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1. Data-driven model reduction via non-intrusive optimization of projection operators and reduced-order dynamics

Author

Padovan, Alberto, Vollmer, Blaine, and Bodony, Daniel J.

Subjects
Mathematical Physics
Abstract

Computing reduced-order models using non-intrusive methods is particularly attractive for systems that are simulated using black-box solvers. However, obtaining accurate data-driven models can be challenging, especially if the underlying systems exhibit large-amplitude transient growth. Although these systems may evolve near a low-dimensional subspace that can be easily identified using standard techniques such as Proper Orthogonal Decomposition (POD), computing accurate models often requires projecting the state onto this subspace via a non-orthogonal projection. While appropriate oblique projection operators can be computed using intrusive techniques that leverage the form of the underlying governing equations, purely data-driven methods currently tend to achieve dimensionality reduction via orthogonal projections, and this can lead to models with poor predictive accuracy. In this paper, we address this issue by introducing a non-intrusive framework designed to simultaneously identify oblique projection operators and reduced-order dynamics. In particular, given training trajectories and assuming reduced-order dynamics of polynomial form, we fit a reduced-order model by solving an optimization problem over the product manifold of a Grassmann manifold, a Stiefel manifold, and several linear spaces (as many as the tensors that define the low-order dynamics). Furthermore, we show that the gradient of the cost function with respect to the optimization parameters can be conveniently written in closed-form, so that there is no need for automatic differentiation. We compare our formulation with state-of-the-art methods on three examples: a three-dimensional system of ordinary differential equations, the complex Ginzburg-Landau (CGL) equation, and a two-dimensional lid-driven cavity flow at Reynolds number Re = 8300.

Published
2024

2. Encoding and context-dependent control of reward consumption within the central nucleus of the amygdala.

Author

Kim, Tabitha, Castro, Matilde, Drieu, Céline, Padovan-Hernandez, Yasmin, Chen, Bridget, Pat, Fiona, Ottenheimer, David, Janak, Patricia, and Fraser, Kurt

Subjects
Behavioral neuroscience, Biological sciences, Neuroscience
Abstract

Dysregulation of the central amygdala is thought to underlie aberrant choice in alcohol use disorder, but the role of central amygdala neural activity during reward choice and consumption is unclear. We recorded central amygdala neurons in male rats as they consumed alcohol or sucrose. We observed activity changes at the time of reward approach, as well as lick-entrained activity during ongoing consumption of both rewards. In choice scenarios where rats could drink sucrose, alcohol, or quinine-adulterated alcohol with or without central amygdala optogenetic stimulation, rats drank more of stimulation-paired options when the two bottles contained identical options. Given a choice among different options, central amygdala stimulation usually enhanced consumption of stimulation-paired rewards. However, optogenetic stimulation during consumption of the less-preferred option, alcohol, was unable to enhance alcohol intake while sucrose was available. These findings indicate that the central amygdala contributes to refining motivated pursuit toward the preferred available option.

Published
2024

4. Global needs for nitrogen fertilizer to improve wheat yield under climate change

Author

Martre, Pierre, Dueri, Sibylle, Guarin, Jose Rafael, Ewert, Frank, Webber, Heidi, Calderini, Daniel, Molero, Gemma, Reynolds, Matthew, Miralles, Daniel, Garcia, Guillermo, Brown, Hamish, George, Mike, Craigie, Rob, Cohan, Jean-Pierre, Deswarte, Jean-Charles, Slafer, Gustavo, Giunta, Francesco, Cammarano, Davide, Ferrise, Roberto, Gaiser, Thomas, Gao, Yujing, Hochman, Zvi, Hoogenboom, Gerrit, Hunt, Leslie A., Kersebaum, Kurt C., Nendel, Claas, Padovan, Gloria, Ruane, Alex C., Srivastava, Amit Kumar, Stella, Tommaso, Supit, Iwan, Thorburn, Peter, Wang, Enli, Wolf, Joost, Zhao, Chuang, Zhao, Zhigan, and Asseng, Senthold

Published
2024
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5. Multi-domain analysis and prediction of the light emitted by an inductively coupled plasma jet

Author

Capponi, Lorenzo, Padovan, Alberto, Elliott, Gregory S., Panesi, Marco, Bodony, Daniel J., and Panerai, Francesco

Subjects
Physics - Plasma Physics, High Energy Physics - Experiment
Abstract

Inductively coupled plasma wind tunnels are crucial for replicating hypersonic flight conditions in ground testing. Achieving the desired conditions (e.g., stagnation-point heat fluxes and enthalpies during atmospheric reentry) requires a careful selection of operating inputs, such as mass flow, gas composition, nozzle geometry, torch power, chamber pressure, and probing location along the plasma jet. The study presented herein focuses on the influence of the torch power and chamber pressure on the plasma jet dynamics within the 350 kW Plasmatron X ICP facility at the University of Illinois at Urbana-Champaign. A multi-domain analysis of the jet behavior under selected power-pressure conditions is presented in terms of emitted light measurements collected using high-speed imaging. We then use Gaussian Process Regression to develop a data-informed learning framework for predicting Plasmatron X jet profiles at unseen pressure and power test conditions. Understanding the physics behind the dynamics of high-enthalpy flows, particularly plasma jets, is the key to properly design material testing, perform diagnostics, and develop accurate simulation models, Comment: 22 pages (including figures, appendix, and references); 13 figures

Published
2023
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6. Geometry of sequential quantum correlations and robust randomness certification

Author

Padovan, Matteo, Foletto, Giulio, Coccia, Lorenzo, Avesani, Marco, Villoresi, Paolo, and Vallone, Giuseppe

Subjects
Quantum Physics
Abstract

Quantum correlations between the measurements of two or more separated observers play a fundamental role in many applications, such as randomness generation or key distribution. Recently, it was realized that sequential measurements (i.e., defined with a precise temporal ordering between subsequent measurements on a given system) can enhance the performance of these protocols. However, the theoretical understanding of how to maximize this performance is limited and the relation with the boundary of quantum correlations is unexplored. In the case of one party on one side and two sequential parties on the other, we study the geometry of quantum correlations and its implications for robust device-independent randomness generation. We identify a boundary for the set of these correlations expressed as a trade-off between the amount of nonlocality between different observers and show that this allows to generate the maximum possible device-independent randomness in our setting, namely two bits. We propose a practical protocol based on non-projective measurements that can produce the boundary correlations under ideal conditions, and address its robustness to noise, showing that it is improved compared to previous approaches. Finally, we implement our protocol in a proof-of-concept experiment based on a photonic implementation. With the obtained correlations we could certify more bits per state with respect to the standard CHSH protocol, proving that our protocol is feasible and robust to real-world imperfections. Our work paves the way for a full understanding of sequential quantum correlations and their exploitation for practical and efficient device-independent protocols., Comment: 15 pages, 7 figures, 1 table

Published
2023
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7. Non-invasive in vivo imaging of changes in Collagen III turnover in myocardial fibrosis

Author

Nadia Chaher, Sara Lacerda, Giuseppe Digilio, Sergio Padovan, Ling Gao, Begoña Lavin, Rachele Stefania, Carlos Velasco, Gastão Cruz, Claudia Prieto, René M. Botnar, and Alkystis Phinikaridou

Subjects
Medical technology, R855-855.5, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Abstract Heart failure (HF) affects 64 million people globally with enormous societal and healthcare costs. Myocardial fibrosis, characterised by changes in collagen content drives HF. Despite evidence that collagen type III (COL3) content changes during myocardial fibrosis, in vivo imaging of COL3 has not been achieved. Here, we discovered the first imaging probe that binds to COL3 with high affinity and specificity, by screening candidate peptide-based probes. Characterisation of the probe showed favourable magnetic and biodistribution properties. The probe’s potential for in vivo molecular cardiac magnetic resonance imaging was evaluated in a murine model of myocardial infarction. Using the new probe, we were able to map and quantify, previously undetectable, spatiotemporal changes in COL3 after myocardial infarction and monitor response to treatment. This innovative probe provides a promising tool to non-invasively study the unexplored roles of COL3 in cardiac fibrosis and other cardiovascular conditions marked by changes in COL3.

Published
2024
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8. Secure and robust randomness with sequential quantum measurements

Author

Matteo Padovan, Giulio Foletto, Lorenzo Coccia, Marco Avesani, Paolo Villoresi, and Giuseppe Vallone

Subjects
Physics, QC1-999, Electronic computers. Computer science, QA75.5-76.95
Abstract

Abstract Quantum correlations between measurements of separated observers are crucial for applications like randomness generation and key distribution. Although device-independent security can be certified with minimal assumptions, current protocols have limited performance. Here, we exploit sequential measurements, defined with a precise temporal order, to enhance performance by reusing quantum states. We provide a geometric perspective and a general mathematical framework, analytically proving a Tsirelson-like boundary for sequential quantum correlations, which represents a trade-off in nonlocality shared by sequential users. This boundary is advantageous for secure quantum randomness generation, certifying maximum bits per state with one remote and two sequential parties, even if one sequential user shares no nonlocality. Our simple qubit protocol reaches this boundary, and numerical analysis shows improved robustness under realistic noise. A photonic implementation confirms feasibility and robustness. This study advances the understanding of sequential quantum correlations and offers insights for efficient device-independent protocols.

Published
2024
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9. An Extended B' Formulation for Ablating-Surface Boundary Conditions

Author

Padovan, Alberto, Vollmer, Blaine, Panerai, Francesco, Panesi, Marco, Stephani, Kelly A., and Bodony, Daniel J.

Subjects
Physics - Fluid Dynamics
Abstract

The B' formulation can be understood as a mass and energy conservation formalism at a reacting singular surface. In hypersonics applications, it is typically used to compute the chemical equilibrium properties of gaseous mixtures at ablating surfaces, and to estimate the recession velocity of the interface. In the first half of the paper, we derive the B' formulation to emphasize first principles. In particular, while we eventually specialize to the commonly considered case of chemical equilibrium boundary layers that satisfy the heat and mass transfer analogy, we first derive a general interface jump condition that lets us highlight all the underlying assumptions of the well-known B' equations. This procedure helps elucidate the nature of the B' formalism and it also allows us to straightforwardly extend the original formulation. Specifically, when applied at the interface between a porous material and a boundary layer (as in thermal protection systems applications), the original formulation assumes unidirectional advective transport of gaseous species from the porous material to the boundary layer (i.e., blowing). However, under conditions that may appear in hypersonic flight or in ground-based wind tunnels, boundary layer gases can enter the porous material due to a favorable pressure gradient. We show that this scenario can be easily handled via a straightforward modification to the B' formalism, and we demonstrate via examples that accounting for gas entering the material can impact the predicted recession velocity of ablating surfaces. In order to facilitate the implementation of the extended B' formulation in existing material response codes, we present a short algorithm in section 5 and we also refer readers to a GitHub repository where the scripts used to generate the modified B' tables are publicly available.

Published
2023

12. The role of adjuvant chemotherapy in patients with H3K27 altered diffuse midline gliomas: a multicentric retrospective study

Author

Di Nunno, Vincenzo, Lombardi, Giuseppe, Simonelli, Matteo, Minniti, Giuseppe, Mastronuzzi, Angela, Di Ruscio, Valentina, Corrà, Martina, Padovan, Marta, Maccari, Marta, Caccese, Mario, Simonetti, Giorgia, Berlendis, Arianna, Farinotti, Mariangela, Pollo, Bianca, Antonelli, Manila, Di Muzio, Antonio, Dipasquale, Angelo, Asioli, Sofia, De Biase, Dario, Tosoni, Alicia, Silvani, Antonio, and Franceschi, Enrico

Published
2024
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14. International time transfer between precise timing facilities secured with a quantum key distribution network

Author

Picciariello, Francesco, Vedovato, Francesco, Orsucci, Davide, Dominguez, Pablo Nahuel, Zechel, Thomas, Avesani, Marco, Padovan, Matteo, Foletto, Giulio, Calderaro, Luca, Dequal, Daniele, Shrestha, Amita, Blumel, Ludwig, Furthner, Johann, Vallone, Giuseppe, Villoresi, Paolo, Schmidt, Tobias D., and Moll, Florian

Subjects
Quantum Physics
Abstract

Global Navigation Satellite Systems (GNSSs), such as GPS and Galileo, provide precise time and space coordinates globally and constitute part of the critical infrastructure of modern society. To reliably operate GNSS, a highly accurate and stable system time is required, such as the one provided by several independent clocks hosted in Precise Timing Facilities (PTFs) around the world. Periodically, the relative clock offset between PTFs is measured to have a fallback system to synchronize the GNSS satellite clocks. The security and integrity of the communication between PTFs is of paramount importance: if compromised, it could lead to disruptions to the GNSS service. Therefore, it is a compelling use-case for protection via Quantum Key Distribution (QKD), since this technology provides information-theoretic security. We have performed a field trial demonstration of such use-case by sharing encrypted time synchronization information between two PTFs, one located in Oberpfaffenhofen (Germany) and one in Matera (Italy) - more than 900km apart as the crow flies. To bridge this large distance, a satellite-QKD system is required, plus a "last-mile" terrestrial link to connect the optical ground station (OGS) to the actual location of the PTF. In our demonstration we have deployed two full QKD systems to protect the last-mile connection at both the locations and have shown via simulation that upcoming QKD satellites will be able to distribute keys between Oberpfaffenhofen and Matera exploiting already existing OGSs.

Published
2023
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15. Using Technology to Enhance Project-Based Learning in High School: A Phenomenological Study

Author

Mabe, Alexis, Brown, Kelly, Frick, J. Edward, and Padovan, Frederico

Abstract

Educators are tasked with preparing students for college and beyond (Gómez-Pablos et al., 2017). Project-based learning can help achieve this goal (Gómez -Pablos et al., 2017). PBL engages students in real-world problem-solving activities that allow them to take ownership of their own learning and create real products (Zafirov, 2013). The problem this study aimed to solve is how technology can better support PBL so we can better prepare students for the 21st century. It has been argued that technology can directly increase the effectiveness of project-based learning in the classroom (Pitura & Monika, 2018). Effectively leveraging technology during PBL is one of the best ways to help students address real-world problems and prepare for life after college (Brown, Lawless, & Boyer, 2013; Korucu & Cakir, 2018; Pitura & Monika, 2018). The purpose of this phenomenological qualitative study is to understand how technology currently supports project-based learning for educators in secondary schools, and to determine what missing features would be beneficial. The information gained in this study has helped the researcher understand how technology enhances the project-based learning experience. The research also supports an understanding of what features and capabilities are missing in current technology from educators' perspective.

Published
2022

16. Blockchain Applications in the Food Industry: A Pilot Project Implementation in the Ancient Grains Industry

Author

Bindi, Bianca, Padovan, Gloria, Trombi, Giacomo, Bartoloni, Niccolò, Fani, Virginia, Moriondo, Marco, Dibari, Camilla, Bandinelli, Romeo, Rannenberg, Kai, Editor-in-Chief, Soares Barbosa, Luís, Editorial Board Member, Carette, Jacques, Editorial Board Member, Tatnall, Arthur, Editorial Board Member, Neuhold, Erich J., Editorial Board Member, Stiller, Burkhard, Editorial Board Member, Stettner, Lukasz, Editorial Board Member, Pries-Heje, Jan, Editorial Board Member, Kreps, David, Editorial Board Member, Rettberg, Achim, Editorial Board Member, Furnell, Steven, Editorial Board Member, Mercier-Laurent, Eunika, Editorial Board Member, Winckler, Marco, Editorial Board Member, Malaka, Rainer, Editorial Board Member, Danjou, Christophe, editor, Harik, Ramy, editor, Nyffenegger, Felix, editor, Rivest, Louis, editor, and Bouras, Abdelaziz, editor

Published
2024
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20. Continuous-time balanced truncation for time-periodic fluid flows using frequential Gramians

Author

Padovan, Alberto and Rowley, Clarence W.

Subjects
Physics - Fluid Dynamics, Physics - Computational Physics
Abstract

Reduced-order models for flows that exhibit time-periodic behavior are critical for several tasks, including active control and optimization. One well-known procedure to obtain the desired reduced-order model in the proximity of a periodic solution of the governing equations is continuous-time balanced truncation. Within this framework, the periodic reachability and observability Gramians are usually estimated numerically via quadrature using the forward and adjoint post-transient response to impulses. However, this procedure can be computationally expensive, especially in the presence of slowly-decaying transients. Moreover, it can only be performed if the periodic orbit is stable in the sense of Floquet. In order to address these issues, we use the frequency-domain representation of the Gramians, which we henceforth refer to as frequential Gramians. First, these frequential Gramians are well-defined for both stable and unstable dynamics. In particular, we show that when the underlying system is unstable, these Gramians satisfy a pair of allied differential Lyapunov equations. Second, they can be estimated numerically by solving algebraic systems of equations that lend themselves to heavy computational parallelism and that deliver the desired post-transient response without having to follow physical transients. We demonstrate the method on a periodically-forced axisymmetric jet at Reynolds numbers Re=1250 and Re=1500. At the lower Reynolds number, the flow strongly amplifies subharmonic perturbations and exhibits vortex pairing about a Floquet-stable T-periodic solution. At the higher Reynolds number, the underlying T-periodic orbit is unstable and the flow naturally settles onto a 2T-periodic limit cycle characterized by pairing vortices. At both Reynolds numbers, we use a balanced reduced-order model to design a feedback controller and a state estimator to suppress vortex pairing.

Published
2022

21. Model Reduction for Nonlinear Systems by Balanced Truncation of State and Gradient Covariance

Author

Otto, Samuel E., Padovan, Alberto, and Rowley, Clarence W.

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Machine Learning, Mathematics - Dynamical Systems, Mathematics - Optimization and Control, 14M15, 15A03, 15A24, 15A42, 34A45, 34C20, 47B32, 57R35, 57R40, 76D55, 90C06, 93A15, 93C10
Abstract

Data-driven reduced-order models often fail to make accurate forecasts of high-dimensional nonlinear dynamical systems that are sensitive along coordinates with low-variance because such coordinates are often truncated, e.g., by proper orthogonal decomposition, kernel principal component analysis, and autoencoders. Such systems are encountered frequently in shear-dominated fluid flows where non-normality plays a significant role in the growth of disturbances. In order to address these issues, we employ ideas from active subspaces to find low-dimensional systems of coordinates for model reduction that balance adjoint-based information about the system's sensitivity with the variance of states along trajectories. The resulting method, which we refer to as covariance balancing reduction using adjoint snapshots (CoBRAS), is analogous to balanced truncation with state and adjoint-based gradient covariance matrices replacing the system Gramians and obeying the same key transformation laws. Here, the extracted coordinates are associated with an oblique projection that can be used to construct Petrov-Galerkin reduced-order models. We provide an efficient snapshot-based computational method analogous to balanced proper orthogonal decomposition. This also leads to the observation that the reduced coordinates can be computed relying on inner products of state and gradient samples alone, allowing us to find rich nonlinear coordinates by replacing the inner product with a kernel function. In these coordinates, reduced-order models can be learned using regression. We demonstrate these techniques and compare to a variety of other methods on a simple, yet challenging three-dimensional system and a nonlinear axisymmetric jet flow simulation with $10^5$ state variables.

Published
2022

22. Improving well-being and enhancing awareness in patients undergoing hemodialysis through the person-centered IARA model: an exploratory study

Author

Sara Di Marco, Anna M. Padovan, Novella Conti, Francesca Aimasso, Francesca Viazzi, Vincenzo Fontana, Dalila Campanella, Goran Kuvačić, and Andrea De Giorgio

Subjects
psychological state, person-focused, patient-centered, adherence to care, chronic hemodialysis, Medicine (General), R5-920
Abstract

Chronic kidney disease (CKD) globally represents a significant health challenge, particularly among patients undergoing chronic hemodialysis. A careful nutritional and pharmacological prescription plays a key role in the effective management of these patients to optimize serum electrolytes, such as potassium, phosphorus, and protein intake. Furthermore, these patients can suffer psychological distress due to dietary restrictions and tight medication schedules. The present study explores the effectiveness of the person-centered IARA model in improving physiological markers and quality of life in CKD patients undergoing hemodialysis treatment. To demonstrate the effectiveness of the IARA model, 60 patients (M = 40; F = 20; 60.5 ± 9.9 years) undergoing thrice-weekly hemodialysis sessions were enrolled and randomly and blindly assigned to the Control or IARA group. The reduction in abnormal blood potassium, phosphorus, and total protein levels was investigated, alongside the psychological state through the SF-12 questionnaire. Preliminary findings showed a discernible reduction in the frequency of abnormal blood K (> 5.0 mmol/L) and P (> 4.5 mmol/L) levels in the IARA group compared to the Control group. In particular, such reductions were approximately 40% for K (OR = 0.57; 95% CL = 0.23/1.46) and about 15% for P (OR = 0.86; 95% CL = 0.27/2.74). A similar tendency was also observed for patient fluid intake during each hemodialysis session, with the frequency of higher-risk patients in the IARA group being 50% lower (OR = 0.50; 95% CL = 0.07/3.79) than that of the Control group. Although preliminary findings from this study suggest that the IARA model may have a positive effect on CKD patients’ subjective wellbeing and quality of life (QoL), further research is needed to understand the long-term impact of the IARA intervention.

Published
2024
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23. Indirect functional connectivity does not predict overall survival in glioblastoma

Author

Lorenzo Pini, Giuseppe Lombardi, Giulio Sansone, Matteo Gaiola, Marta Padovan, Francesco Volpin, Luca Denaro, Maurizio Corbetta, and Alessandro Salvalaggio

Subjects
Glioblastoma, Disconnections, Functional imaging, Survival prediction, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Background: Lesion network mapping (LNM) is a popular framework to assess clinical syndromes following brain injury. The classical approach involves embedding lesions from patients into a normative functional connectome and using the corresponding functional maps as proxies for disconnections. However, previous studies indicated limited predictive power of this approach in behavioral deficits. We hypothesized similarly low predictiveness for overall survival (OS) in glioblastoma (GBM). Methods: A retrospective dataset of patients with GBM was included (n = 99). Lesion masks were registered in the normative space to compute disconnectivity maps. The brain functional normative connectome consisted in data from 173 healthy subjects obtained from the Human Connectome Project. A modified version of the LNM was then applied to core regions of GBM masks. Linear regression, classification, and principal component (PCA) analyses were conducted to explore the relationship between disconnectivity and OS. OS was considered both as continuous and categorical (low, intermediate, and high survival) variable. Results: The results revealed no significant associations between OS and network disconnection strength when analyzed at both voxel-wise and classification levels. Moreover, patients stratified into different OS groups did not exhibit significant differences in network connectivity patterns. The spatial similarity among the first PCA of network maps for each OS group suggested a lack of distinctive network patterns associated with survival duration. Conclusions: Compared with indirect structural measures, functional indirect mapping does not provide significant predictive power for OS in patients with GBM. These findings are consistent with previous research that demonstrated the limitations of indirect functional measures in predicting clinical outcomes, underscoring the need for more comprehensive methodologies and a deeper understanding of the factors influencing clinical outcomes in this challenging disease.

Published
2024
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24. The Psychological Impact of the COVID-19 Pandemic in Remote Learning in Higher Education

Author

Godoy, Lívea Dornela, Falcoski, Raquel, Incrocci, Roberta Monteiro, Versuti, Fabiana Maris, and Padovan-Neto, Fernando E.

Abstract

Stressful events can cause a significant impact on education; however, it is not yet clear how the interplay between anxiety, work, and social dysfunction relates to learning impairments. In this study, we investigated the impact of the COVID-19 pandemic on students' learning and mental health. This study was conducted during four modules of a remote Psychopharmacology course between 5 October and 20 December 2020. We collected data from 28 Psychology undergraduate students at the University of São Paulo, Brazil. We used pre- and post-test multiple-choice questions to obtain a quantitative measure of learning. Students completed an online survey to report demographic information, functional impairment (Work and Social Adjustment scale; WSAS), generalized anxiety (Generalized Anxiety Disorder scale; GAD-7), coronavirus anxiety (Brazilian adapted version of the Coronavirus Anxiety Scale; CAS-BR), and self-perception with the remote lectures' methodology. In our sample, 42.9% of respondents experienced symptoms of generalized anxiety disorders (GAD-7 [greater than or equal to] 15), and 53.6% had moderate to severe functional impairment (WSAS > 20). We also observed an overlapping profile of highly anxious and dysfunctional students. A chi-square test of independence revealed a relation between pairs of multiple-choice questions answers and GAD-7 scores, indicating that less anxious students were more likely to perform better in pairs of pre- and post-tests. Intriguingly, the correlational analysis suggested that students with moderate to severe functional impairment (WSAS scores > 20) were less likely to change from an incorrect to a correct answer to pairs of pre- and post-tests. This data suggests that psychological distress and anxiety states might influence students' ability to coordinate social and work activities and performance during remote learning. Although this study evaluated a small sample of students, our data highlights the importance of investigating anxiety and functional impairment measures as part of the remote-learning curriculum.

Published
2021

25. The IARA Model Proved Effective in Emotional Literacy, Characters Strengths Awareness, and Cohesion among Italian Children

Author

Maulini, Claudia, Kuvacic, Goran, Savani, Wlady, Zanelli, Vanessa, Padovan, Anna Maria, Bocciolesi, Enrico, and De Giorgio, Andrea

Abstract

Literature highlights how education in the twenty-first century begins to advocate multiple new concepts, such as new technology, new pedagogies, interdisciplinary curricula, open learning, etc. Among these concepts, the recognition and awareness about one's character strengths are demonstrated to improve emotional management and individual/group's quality of life. We studied three fifth-grade Italian classes using an emerging educational model called IARA to verify if it can truly improve emotional literacy, characters strengths awareness, and cohesion in ten-years children. To demonstrate its efficacy, we used Bloom's Taxonomy and Sociogrammatic study. We proved that the IARA could be an efficient model to improve one's character strengths and class milieu awareness.

Published
2021

27. GJ 367b: A dense ultra-short period sub-Earth planet transiting a nearby red dwarf star

Author

Lam, Kristine W. F., Csizmadia, Szilárd, Astudillo-Defru, Nicola, Bonfils, Xavier, Gandolfi, Davide, Padovan, Sebastiano, Esposito, Massimiliano, Hellier, Coel, Hirano, Teruyuki, Livingston, John, Murgas, Felipe, Smith, Alexis M. S., Collins, Karen A., Mathur, Savita, Garcia, Rafael A., Howell, Steve B., Santos, Nuno C., Dai, Fei, Ricker, George R., Vanderspek, Roland, Latham, David W., Seager, Sara, Winn, Joshua N., Jenkins, Jon M., Albrecht, Simon, Almenara, Jose M., Artigau, Etienne, Barragán, Oscar, Bouchy, François, Cabrera, Juan, Charbonneau, David, Chaturvedi, Priyanka, Chaushev, Alexander, Christiansen, Jessie L., Cochran, William D., De Meideiros, José R., Delfosse, Xavier, Díaz, Rodrigo F., Doyon, René, Eigmüller, Philipp, Figueira, Pedro, Forveille, Thierry, Fridlund, Malcolm, Gaisné, Guillaume, Goffo, Elisa, Georgieva, Iskra, Grziwa, Sascha, Guenther, Eike, Hatzes, Artie P., Johnson, Marshall C., Kabáth, Petr, Knudstrup, Emil, Korth, Judith, Lewin, Pablo, Lissauer, Jack J., Lovis, Christophe, Luque, Rafael, Melo, Claudio, Morgan, Edward H., Morris, Robert, Mayor, Michel, Narita, Norio, Osborne, Hannah L. M., Palle, Enric, Pepe, Francesco, Persson, Carina M., Quinn, Samuel N., Rauer, Heike, Redfield, Seth, Schlieder, Joshua E., Ségransan, Damien, Serrano, Luisa M., Smith, Jeffrey C., Šubjak, Ján, Twicken, Joseph D., Udry, Stéphane, Van Eylen, Vincent, and Vezie, Michael

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Ultra-short-period (USP) exoplanets have orbital periods shorter than one day. Precise masses and radii of USPs could provide constraints on their unknown formation and evolution processes. We report the detection and characterization of the USP planet GJ 367b using high precision photometry and radial velocity observations. GJ 367b orbits a bright (V-band magnitude = 10.2), nearby, red (M-type) dwarf star every 7.7 hours. GJ 367b has a radius of $0.718 \pm 0.054$ Earth-radii, a mass of $0.546 \pm 0.078$ Earth-masses, making it a sub-Earth. The corresponding bulk density is $8.106 \pm 2.165$ g cm$^-3$, close to that of iron. An interior structure model predicts the planet has an iron core radius fraction of $86 \pm 5\%$, similar to Mercury's interior., Comment: Note: "This is the author's version of the work. It is posted here by permission of the AAAS for personal use, not for redistribution. The definitive version was published in Science , (2021-12-03), doi: 10.1126/science.aay3253"

Published
2021
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28. Oxidative Stress in Cardiorenal System

Author

Carlos R. Tirapelli and Júlio C. Padovan

Subjects
n/a, Therapeutics. Pharmacology, RM1-950
Abstract

Reactive oxygen species (ROS) is a general term that describes free radicals [e [...]

Published
2024
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29. Deployment-ready quantum key distribution over a classical network infrastructure in Padua

Author

Avesani, Marco, Foletto, Giulio, Padovan, Matteo, Calderaro, Luca, Agnesi, Costantino, Bazzani, Elisa, Berra, Federico, Bertapelle, Tommaso, Picciariello, Francesco, Santagiustina, Francesco B. L., Scalcon, Davide, Scriminich, Alessia, Stanco, Andrea, Vedovato, Francesco, Vallone, Giuseppe, and Villoresi, Paolo

Subjects
Quantum Physics
Abstract

Current technological progress is driving Quantum Key Distribution towards a commercial and world widescale expansion. Its capability to deliver unconditionally secure communication will be a fundamental feature in the next generations of telecommunication networks. Nevertheless, demonstrations of QKD implementation in a real operating scenario and their coexistence with the classical telecom infrastructure are of fundamental importance for reliable exploitation. Here we present a Quantum Key Distribution application implemented overa classical fiber-based infrastructure. By exploiting just a single fiber cable for both the quantum and the classical channel and by using a simplified receiver scheme with just one single-photon detector, we demonstrate the feasibility of low-cost and ready-to-use Quantum Key Distribution systems compatible with standard classical infrastructure., Comment: 5 pages, 5 figures

Published
2021
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34. NGS detection of gene rearrangements and METexon14 mutations in liquid biopsy of advanced NSCLC patients: A study of two Italian centers

Author

Verzè, Michela, Boscolo Bragadin, Andrea, Minari, Roberta, Pasello, Giulia, Perrone, Fabiana, Scattolin, Daniela, Bordi, Paola, Pluchino, Monica, Leonetti, Alessandro, Mazzaschi, Giulia, Bonatti, Francesco, Gnetti, Letizia, Bottarelli, Lorena, Zulato, Elisabetta, Nardo, Giorgia, Dalle Fratte, Chiara, Padovan, Alessia, Bonanno, Laura, Tiseo, Marcello, and Indraccolo, Stefano

Published
2024
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39. Effects of systemic ozone administration on the fresh extraction sockets healing: a histomorphometric and immunohistochemical study in rats

Author

Erton Massamitsu MIYASAWA, Edilson ERVOLINO, Jânderson de Medeiros CARDOSO, Leticia Helena THEODORO, Glauco Rodrigues Carmo SILVEIRA, Rafael Scaf de MOLON, Liran LEVIN, Valdir Gouveia GARCIA, and Luis Eduardo Marques PADOVAN

Subjects
Ozone therapy, Bone healing, Animal research, Rats, Dentistry, RK1-715
Abstract

Abstract Studies have highlighted numerous benefits of ozone therapy in the field of medicine and dentistry, including its antimicrobial efficacy against various pathogenic microorganisms, its ability to modulate the immune system effectively, reduce inflammation, prevent hypoxia, and support tissue regeneration. However, its effects on dental extraction healing remain to be elucidated. Objective Therefore, this study aimed to evaluate the effects of systemically administered ozone (O3) at different doses in the healing of dental extraction sockets in rats. Methodology To this end, 72 Wistar rats were randomly divided into four groups after extraction of the right upper central incisor: Group C – control, no systemic treatment; Group OZ0.3 – animals received a single dose of 0.3 mg/kg O3; Group OZ0.7 – a single dose of 0.7 mg/kg O3; and Group OZ1.0 – a single dose of 1.0 mg/kg O3, intraperitoneally. In total, six animals from each group were euthanized at 7, 14, and 21 days after the commencement of treatment. Bone samples were harvested and further analyzed by descriptive histology, histomorphometry, and immunohistochemistry for osteocalcin (OCN) and tartrate-resistant acid phosphatase (TRAP) protein expression. Results All applied doses of O3 were shown to increase the percentage of bone tissue (PBT) after 21 days compared to group C. After 14 days, the OZ0.7 and OZ1.0 groups showed significantly higher PBT when compared to group C. The OZ1.0 group presented the most beneficial results regarding PBT among groups, which denotes a dose-dependent response. OCN immunostaining was higher in all groups at 21 days. However, after seven and 14 days, the OZ1.0 group showed a significant increase in OCN immunostaining compared to C group. No differences in TRAP+ osteoclasts were found between groups and time points. Conclusion Therefore, O3 therapy at higher doses might be beneficial for bone repair of the alveolar socket following tooth extraction.

Published
2024
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40. Flow boiling of R32 and R410A inside brazed plate heat exchangers with different geometries

Author

Giuseppe Censi and Andrea Padovan

Subjects
Flow boiling, Brazed plate, Evaporator, R32, Heat pump, Distribution, Heat, QC251-338.5
Abstract

A proposed midterm substitute of R410A, mixture with 1924 GWP100 (Global Warming Potential over 100 years), is R32 (GWP100 = 677), which, although mildly flammable, is pure, relatively cheap, already available on the market, with different suppliers due to the absence of patents. Moreover, its thermo-physical properties are already well known. Increasingly stringent energy saving regulations are boosting the residential heat pump market, which typically requires reversible brazed plate heat exchangers to be used both as evaporators and condensers. This work reports an experimental analysis of the two refrigerants during flow boiling in brazed plate heat exchangers, varying the channel volumes. The number of plates of the heat exchangers ranges from 4 (1 refrigerant channel) to 120 (59 refrigerant channels in parallel). The heat transfer coefficient and the pressure drop have been measured for R410A and R32 at saturation temperature between 1.5 °C and 5.5 °C, outlet vapour superheating of 5 K, heat flux from 4 to 31 kW m−2, mass velocity from 8 to 87 kg m−2 s−1 and inlet channels vapour quality from 0.2 to 0.3. The number of plates affects the distribution of the liquid-vapour mixture in the channels and its effect is discussed by comparing the heat transfer coefficients. It is shown that the differences in performance between the two fluids increase with the mass velocity, suggesting the influence of a convective component on the heat transfer coefficient. This is further confirmed by comparing the data with the results of two different models from literature.

Published
2024
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41. Management of pregnancy in autoimmune rheumatic diseases: maternal disease course, gestational and neonatal outcomes and use of medications in the prospectiveItalian P-RHEUM.it study

Author

Carlo Alberto Scirè, Alessandra Bortoluzzi, Andrea Doria, Micaela Fredi, Marcello Govoni, Chiara Tani, Angela Tincani, Maurizio Cutolo, Marta Mosca, Florenzo Iannone, Elena Elefante, Margherita Zen, Maddalena Larosa, Paola Conigliaro, Maria Sole Chimenti, Veronica Codullo, Cecilia Nalli, Veronique Ramoni, Carlomaurizio Montecucco, Marco Taglietti, Valentina Picerno, Greta Carrara, Laura Andreoli, Chiara Marvisi, Carlo Salvarani, Serena Guiducci, Antonio Luca Brucato, Franco Franceschini, Giandomenico Sebastiani, Marta Tonello, Silvia Bellando-Randone, Dina Zucchi, Giovanna Cuomo, Maria Letizia Urban, Maria Gerosa, Ettore Silvagni, Elisa Bellis, Francesca Bellisai, Alessandra Milanesi, Patrizia Rovere-Querini, Ariela Hoxha, Salvatore D'Angelo, Sonia Zatti, Emanuele Bizzi, Gianpiero Landolfi, Bernd Raffeiner, Leonardo Santo, Teresa Del Ross, Maria Stefania Cutro, Giulia Pazzola, Oscar Massimiliano Epis, Sara Benedetti, Maria Favaro, Antonia Calligaro, Annamaria Iuliano, Sabrina Gori, Francesca Crisafulli, Matteo Filippini, Maria Chiara Gerardi, Maria Grazia Lazzaroni, Cecilia Beatrice Chighizola, Laura Trespidi, Maria Chiara Ditto, Cristina Zanardini, Roberta Erra, Melissa Padovan, Irene Mattioli, Davide Rozza, Claudia Lomater, Daniele Lini, Valentina Canti, Rebecca De Lorenzo, Francesca Ruffilli, Giulia Carrea, Ludovica Cavallo, Alessandra Zambon, Claudia Barison, Francesca Serale, Paolo Semeraro, Chiara Loardi, Rossana Orabona, Francesca Ramazzotto, Giulia Fontana, Giorgia Gozzoli, Paola Bizioli, Roberto Felice Caporali, Manuela Wally Ossola, Beatrice Maranini, Danila Morano, Rosita Verteramo, Maria Grazia Anelli, Marlea Lavista, Anna Abbruzzese, Carlo Giuseppe Fasano, Teresa Carbone, Angela Anna Padula, Giuseppina Comitini, Giuseppina Di Raimondo, Clizia Gagliardi, Gloria Crepaldi, Estrella Garcia Gonzalez, Anna Paola Pata, Martina Zerbinati, and Sara Tonetta

Subjects
Medicine
Abstract

Objectives To investigate pregnancy outcomes in women with autoimmune rheumatic diseases (ARD) in the Italian prospective cohort study P-RHEUM.it.Methods Pregnant women with different ARD were enrolled for up to 20 gestational weeks in 29 Rheumatology Centres for 5 years (2018–2023). Maternal and infant information were collected in a web-based database.Results We analysed 866 pregnancies in 851 patients (systemic lupus erythematosus was the most represented disease, 19.6%). Maternal disease flares were observed in 135 (15.6%) pregnancies. 53 (6.1%) pregnancies were induced by assisted reproduction techniques, 61 (7%) ended in miscarriage and 11 (1.3%) underwent elective termination. Obstetrical complications occurred in 261 (30.1%) pregnancies, including 2.3% pre-eclampsia. Two cases of congenital heart block were observed out of 157 pregnancies (1.3%) with anti-Ro/SSA. Regarding treatments, 244 (28.2%) pregnancies were treated with glucocorticoids, 388 (44.8%) with hydroxychloroquine, 85 (9.8%) with conventional synthetic disease-modifying anti-rheumatic drugs and 122 (14.1%) with biological disease-modifying anti-rheumatic drugs. Live births were 794 (91.7%), mostly at term (84.9%); four perinatal deaths (0.5%) occurred. Among 790 newborns, 31 (3.9%) were small-for-gestational-age and 169 (21.4%) had perinatal complications. Exclusive maternal breast feeding was received by 404 (46.7%) neonates. The Edinburgh Postnatal Depression Scale was compiled by 414 women (52.4%); 89 (21.5%) scored positive for emotional distress.Conclusions Multiple factors including preconception counselling and treat-to-target with pregnancy-compatible medications may have contributed to mitigate disease-related risk factors, yielding limited disease flares, good pregnancy outcomes and frequency of complications which were similar to the Italian general obstetric population. Disease-specific issues need to be further addressed to plan preventative measures.

Published
2024
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42. Encoding and context-dependent control of reward consumption within the central nucleus of the amygdala

Author

Kurt M. Fraser, Tabitha H. Kim, Matilde Castro, Céline Drieu, Yasmin Padovan-Hernandez, Bridget Chen, Fiona Pat, David J. Ottenheimer, and Patricia H. Janak

Subjects
Biological sciences, Neuroscience, Behavioral neuroscience, Science
Abstract

Summary: Dysregulation of the central amygdala is thought to underlie aberrant choice in alcohol use disorder, but the role of central amygdala neural activity during reward choice and consumption is unclear. We recorded central amygdala neurons in male rats as they consumed alcohol or sucrose. We observed activity changes at the time of reward approach, as well as lick-entrained activity during ongoing consumption of both rewards. In choice scenarios where rats could drink sucrose, alcohol, or quinine-adulterated alcohol with or without central amygdala optogenetic stimulation, rats drank more of stimulation-paired options when the two bottles contained identical options. Given a choice among different options, central amygdala stimulation usually enhanced consumption of stimulation-paired rewards. However, optogenetic stimulation during consumption of the less-preferred option, alcohol, was unable to enhance alcohol intake while sucrose was available. These findings indicate that the central amygdala contributes to refining motivated pursuit toward the preferred available option.

Published
2024
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43. Bidrag til velfærdsracismens teoretiske konstruktion

Author

Marta Padovan-Özdemir and Trine Øland

Subjects
Racisme, integration, velfærdsarbejde, flygtninge, standardfortællinger, historisk rekursivitet, Professions (General). Professional employees, HD8038
Abstract

Denne artikel skærper indsigterne fra bogen Racism in Danish Welfare Work with Refugees – Troubled by Difference, Docility and Dignity (2022) ved at stille skarpt på bogens teoretiske bidrag med omdrejningspunkt i begrebet velfærdsracisme. Med udgangspunkt i korte beskrivelser af bogens teoretisk-analytiske tilgang, empiriske materiale og analytiske arbejde, udfolder artiklen, hvordan velfærdsracisme kan forstås som næret af en integrationistisk epistemologi i velfærdsarbejdet i form af de racialt kodede grundkategorier udvikling, menneske, samfund og professionalisme; som historisk rekursivitet i kraft af de moderne spøgelser forskel, føjelighed og værdighed, der til stadighed dukker op i velfærdsarbejdet med flygtninge; og som udtrykt i velfærdsarbejdets standardfortællinger om farveblindhed, potentialisering og medfølelse, som velfærdsarbejderne igennem deres arbejde kontinuerligt investerer i, hvorved sociale grænser for menneske og samfund patruljeres og den integrationistiske epistemologi institutionaliseres. På denne baggrund konkluderer vi, at velfærdsracismen forhindrer velfærdsarbejdets universelle realisering.

Published
2024

44. P138 Pregnancy outcomes in SLE patients treated with belimumab: the Italian experience

Author

Andrea Doria, Micaela Fredi, Angela Tincani, Margherita Zen, Luca Iaccarino, Cecilia Nalli, Laura Andreoli, Franco Franceschini, Giacomo Emmi, Maria Letizia Urban, Maria Gerosa, Francesca Saccon, Leonardo Santo, Emanuela Praino, Francesca Crisafulli, Maria Chiara Gerardi, Melissa Padovan, Valentina Canti, and Francesca Ruffilli

Subjects
Immunologic diseases. Allergy, RC581-607
Published
2024
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45. Efficacy of osimertinib and the role of sequential liquid biopsy in patients diagnosed with NSCLC harboring EGFR and BRAF mutations at baseline: insights from two case reports

Author

Loc Carlo Bao, Alessia Padovan, Andrea Boscolo Bragadin, Lorenzo Calvetti, Valentina Guarneri, Laura Bonanno, and Stefano Indraccolo

Subjects
liquid biopsy, EGFR, NSCLC, BRAF, co-mutation, NGS, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Epidermal Growth Factor Receptor (EGFR) and B-Raf (BRAF) mutations are two of the most important drivers identified in non-small-cell lung cancer (NSCLC). This report highlights two cases of patients diagnosed with metastatic NSCLC bearing concurrent EGFR and BRAF mutations at baseline and treated with osimertinib as first-line treatment. Molecular profiling was conducted in the tissue and plasma at the time of initial diagnosis, and subsequent repeated liquid biopsy examinations were planned after 10 days, 28 days, and at the time of radiological progression in the frame of the prospective translational study REM. These cases suggest that osimertinib may maintain its therapeutic effectiveness even in patients presenting with a baseline BRAF co-mutation. Notably, radiological responses align with liquid biopsy observations: in both instances, follow-up liquid biopsies indicate the clearance of EGFR-mutated circulating tumor DNA (ctDNA).

Published
2024
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48. Optimizing Oblique Projections for Nonlinear Systems using Trajectories

Author

Otto, Samuel E., Padovan, Alberto, and Rowley, Clarence W.

Subjects
Mathematics - Optimization and Control, Mathematics - Dynamical Systems, Physics - Fluid Dynamics, 14M15, 15A03, 34A45, 34C20, 49J27, 49J30, 49M37, 76D55, 90C06, 90C26, 90C45, 93A15, 93C10
Abstract

Reduced-order modeling techniques, including balanced truncation and $\mathcal{H}_2$-optimal model reduction, exploit the structure of linear dynamical systems to produce models that accurately capture the dynamics. For nonlinear systems operating far away from equilibria, on the other hand, current approaches seek low-dimensional representations of the state that often neglect low-energy features that have high dynamical significance. For instance, low-energy features are known to play an important role in fluid dynamics where they can be a driving mechanism for shear-layer instabilities. Neglecting these features leads to models with poor predictive accuracy despite being able to accurately encode and decode states. In order to improve predictive accuracy, we propose to optimize the reduced-order model to fit a collection of coarsely sampled trajectories from the original system. In particular, we optimize over the product of two Grassmann manifolds defining Petrov-Galerkin projections of the full-order governing equations. We compare our approach with existing methods including proper orthogonal decomposition, balanced truncation-based Petrov-Galerkin projection, quadratic-bilinear balanced truncation, and the quadratic-bilinear iterative rational Krylov algorithm. Our approach demonstrates significantly improved accuracy both on a nonlinear toy model and on an incompressible (nonlinear) axisymmetric jet flow with $10^5$ states.

Published
2021

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