametric tests performed using the EU-India Grid infrastructure.

Published

2014

31. Earthquake recurrence and seismic hazard assessment: a comparative analysis over the Italian territory

Author

Vladimir Kossobokov, Antonella Peresan, Giuliano F. Panza, Anastasia Nekrasova, Andrea Magrin, C.A.Brebbia, S.Hernandez, Peresan, Antonella, Magrin, A., Nekrasova, Anastasia, Kossobokov, V. G., and Panza, Giuliano

Subjects

recurrence, neo-deterministic method, seismic hazard, Induced seismicity, Hazard, Incremental Dynamic Analysis, Earthquake scenario, Seismic hazard, Probabilistic method, Earthquake simulation, probabilistic method, Geotechnical engineering, Seismic risk, Seismology, Geology

Abstract

Rigorous and objective testing of seismic hazard assessments against real seismic activity are a necessary precondition for any responsible seismic risk assessment. The reference hazard maps for the Italian seismic code, obtained with the classical probabilistic approach (PSHA) and the alternative ground shaking maps based on the neo­deterministic approach (NDSHA) are cross-­ compared and tested against the real seismicity for the territory of Italy. NDSHA is a methodology that allows for the sound definition of credible scenario events, based on the realistic physical modelling of ground motion from a wide set of possible earthquakes. The flexibility of NDSHA permits to account for earthquake recurrence and allows for the generation of ground motion maps at specified return periods that permits a straightforward comparison between the NDSHA and the PSHA maps.

Published

2013

32. Protective Anti-HBs Antibodies and Response to a Booster Dose in Medical Students Vaccinated at Childhood

Author

Luca Coppeta, Cristiana Ferrari, Greta Verno, Giuseppina Somma, Marco Trabucco Aurilio, Luca Di Giampaolo, Michele Treglia, Andrea Magrini, Antonio Pietroiusti, and Stefano Rizza

Subjects

HBV, vaccination, booster dose, medical students, circadian rhythm, immunological memory, Medicine

Abstract

The immune system in humans is regulated by the circadian rhythm. Published studies have reported that the time of vaccination is associated with the immune response to vaccine for some pathogens. Our study aimed to evaluate the association between time of dose administration of challenge HBV vaccine and seroconversion for anti-HBs in medical students vaccinated at birth who were found to be unprotected at pre-training screening. Humoral protection for HBV was assessed in 885 medical students vaccinated during childhood. In total, 359 (41.0%) of them showed anti-HBs titer < 10 UI/mL and received a challenge dose of HBV vaccine followed by post-vaccination screening 30–60 days later. The challenge dose elicited a protective immune response (anti-HBs IgG titer > 10 UI/mL) in 295 (83.8%) individuals. Seroconversion was significantly associated with female gender and time of vaccination after controlling for age group and nationality at logistic regression analysis. Students who received the booster dose in the morning had a higher response rate than those who received the vaccine in the afternoon (OR 1.93; 95% C.I. 1.047–3.56: p < 0.05). This finding suggests that morning administration of the HBV booster may result in a better immune response in susceptible individuals.

Published

2023

33. The comparison of the NDSHA, PSHA seismic hazard maps and real seismicity for the Italian territory

Author

Andrea Magrin, Vladimir Kossobokov, Anastasia Nekrasova, Antonella Peresan, A., Nekrasova, V., Kossobokov, Peresan, Antonella, and Magrin, Andrea

Subjects

Atmospheric Science, Peak ground acceleration, Seismic microzonation, Seismic hazard map, Earthquake catalog, Environmental Seismic Intensity scale, Seismic hazard maps, Earthquake catalogs, Probabilistic seismic hazard assessment, Neo-deterministic seismic hazard assessment, Incremental Dynamic Analysis, Earthquake scenario, Seismic hazard, Earth and Planetary Sciences (miscellaneous), Urban seismic risk, Seismic risk, Geology, Seismology, Water Science and Technology

Abstract

Rigorous and objective testing of seismic hazard assessments against the real seismic activity must become the necessary precondition for any responsible seismic risk estimation. Because seismic hazard maps seek to predict the shaking that would actually occur, the reference hazard maps for the Italian seismic code, obtained by probabilistic seismic hazard assessment (PSHA), and the alternative ground shaking maps based on the neo-deterministic approach (NDSHA), are cross-compared and tested against the real seismicity for the territory of Italy. The comparison between predicted intensities and those reported for past earthquakes shows that models generally provide rather conservative estimates, except for PGA with 10 % probability of being exceeded in 50 years, which underestimates the largest earthquakes. In terms of efficiency in predicting ground shaking, measured accounting for the rate of underestimated events and for the territorial extent of areas characterized by high seismic hazard, the NDSHA maps appear to outscore the PSHA ones.

Published

2013

34. Neo-deterministic seismic hazard assessment in North Africa

Author

Djillali Benouar, Mustapha Meghraoui, M. Hfaiedh, Franco Vaccari, Antonella Peresan, Farida Ousadou, Assia Harbi, K. M. Abou Elenean, Giuliano F. Panza, Said Maouche, Mourad Bezzeghoud, A. Ben Suleman, N. Romdhane, Hassan A. Hussein, J. Kacem, Taoufik Mourabit, A. Ksentini, Nacer Jabour, E. Zuccolo, Mohamed N. ElGabry, Andrea Magrin, A. Ayadi, M. Chourak, A. Cheddadi, Mourabit, T., Abou Elenean, K. M., Ayadi, A., Benouar, D., Ben Suleman, A., Bezzeghoud, M., Cheddadi, A., Chourak, M., Elgabry, M. N., Harbi, A., Hfaiedh, M., Hussein, H. M., Kacem, J., Ksentini, A., Jabour, N., Magrin, A., Maouche, S., Meghraoui, M., Ousadou, F., Panza, Giuliano, Peresan, Antonella, Romdhane, N., Vaccari, Franco, and Zuccolo, Elisa

Subjects

Peak ground acceleration, Focal mechanism, Hydrogeology, Seismotectonics, North Africa, seismotectonics, Deterministic seismic hazard, seismogenic zone, design ground acceleration, Earthquake scenario, seismotectonic, Geophysics, Seismic hazard, Geochemistry and Petrology, Structural geology, Seismogram, Geology, Seismology

Abstract

North Africa is one of the most earthquake-prone areas of the Mediterranean. Many devastating earthquakes, some of them tsunami-triggering, inflicted heavy loss of life and considerable economic damage to the region. In order to mitigate the destructive impact of the earthquakes, the regional seismic hazard in North Africa is assessed using the neo-deterministic, multi-scenario methodology (NDSHA) based on the computation of synthetic seismograms, using the modal summation technique, at a regular grid of 0.2 × 0.2°. This is the first study aimed at producing NDSHA maps of North Africa including five countries: Morocco, Algeria, Tunisia, Libya, and Egypt. The key input data for the NDSHA algorithm are earthquake sources, seismotectonic zonation, and structural models. In the preparation of the input data, it has been really important to go beyond the national borders and to adopt a coherent strategy all over the area. Thanks to the collaborative efforts of the teams involved, it has been possible to properly merge the earthquake catalogues available for each country to define with homogeneous criteria the seismogenic zones, the characteristic focal mechanism associated with each of them, and the structural models used to model wave propagation from the sources to the sites. As a result, reliable seismic hazard maps are produced in terms of maximum displacement (D max), maximum velocity (V max), and design ground acceleration.

Published

2013

35. The SISMA prototype system: integrating Geophysical Modeling and Earth Observation for time-dependent seismic hazard assessment

Author

Anna Maria Marotta, Bruno Crippa, Roberto Sabadini, Giuliano F. Panza, Franco Vaccari, Riccardo Barzaghi, Alessandra Borghi, Andrea Magrin, Simona Zoffoli, Antonella Peresan, L. Cannizzaro, A. Amodio, Raffaele Splendore, Panza, Giuliano, Peresan, Antonella, Magrin, Andrea, Vaccari, Franco, Sabadini, R., Crippa, B., Marotta, A. M., Splendore, R., Barzaghi, R., Borghi, A., Cannizzaro, L., Amodio, A., and Zoffoli, S.

Subjects

Synthetic aperture radar, Seismic hazard - Earth Observation - GPS - DInSAR - Earthquake prediction - Ground shaking scenarios - Seismic input, Atmospheric Science, Earth observation, business.industry, Earthquake prediction, Geodetic datum, Geophysics, Hazard analysis, Seismic hazard, Earth and Planetary Sciences (miscellaneous), Global Positioning System, business, Scale (map), Geology, Water Science and Technology

Abstract

An innovative approach to seismic hazard assessment is illustrated that, based on the available knowledge of the physical properties of the Earth structure and of seismic sources, on geodetic observations, as well as on the geophysical forward modeling, allows for a time-dependent definition of the seismic input. According to the proposed approach, a fully formalized system integrating Earth Observation data and new advanced methods in seismological and geophysical data analysis is currently under development in the framework of the Pilot Project SISMA, funded by the Italian Space Agency. The synergic use of geodetic Earth Observation data (EO) and Geophysical Forward Modeling deformation maps at the national scale complements the space- and time-dependent information provided by real-time monitoring of seismic flow (performed by means of the earthquake prediction algorithms CN and M8S) and permits the identification and routine updating of alerted areas. At the local spatial scale (tens of km) of the seismogenic nodes identified by pattern-recognition analysis, both GNSS (Global Navigation Satellite System) and SAR (Synthetic Aperture Radar) techniques, coupled with expressly developed models for interseismic phase, allow us to retrieve the deformation style and stress evolution within the seismogenic areas. The displacement fields obtained from EO data provide the input for the geophysical modeling, which eventually permits to indicate whether a specific fault is in a “critical state.” The scenarios of expected ground motion (shakemaps) associated with the alerted areas are then defined by means of full waveforms modeling, based on the possibility to compute synthetic seismograms by the modal summation technique (neo-deterministic hazard assessment). In this way, a set of deterministic scenarios of ground motion, which refer to the time interval when a strong event is likely to occur within the alerted area, can be defined both at national and at local scale. The considered integrated approach opens new routes in understanding the dynamics of fault zones as well as in modeling the expected ground motion. The SISMA system, in fact, provides tools for establishing warning criteria based on deterministic and rigorous forward geophysical models and hence allows for a well-controlled real-time prospective testing and validation of the proposed methodology over the Italian territory. The proposed approach complements the traditional probabilistic approach for seismic hazard estimates, since it supplies routinely updated information useful in assigning priorities for timely mitigation actions and hence it is particularly relevant to Civil Defense purposes.

Published

2013

36. Silica encapsulation of ZnO nanoparticles reduces their toxicity for cumulus cell-oocyte-complex expansion

Author

Antonella Camaioni, Micol Massimiani, Valentina Lacconi, Andrea Magrini, Antonietta Salustri, Georgios A. Sotiriou, Dilpreet Singh, Dimitrios Bitounis, Beatrice Bocca, Anna Pino, Flavia Barone, Valentina Prota, Ivo Iavicoli, Manuel Scimeca, Elena Bonanno, Flemming R. Cassee, Philip Demokritou, Antonio Pietroiusti, and Luisa Campagnolo

Subjects

Zinc oxide nanoparticles, Titanium dioxide nanoparticles, Silica, Oocyte, Cumulus cells, Cumulus expansion, Toxicology. Poisons, RA1190-1270, Industrial hygiene. Industrial welfare, HD7260-7780.8

Abstract

Abstract Background Metal oxide nanoparticles (NPs) are increasingly used in many industrial and biomedical applications, hence their impact on occupational and public health has become a concern. In recent years, interest on the effect that exposure to NPs may exert on human reproduction has grown, however data are still scant. In the present work, we investigated whether different metal oxide NPs interfere with mouse cumulus cell-oocyte complex (COC) expansion. Methods Mouse COCs from pre-ovulatory follicles were cultured in vitro in the presence of various concentrations of two types of TiO2 NPs (JRC NM-103 and NM-104) and four types of ZnO NPs (JRC NM-110, NM-111, and in-house prepared uncoated and SiO2-coated NPs) and the organization of a muco-elastic extracellular matrix by cumulus cells during the process named cumulus expansion was investigated. Results We show that COC expansion was not affected by the presence of both types of TiO2 NPs at all tested doses, while ZnO NM-110 and NM-111 induced strong toxicity and inhibited COCs expansion at relatively low concentration. Medium conditioned by these NPs showed lower toxicity, suggesting that, beside ion release, inhibition of COC expansion also depends on NPs per se. To further elucidate this, we compared COC expansion in the presence of uncoated or SiO2-coated NPs. Differently from the uncoated NPs, SiO2-coated NPs underwent slower dissolution, were not internalized by the cells, and showed an overall lower toxicity. Gene expression analysis demonstrated that ZnO NPs, but not SiO2-coated ZnO NPs, affected the expression of genes fundamental for COC expansion. Dosimetry analysis revealed that the delivered-to-cell mass fractions for both NPs was very low. Conclusions Altogether, these results suggest that chemical composition, dissolution, and cell internalization are all responsible for the adverse effects of the tested NPs and support the importance of a tailored, safer-by-design production of NPs to reduce toxicity.

Published

2021

37. Seroprevalence for vaccine-preventable diseases among Italian healthcare workers

Author

Luca Coppeta, Iacopo D’Alessandro, Antonio Pietroiusti, Giuseppina Somma, Ottavia Balbi, Ilaria Iannuzzi, and Andrea Magrini

Subjects

occupational epidemiology, healthcare workers, measles, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950

Abstract

Healthcare workers (HCWs) have an increased risk to be exposed to infectious diseases compared to the general population. For this reason, according to the National Immunization and Prevention Plan, all HCWs should have demonstrable evidence of immunity to measles, mumps, rubella, varicella and Hepatitis B. Earlier studies have already shown that a large percentage of Italian operators lacked immune protection for one or more of those pathogens. The aim of this study was to evaluate the immunization status for vaccine-preventable diseases of HCWs in a large Italian teaching hospital. We retrospectively evaluated clinical records and serological data of HCWs who followed the occupational health surveillance program between January 1 and December 31 2019. We reviewed the clinical records of 1,017 HCWs: 393 males and 624 females with a median age of 35.69 y (range: 19–67). Protective IgG antibody values were documented in the 88.0%, 75.7%, 90.3%, 87.4% and 85.7% of the HCWs screened, respectively, against measles, mumps, rubella, varicella and Hepatitis B. Age was significantly related to serological protection against measles, mumps and varicella but was not significantly related to protective IgG levels for rubella and HBV. Female gender was significantly related to a higher protection rate against Hepatitis B (87.8 vs 82.4%; p

Published

2021

38. A seismological and engineering perspective on the 2016 Central Italy earthquakes

Author

Giuliano F. Panza, Fabio Romanelli, Marco Fasan, Franco Vaccari, Claudio Amadio, Andrea Magrin, Fasan, Marco, Magrin, Andrea, Amadio, Claudio, Romanelli, Fabio, Vaccari, Franco, and Panza, Giuliano

Subjects

maximum deterministic seismic input, MDSI, Apennines, building retrofitting, neo-deterministic seismic hazard assessment, Spectral acceleration, seismic vulnerability, Seismic analysis, Earthquake scenario, structural design, building codes, structural damage, Seismic risk, Response spectrum, earthquakes, Engineering analysis, response spectrum, seismic response, seismic design, General Medicine, Cultural heritage, Italy, NDSHA, spectral acceleration levels, Building code, seismic hazards, seismic hazards, response spectrum, neo-deterministic seismic hazard assessment, NDSHA, maximum deterministic seismic input, MDSI, seismic design, Italy, earthquakes, Apennines, building codes, seismic vulnerability, spectral acceleration levels, structural design, building retrofitting, structural damage, seismic response, Geology, Seismology

Abstract

The strong earthquake (M 6.0-6.2) that hit the central Apennines on August 24, 2016, occurred in one of the most seismically active areas in Italy. Field surveys indicated severe damage in the epicentral area where, in addition to the loss of human life, widespread destruction of cultural heritage and of critical buildings occurred. Using the neo-deterministic seismic hazard assessment (NDSHA), we apply the maximum deterministic seismic input (MDSI) procedure at two of the most relevant sites in the epicentral area, comparing the results with the current Italian building code. After performing an expeditious engineering analysis, we interpret as a possible cause of the reported damages the high seismic vulnerability of the built environment, combined with the source and site effects characterising the seismic input. Therefore, it is important to design and retrofit with appropriate spectral acceleration levels compatible with the possible future scenarios, like the ones provided by MDSI.

Published

2016

39. Serological Evaluation for Measles among Italian and Foreign Medical Students in a University Hospital in Rome

Author

Luca Coppeta, Cristiana Ferrari, Giuseppina Somma, Viola Giovinazzo, Ersilia Buonomo, Marco Trabucco Aurilio, Michele Treglia, and Andrea Magrini

Subjects

occupational epidemiology, infection, health care workers, measles, foreign medical students, Medicine

Abstract

Background: Measles infection in the hospital setting is a major issue. Despite the availability of an effective vaccine, measles outbreaks continue to occur in some European countries. We aimed to evaluate the immunological status of medical students attending the Tor Vergata Polyclinic (PTV). Methods: Measles antibodies titers were assessed by venipuncture on a sample of 2717 medical students who underwent annual health surveillance visits from January 2021 to March 2023. Subjects showing serum IgG values above 1.0 S/CO were considered serologically protected. Personal data, country of origin, and main demographic characteristic were also collected. Results: 66.7% (1467 Italian and 346 foreign) of medical students showed protective IgG antibodies levels. Female students were serologically immune more frequently than males (68.6% vs. 63.3%; p < 0.01 at Chi2). The mean antibody titer was 1.72 S/CO, significantly higher in females than males (1.67 vs. 1.75, respectively; p < 0.05), and significantly related to age (p < 0.01). Albanian students, who were the largest foreign population in our study, showed a low serological protection rate (40/90: 44.4%). Conclusions: The proportion of serologically non-immune students is high, raising concerns about the possible risk of hospital transmission. Substantial differences in the rate of immunity have been found between subjects coming from different parts of Europe and the world. Pre-training assessment of all medical students and vaccination of susceptible individuals is highly recommended, particularly for those from low immunization rate countries.

Published

2023

40. A New Algorithm for Estimating a Noiseless, Evenly Sampled, Heart Rate Modulating Signal

Author

Enrico M. Staderini, Harish Kambampati, Amith K. Ramakrishnaiah, Stefano Mugnaini, Andrea Magrini, and Sandro Gentili

Subjects

heart rate variability, signal analysis, Technology, Biology (General), QH301-705.5

Abstract

Heart rate variability (HRV) is commonly intended as the variation in the heart rate (HR), and it is evaluated in the time and frequency domains with various well-known methods. In the present paper, the heart rate is considered as a time domain signal, at first as an abstract model in which the HR is the instantaneous frequency of an otherwise periodic signal, such as with an electrocardiogram (ECG). In this model, the ECG is assumed to be a frequency modulated signal, or carrier signal, where HRV or HRV(t) is the time-domain signal which is frequency modulating the carrier ECG signal around its average frequency. Hence, an algorithm able to frequency demodulate the ECG signal to extract the signal HRV(t) is described, with possibly enough time resolution to analyse fast time-domain variations in the instantaneous HR. After exhaustive testing of the method on simulated frequency modulated sinusoidal signals, the new procedure is eventually applied on actual ECG tracings for preliminary nonclinical testing. The purpose of the work is to use this algorithm as a tool and a more reliable method for the assessment of heart rate before any further clinical or physiological analysis.

Published

2023

41. CFD-Based Analysis of Installed Fuel Consumption and Aerodynamics of Transonic Transport Aircraft during Cruise Flight

Author

Andrea Magrini, Denis Buosi, Francesco Poltronieri, Elena De Leo, and Ernesto Benini

Subjects

installation effects, specific fuel consumption, ultra-high bypass ratio, NASA Common Research Model, propulsion system integration, Technology

Abstract

Gas turbine fuel burn for an aircraft engine can be obtained analytically using thermodynamic cycle analysis. For large-diameter ultra-high bypass ratio turbofans, the impact of nacelle drag and propulsion system integration must be accounted for in order to obtain realistic estimates of the installed specific fuel consumption. However, simplified models cannot fully represent the complexity of installation effects. In this paper, we present a method that combines thermodynamic cycle analysis with detailed Computational Fluid Dynamics (CFD) modelling of the installation aerodynamics to obtain the fuel consumption at a given mission point. The flow field and propulsive forces arising in a transport aircraft powered by an ultra-high bypass ratio turbofan at cruise are first examined to characterise the operating conditions and measure the sensitivity to variations of the incidence at transonic flight. The proposed methodology, in which dynamic balance of the vehicle is achieved at each integration point, is then applied along a cruise segment to calculate the cumulative fuel burn and the change in the specific fuel consumption.

Published

2023

42. The BNT162b2 mRNA COVID-19 Vaccine Increases the Contractile Sensitivity to Histamine and Parasympathetic Activation in a Human Ex Vivo Model of Severe Eosinophilic Asthma

Author

Luigino Calzetta, Alfredo Chetta, Marina Aiello, Annalisa Frizzelli, Josuel Ora, Enrico Melis, Francesco Facciolo, Lorenzo Ippoliti, Andrea Magrini, and Paola Rogliani

Subjects

airway hyperresponsiveness, asthma, BNT162b2, bronchospasm, comirnaty, COVID-19, Medicine

Abstract

The BNT162b2 COVID-19 vaccine is composed of lipid-nanoparticles (LNP) containing the mRNA that encodes for SARS-CoV-2 spike glycoprotein. Bronchospasm has been reported as an early reaction after COVID-19 mRNA vaccines in asthmatic patients. The aim of this study was to investigate the acute impact of BNT162b2 in a human ex vivo model of severe eosinophilic asthma. Passively sensitized human isolated bronchi were challenged with the platelet-activating factor to reproduce ex vivo the hyperresponsiveness of airways of patients suffering from severe eosinophilic asthma. BNT162b2 was tested on the contractile sensitivity to histamine and parasympathetic activation via electrical field stimulation (EFS); some experiments were performed after mRNA denaturation. BNT162b2 increased the resting tone (+11.82 ± 2.27%) and response to histamine in partially contracted tissue (+42.97 ± 9.64%) vs. the control (p < 0.001); it also shifted the concentration-response curve to histamine leftward (0.76 ± 0.09 logarithm) and enhanced the response to EFS (+28.46 ± 4.40%) vs. the control. Denaturation did not significantly modify (p > 0.05) the effect of BNT162b2. BNT162b2 increases the contractile sensitivity to histamine and parasympathetic activation in hyperresponsive airways, a detrimental effect not related to the active component but to some excipient. A possible candidate for the bronchospasm elicited by BNT162b2 could be the polyethylene glycol/macrogol used to produce LNP.

Published

2023

43. Correction: Guerrieri et al. Nasal and Salivary Mucosal Humoral Immune Response Elicited by mRNA BNT162b2 COVID-19 Vaccine Compared to SARS-CoV-2 Natural Infection. Vaccines 2021, 9, 1499

Author

Mariapia Guerrieri, Beatrice Francavilla, Denise Fiorelli, Marzia Nuccetelli, Francesco Maria Passali, Luca Coppeta, Giuseppina Somma, Sergio Bernardini, Andrea Magrini, and Stefano Di Girolamo

Subjects

n/a, Medicine

Abstract

The authors wish to make the following corrections to this paper [...]

Published

2023

44. Main Predictors of COVID-19 Vaccination Uptake among Italian Healthcare Workers in Relation to Variable Degrees of Hesitancy: Result from a Cross-Sectional Online Survey

Author

Marco Trabucco Aurilio, Francesco Saverio Mennini, Cristiana Ferrari, Giuseppina Somma, Luca Di Giampaolo, Matteo Bolcato, Fabio De-Giorgio, Roberto Muscatello, Andrea Magrini, and Luca Coppeta

Subjects

vaccine hesitancy, COVID-19 vaccine, healthcare workers, vaccine confidence, Medicine

Abstract

Background: Hesitancy remains one of the major hurdles to vaccination, regardless of the fact that vaccines are indisputable preventive measures against many infectious diseases. Nevertheless, vaccine hesitancy or refusal is a growing phenomenon in the general population as well as among healthcare workers (HCWs). Many different factors can contribute to hesitancy to COVID-19 vaccination in the HCWs population, including socio-demographic characteristics (female gender, low socio-economical status, lower age), individual beliefs regarding vaccine efficacy and safety, as well as other factors (occupation, knowledge about COVID-19, etc.). Understanding the determinants of accepting or refusing the COVID-19 vaccination is crucial to plan specific interventions in order to increase the rate of vaccine coverage among health care workers. Methods: We conducted a cross-sectional online survey on HCWs in seventeen Italian regions, between 30 June and 4 July 2021, in order to collect information about potential factors related to vaccine acceptance and hesitancy. Results: We found an overall vaccine uptake rate of 96.4% in our sample. Acceptance was significantly related to job task, with physicians showing the highest rate of uptake compared to other occupations. At univariate analysis, the HCWs population’s vaccine hesitancy was significantly positively associated with fear of vaccination side effects (p < 0.01), and negatively related to confidence in the safety and efficacy of the vaccine (p < 0.01). Through multivariate analysis, we found that only the fear of possible vaccination side effects (OR: 4.631, p < 0.01) and the confidence in vaccine safety and effectiveness (OR: 0.35 p < 0.05) remained significantly associated with hesitancy. Conclusion: Action to improve operator confidence in the efficacy and safety of the vaccine should improve the acceptance rate among operators.

Published

2022

45. Body Force Model Implementation of Transonic Rotor for Fan/Airframe Simulations

Author

Andrea Magrini

Subjects

body force model, fan/airframe interaction, transonic fan, NASA/GEAE R4, throughflow methods, UHBPR nacelle, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Three-dimensional throughflow models represent a turbomachinery cascade via a force distribution without the need for detailed geometric modelling in the numerical solution, saving consistent computational resources. In this paper, we present the application of a body force method on an axial transonic fan implemented into an in-house tool for axisymmetric throughflow simulations. By a systematic comparison of local and integral quantities with a validated numerical solution, the capabilities and limitations of the model are discussed for different operating regimes. The implementation is first validated at the peak efficiency calibration point, providing a good duplication of blade flow variables and radial profiles. The design total pressure is matched with a 0.6% absolute difference and a slightly higher slope of the characteristic towards the stall. The isentropic efficiency curve is penalised after the choking mass flow rate calibration, presenting an absolute difference close to 2%, although with a consistent off-design trend. In general, the model provides a satisfactory representation of the flow field and the outflow spanwise distributions, with locally larger discrepancies near the endwalls. Finally, the method is applied to simulate the fan and outlet guide vanes installed into an isolated turbofan nacelle. The onset of intake stall at a high angle of attack is compared between the body force and a boundary conditions-based approaches, highlighting the importance of adopting fully coupled solution methods to study fan/airframe interaction problems.

Published

2022

46. Global Policy to Reduce the Incidence of Infection Spreading in Non-Vaccinated Healthcare Workers: A Literature Review

Author

Cristiana Ferrari, Giuseppina Somma, Lorenzo Ippoliti, Andrea Magrini, Luca Di Giampaolo, and Luca Coppeta

Subjects

SARS-CoV-2, healthcare workers, global policy, COVID-19, non-vaccinated HCWs, Medicine

Abstract

Healthcare workers (HCWs) are at increased risk of SARS-CoV-2 infection because of their occupational exposure. Moreover, they can be a vehicle for the virus transmission among patients. The vaccination of healthcare personnel against COVID-19 is crucial in fighting the spread of SARS-CoV-2 infection, together with strict sanitary procedures that aim to limit the risk of contagion. Unfortunately, even if COVID-19 vaccination has been proved one of the most effective tools for protecting against COVID-19, many healthcare professionals are not yet vaccinated. The aim of the current review is to contribute to identifying an effective strategy for COVID-19 prevention especially among non-vaccinated HCWs. In this review, we collected the most recent and relevant findings from literature on the protection of unvaccinated HCWs, identifying three types of measures as principal actions to protect those operators: addressing vaccine hesitancy, improving non-pharmaceutical interventions and promoting actions at personal level (respiratory hygiene, hand hygiene and use of PPE). All these interventions are very effective in preventing contagion, if well respected and conducted; nevertheless, it is essential to promote vaccination, as it is the most effective measure.

Published

2022

47. Cost-effectiveness of workplace vaccination against measles

Author

Luca Coppeta, Luca Morucci, Antonio Pietroiusti, and Andrea Magrini

Subjects

measles, outbreak, vaccination, health care workers, students, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950

Abstract

Measles is one of the most contagious infectious diseases. Measles vaccine, which has been introduced in Italy in 1979, is highly effective in preventing the disease (two-dose vaccine effectiveness is 99%). In 2017, Italy was the second country of EU for number of cases of measles. A study conducted in the same year showed that 22.3% of measles infection happened in hospital settings and 6.6% of cases occurred in HCWs. This risk group showed low rates of adhesion to the vaccination campaign. For this reason, we hypothesized that workplace vaccination could lead to better vaccination rates in HCWs. Moreover, we focused the vaccination campaign on a specific target group composed of HCWs not serologically immune and previously not vaccinated. We analyzed the clinical records of measles-specific IgG antibodies of 2,940 HCWs, that underwent occupational health surveillance between 1 January 2017 and 31 December 2017. 15.3% (450) was seronegative for measles, especially in the age group under 35 years. We compared the costs related to strategies with and without serological screening. Our study confirmed that immunization strategy with pre-vaccination screening was cost-effective compared to the vaccination without screening. In our sample, in fact, administration of two dose vaccine only susceptible HCWs determine a saving of 146,262 €. The vaccination of HCWs remains a topical issue in preventing the transmission of infectious disease in the hospital setting. Due to the cost-effectiveness evaluation, we recommend extending the pre-vaccination screening to identify the real susceptible workers.

Published

2019

48. Pre-vaccination IgG screening for mumps is the most cost-effectiveness immunization strategy among Health Care Workers

Author

Luca Coppeta, Ottavia Balbi, Savino Baldi, Antonio Pietroiusti, and Andrea Magrini

Subjects

occupational epidemiology, mumps vaccination, health care workers, mumps, infection, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950

Abstract

Health Care Workers (HCWs) have an increased risk of contracting contagious disease, including mumps. In January 2017 the Italian National Vaccine Prevention Plan 2017–2019, recommended the administration of a dose of MMR vaccine (Measles-Mumps-Rubella) to the Health Care Workers (HCWs) that, working in a risky environment, did not carry out the complete vaccination cycle of MMR or that are seronegative for at least one of the three vaccine viruses. In October of the same year, the Advisory Committee on Immunization Practices (ACIP) recommended a third dose of a vaccine containing Mumps Virus for people previously vaccinated with 2 doses, belonging to a group or to a population at increased risk of acquire mumps in the event of an epidemic. We analyzed the clinical records and values of mumps-specific IgG antibodies of 3032 HCWs (mean age 32.80 ± 10.75 years), that underwent occupational health surveillance between January 1st 2017 and March 31th 2018. The HCWs were also screened for measles, rubella, mumps using serological methods. 13% (405) was seronegative for mumps, especially among HCWs between 18 and 36 years. We calculated the cost-effectiveness of two-doses and three-doses MMR vaccination. The cost of vaccination without screening was significantly more expensive (cost difference: 99 712 € and 184 996 €) both in case of two-dose and three-dose MMR vaccination respectively. Our study suggests that, in HCWs, the assessment of the mumps antibody titer before vaccination may be a useful complement to vaccination itself, because it is more accurate and cost-effective than direct immunization of unvaccinated subjects.

Published

2019

49. Severe facial reaction to thiurams in surgeons

Author

Luca Coppeta, Francesca Papa, Antonio Pietroiusti, Ludovico Maria De Zordo, Stefano Perrone, Silvia Barone, and Andrea Magrini

Subjects

occupational dermatitis, allergy, contact dermatitis, concomitant contact sensitization, occupational allergens, thiurams, Public aspects of medicine, RA1-1270

Abstract

Contact dermatitis is a major problem in the healthcare environment and in other sectors. Healthcare professionals may be exposed to a large number of chemical agents, including the accelerators for rubber vulcanization process. The prevalence of allergic contact dermatitis among operators in the sector ranges 13–30%. This paper describes the case of a 46-year-old male cardiac surgeon affected by a severe skin reaction localized on the face in the absence of hand dermatitis, presumably resulting from the use of a surgical patch applied to the face. Patch tests were performed and the result was negative for latex and positive (+++) for thiuram mix. A thiuram-free tape was prescribed and the operator’s dermatitis improved significantly. Thus, it would be very important to pay attention to skin disorders in health workers and thiuram as an occupational allergen. Med Pr. 2019;70(1):121–4

Published

2019

50. Lactoferrin Against SARS-CoV-2: In Vitro and In Silico Evidences

Author

Elena Campione, Caterina Lanna, Terenzio Cosio, Luigi Rosa, Maria Pia Conte, Federico Iacovelli, Alice Romeo, Mattia Falconi, Claudia Del Vecchio, Elisa Franchin, Maria Stella Lia, Marilena Minieri, Carlo Chiaramonte, Marco Ciotti, Marzia Nuccetelli, Alessandro Terrinoni, Ilaria Iannuzzi, Luca Coppeda, Andrea Magrini, Sergio Bernardini, Stefano Sabatini, Felice Rosapepe, Pier Luigi Bartoletti, Nicola Moricca, Andrea Di Lorenzo, Massimo Andreoni, Loredana Sarmati, Alessandro Miani, Prisco Piscitelli, Piera Valenti, and Luca Bianchi

Subjects

lactoferrin, COVID-19, SARS-CoV-2, spike, bovine lactoferrin, Therapeutics. Pharmacology, RM1-950

Abstract

Lactoferrin (Lf) is a cationic glycoprotein synthetized by exocrine glands and is present in all human secretions. It is also secreted by neutrophils in infection and inflammation sites. This glycoprotein possesses antimicrobial activity due to its capability to chelate two ferric ions per molecule, as well as to interact with bacterial and viral anionic surface components. The cationic features of Lf bind to cells, protecting the host from bacterial and viral injuries. Its anti-inflammatory activity is mediated by the ability to enter inside the nucleus of host cells, thus inhibiting the synthesis of proinflammatory cytokine genes. In particular, Lf down-regulates the synthesis of IL-6, which is involved in iron homeostasis disorders and leads to intracellular iron overload, favoring viral replication and infection. The well-known antiviral activity of Lf has been demonstrated against DNA, RNA, and enveloped and naked viruses and, therefore, Lf could be efficient in counteracting also SARS-CoV-2 infection. For this purpose, we performed in vitro assays, proving that Lf exerts an antiviral activity against SARS-COV-2 through direct attachment to both SARS-CoV-2 and cell surface components. This activity varied according to concentration (100/500 μg/ml), multiplicity of infection (0.1/0.01), and cell type (Vero E6/Caco-2 cells). Interestingly, the in silico results strongly supported the hypothesis of a direct recognition between Lf and the spike S glycoprotein, which can thus hinder viral entry into the cells. These in vitro observations led us to speculate a potential supplementary role of Lf in the management of COVID-19 patients.

Published

2021