Your search keyword '"Buffa, A."' showing total 9,472 results

1. The Immersed Boundary Conformal Method for Kirchhoff-Love and Reissner-Mindlin shells

Author

Guarino, Giuliano, Milazzo, Alberto, Buffa, Annalisa, and Antolin, Pablo

Subjects

Mathematics - Numerical Analysis

Abstract

This work utilizes the Immersed Boundary Conformal Method (IBCM) to analyze Kirchhoff-Love and Reissner-Mindlin shell structures within an immersed domain framework. Immersed boundary methods involve embedding complex geometries within a background grid, which allows for great flexibility in modeling intricate shapes and features despite the simplicity of the approach. The IBCM method introduces additional layers conformal to the boundaries, allowing for the strong imposition of Dirichlet boundary conditions and facilitating local refinement. In this study, the construction of boundary layers is combined with high-degree spline-based approximation spaces to further increase efficiency. The Nitsche method, employing non-symmetric average operators, is used to couple the boundary layers with the inner patch, while stabilizing the formulation with minimal penalty parameters. High-order quadrature rules are applied for integration over cut elements and patch interfaces. Numerical experiments demonstrate the efficiency and accuracy of the proposed formulation, highlighting its potential for complex shell structures modeled through Kirchhoff-Love and Reissner-Mindlin theories. These tests include the generation of conformal interfaces, the coupling of Kirchhoff-Love and Reissner-Mindlin theories, and the simulation of a damaged shell.

Published

2024

2. An Interior Penalty coupling strategy for Isogeometric non-conformal Kirchhoff-Love shell patches

Author

Guarino, Giuliano, Antolin, Pablo, Milazzo, Alberto, and Buffa, Annalisa

Subjects

Mathematics - Numerical Analysis

Abstract

This work focuses on the coupling of trimmed shell patches using Isogeometric Analysis, based on higher continuity splines that seamlessly meet the $C^1$ requirement of Kirchhoff-Love-based discretizations. Weak enforcement of coupling conditions is achieved through the symmetric interior penalty method, where the fluxes are computed using their correct variationally consistent expression that was only recently proposed and is unprecedentedly adopted herein in the context of coupling conditions. The constitutive relationships account for generically laminated materials, although the proposed tests are conducted under the assumption of uniform thickness and lamination sequence. Numerical experiments assess the method for an isotropic and a laminated plate, as well as an isotropic hyperbolic paraboloid shell from the new shell obstacle course. The boundary conditions and domain force are chosen to reproduce manufactured analytical solutions, which are taken as reference to compute rigorous convergence curves in the $L^2$, $H^1$, and $H^2$ norms, that closely approach optimal ones predicted by theory. Additionally, we conduct a final test on a complex structure comprising five intersecting laminated cylindrical shells, whose geometry is directly imported from a STEP file. The results exhibit excellent agreement with those obtained through commercial software, showcasing the method's potential for real-world industrial applications., Comment: Engineering with Computers. 2024

Published

2024

3. Pollinator abundance, not the richness, benefits from urban green spaces in intensive agricultural land

Author

Lorenzato, Leonardo, Fantinato, Edy, Sommaggio, Daniele, Favarin, Sebastiano, and Buffa, Gabriella

Published

2024

4. Resignifying Compliance Between Ontologies and Epistemologies of Law (Invited Paper)

Author

Buffa, Matteo, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Saeki, Motoshi, editor, Wong, Leah, editor, Araujo, João, editor, Ayora, Clara, editor, Bernasconi, Anna, editor, Buffa, Matteo, editor, Castano, Silvana, editor, Fettke, Peter, editor, Fill, Hans-Georg, editor, García S., Alberto, editor, Goulão, Miguel, editor, Griffo, Cristine, editor, Jung, Jin-Taek, editor, Köpke, Julius, editor, Marín, Beatriz, editor, Montanelli, Stefano, editor, Rohrer, Edelweis, editor, and Román, José F. Reyes, editor

Published

2025

5. Robust mass lumping and outlier removal strategies in isogeometric analysis

Author

Voet, Yannis, Sande, Espen, and Buffa, Annalisa

Subjects

Mathematics - Numerical Analysis, 65M60, 65F15

Abstract

Mass lumping techniques are commonly employed in explicit time integration schemes for problems in structural dynamics and both avoid solving costly linear systems with the consistent mass matrix and increase the critical time step. In isogeometric analysis, the critical time step is constrained by so-called "outlier" frequencies, representing the inaccurate high frequency part of the spectrum. Removing or dampening these high frequencies is paramount for fast explicit solution techniques. In this work, we propose robust mass lumping and outlier removal techniques for nontrivial geometries, including multipatch and trimmed geometries. Our lumping strategies provably do not deteriorate (and often improve) the CFL condition of the original problem and are combined with deflation techniques to remove persistent outlier frequencies. Numerical experiments reveal the advantages of the method, especially for simulations covering large time spans where they may halve the number of iterations with little or no effect on the numerical solution., Comment: 31 pages, 16 figures. Submitted manuscript

Published

2024

6. Study of solar brightness profiles in the 18-26 GHz frequency range with INAF radio telescopes II. Evidence for coronal emission

Author

Marongiu, M., Pellizzoni, A., Righini, S., Mulas, S., Nesti, R., Burtovoi, A., Romoli, M., Serra, G., Valente, G., Egron, E., Murtas, G., Iacolina, M. N., Melis, A., Guglielmino, S. L., Loru, S., Zucca, P., Zanichelli, A., Bachetti, M., Bemporad, A., Buffa, F., Concu, R., Deiana, G. L., Karakotia, C., Ladu, A., Maccaferri, A., Marongiu, P., Messerotti, M., Navarrini, A., Orfei, A., Ortu, P., Pili, M., Pisanu, T., Pupillo, G., Romano, P., Saba, A., Schirru, L., Tiburzi, C., Abbo, L., Frassati, F., Giarrusso, M., Jerse, G., Landini, F., Pancrazzi, M., Russano, G., Sasso, C., and Susino, R.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

One of the most important objectives of solar physics is the physical understanding of the solar atmosphere, the structure of which is also described in terms of the density (N) and temperature (T) distributions of the atmospheric matter. Several multi-frequency analyses show that the characteristics of these distributions are still debated, especially for the outer coronal emission. We aim to constrain the T and N distributions of the solar atmosphere through observations in the centimetric radio domain. We employ single-dish observations from two of the INAF radio telescopes at the K-band frequencies (18 - 26 GHz). We investigate the origin of the significant brightness temperature ($T_B$) level that we detected up to the upper corona ($\sim 800$ Mm of altitude with respect to the photospheric solar surface). To probe the physical origin of the atmospheric emission and to constrain instrumental biases, we reproduced the solar signal by convolving specific 2D antenna beam models. The analysis of the solar atmosphere is performed by adopting a physical model that assumes the thermal bremsstrahlung as the emission mechanism, with specific T and N distributions. The modelled $T_B$ profiles are compared with those observed by averaging solar maps obtained during the minimum of solar activity (2018 - 2020). The T and N distributions are compatible (within $25\%$ of uncertainty) with the model up to $\sim 60$ Mm and $\sim 100$ Mm of altitude, respectively. The analysis of the role of the antenna beam pattern on our solar maps proves the physical nature of the atmospheric emission in our images up to the coronal tails seen in our $T_B$ profiles. The challenging analysis of the coronal radio emission at higher altitudes, together with the data from satellite instruments will require further multi-frequency measurements., Comment: 12 pages, 8 figures, 5 tables, accepted by A&A; v1

Published

2024

7. Study of solar brightness profiles in the 18-26 GHz frequency range with INAF radio telescopes I: solar radius

Author

Marongiu, M., Pellizzoni, A., Mulas, S., Righini, S., Nesti, R., Murtas, G., Egron, E., Iacolina, M. N., Melis, A., Valente, G., Serra, G., Guglielmino, S. L., Zanichelli, A., Romano, P., Loru, S., Bachetti, M., Bemporad, A., Buffa, F., Concu, R., Deiana, G. L., Karakotia, C., Ladu, A., Maccaferri, A., Marongiu, P., Messerotti, M., Navarrini, A., Orfei, A., Ortu, P., Pili, M., Pisanu, T., Pupillo, G., Saba, A., Schirru, L., Tiburzi, C., and Zucca, P.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The Sun is an extraordinary workbench, from which several fundamental astronomical parameters can be measured with high precision. Among these parameters, the solar radius $R_{\odot}$ plays an important role in several aspects, such as in evolutionary models. Despite the efforts in obtaining accurate measurements of $R_{\odot}$, the subject is still debated and measurements are puzzling and/or lacking in many frequency ranges. We aimed to determine the mean, equatorial, and polar radii of the Sun ($R_c$, $R_{eq}$, and $R_{pol}$) in the frequency range 18.1 - 26.1 GHz. We employed single-dish observations from the newly-appointed Medicina "Gavril Grueff" Radio Telescope and the Sardinia Radio Telescope (SRT) throughout 5 years, from 2018 to mid-2023, in the framework of the SunDish project for solar monitoring. Two methods to calculate the radius at radio frequencies are considered and compared. To assess the quality of our radius determinations, we also analysed the possible degrading effects of the antenna beam pattern on our solar maps, using two 2D-models. We carried out a correlation analysis with the evolution of the solar cycle through the calculation of Pearson's correlation coefficient $\rho$. We obtained several values for the solar radius - ranging between 959 and 994 arcsec - and $\rho$, with typical errors of a few arcsec. Our $R_{\odot}$ measurements, consistent with values reported in literature, suggest a weak prolatness of the solar limb ($R_{eq}$ > $R_{pol}$), although $R_{eq}$ and $R_{pol}$ are statistically compatible within 3$\sigma$ errors. The correlation analysis using the solar images from Grueff shows (1) a positive correlation between the solar activity and the temporal variation of $R_c$ (and $R_{eq}$) at all observing frequencies, and (2) a weak anti-correlation between the temporal variation of $R_{pol}$ and the solar activity at 25.8 GHz., Comment: 18 pages, 12 figures, 6 tables, accepted by A&A; v1

Published

2024

8. An equilibrated flux a posteriori error estimator for defeaturing problems

Author

Buffa, Annalisa, Chanon, Ondine, Grappein, Denise, Vázquez, Rafael, and Vohralík, Martin

Subjects

Mathematics - Numerical Analysis, 65N15, 65N30

Abstract

An a posteriori error estimator based on an equilibrated flux reconstruction is proposed for defeaturing problems in the context of finite element discretizations. Defeaturing consists in the simplification of a geometry by removing features that are considered not relevant for the approximation of the solution of a given PDE. In this work, the focus is on Poisson equation with Neumann boundary conditions on the feature boundary. The estimator accounts both for the so-called defeaturing error and for the numerical error committed by approximating the solution on the defeatured domain. Unlike other estimators that were previously proposed for defeaturing problems, the use of the equilibrated flux reconstruction allows to obtain a sharp bound for the numerical component of the error. Furthermore, it does not require the evaluation of the normal trace of the numerical flux on the feature boundary: this makes the estimator well-suited for finite element discretizations, in which the normal trace of the numerical flux is typically discontinuous across elements. The reliability of the estimator is proven and verified on several numerical examples. Its capability to identify the most relevant features is also shown, in anticipation of a future application to an adaptive strategy.

Published

2023

9. Improving the Industrial Efficiency of Recycling Aluminum Alloy Chips Using Friction Stir Extrusion: Thin Wires Production Process

Author

Buffa, Gianluca, Campanella, Davide, Adnan, Muhammad, La Commare, Umberto, Ingarao, Giuseppe, and Fratini, Livan

Published

2024

10. Quality improvement in medicines regulation: a retrospective analysis of the Pharmacy Board of Sierra Leone before and during quality management system implementation

Author

Michael Lahai, Laurie Lake, Ahmed Vandy, Bondu Sebba, Mohamed Sesay, Onome T. Abiri, Joy Johnson, Tamba Buffa, Abdulai Kanu, Mohamed Bawoh, James P. Komeh, and Wiltshire C.N Johnson

Subjects

National medicines regulatory authorities, Pharmacy board of Sierra Leone, Substandard and falsified medicines, Medicines regulation, Quality assurance, Public aspects of medicine, RA1-1270

Abstract

Abstract Background National Medicines Regulatory Authorities like the Pharmacy Board of Sierra Leone are responsible for protecting and promoting public health, implementing regulatory standards, and maintaining a supply chain with an assured supply of medical products that are safe, effective, and of good quality. This retrospective study assesses the identification of substandard and falsified medicines, the changes in the functions and key indicators of assessment, and the quality improvement changes of the Pharmacy Board of Sierra Leone. Methods Data was obtained from 2013 to 2021 records using a data collection tool to collate and review all relevant information to address the different objectives. All data were sourced from the Department of Quality Assurance and the Department of Enforcement and Narcotics at the Pharmacy Board of Sierra Leone. The review also included, identified substandard and falsified medicines, the World Health Organisation Global benchmarking self-assessment tool, and internal and external audit records of the quality management system of all twelve departments of the Pharmacy Board of Sierra Leone. Results The study showed marked changes in identifying substandard and falsified medicines by the Pharmacy Board of Sierra Leone during ISO 9001:2015 implementation (2017- 2020) compared to Pre-ISO 9001:2015 implementation (2013- 2016). Critical functions of the Pharmacy Board of Sierra Leone from the assessment of the WHO GBT ML in 2016 and 2021 showed that several indicators had been addressed during ISO 9001:2015 certification with improvement in the level of maturity for the quality management systems and Pharmacovigilance functions. There was also an improvement in identifying non-conformances and a commitment to continuous improvement of processes during ISO 9001:2015 implementation. Conclusions This study revealed that regular checks through standard assessment, internal audits, and standard management review processes that generate follow-up actions, timelines, and a commitment to identifying correction, and corrective actions for non-conformances are essential quality improvement tools for the efficient functioning of an institution (Pharmacy Board of Sierra Leone). Our study revealed that commitment to continuous implementation of proper quality management system could significantly improve institutional efficiency, thereby improving service delivery and customer satisfaction.

Published

2024

11. Study protocol for Near-infrared molecular imaging for lung cancer detection and treatment during mini-invasive surgery (phase II Trial) - (the RECOGNISE study)

Author

Eleonora Della Beffa, Paraskevas Lyberis, Giulio Luca Rosboch, Alberto Arezzo, Filippo Lococo, Laura Carena, Elisa Sciorsci, Valentina Monica, Paolo Olivo Lausi, Veronica Dusi, Francesco Paolo Busardò, Elena Buffa, Rachele Stefania, Giovannino Ciccone, Chiara Monagheddu, Beatrice Maria Capello, Raffaella Vancheri, Pamela Garrone, Fulvio Gabbarini, Francesco Cattel, Enrico Ruffini, and Francesco Guerrera

Subjects

Cetuximab-IRDye800CW, Lung cancer, VATS, Thoracic surgery, Lung nodule, NIR imaging, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Introduction. To date, radical surgery remains the best curative option in patients with early-stage lung cancer. In patients with small lung lesions, video-assisted thoracic surgery (VATS) should be increasingly chosen as a fundamental alternative to thoracotomy as it is associated with less postoperative pain and better quality of life. This scenario necessarily increases the need for thoracic surgeons to implement new localization techniques. The conventional near-infrared (NIR) indocyanine green (ICG) method demonstrated a significant limitation in deep cancer recognition, principally due to its intrinsic low-depth tissue penetration. Similarly, the lymph-node sentinel approach conducted by the ICG method was demonstrated to be inefficient, mainly due to the non-specificity of the tracker and the irregular pathway of pulmonary lymph node drainage. Our study aims to evaluate the effectiveness of Cetuximab- IRDye800CW in marking lung nodules and mediastinal lymph nodes. Methods and analysis. This study is defined as an open-label, single-arm, single-stage phase II trial evaluating the effectiveness of Cetuximab-IRDye800CW in detecting tumors and lymph-node metastases in patients with lung cancer who are undergoing video-assisted thoracic surgery (VATS). Cetuximab is a monoclonal antibody that binds, inhibits, and degrade the EGFR. The IRDye® 800CW, an indocyanine-type NIR fluorophore, demonstrated enhanced tissue penetration compared to other NIR dyes. The combination with the clinical approved monoclonal antibody anti-epidermal growth factor EGFR Cetuximab (Cetuximab-IRDye800) has shown promising results as a specific tracker in different cancer types (i.e., brain, pancreas, head, and neck). The study’s primary outcome is focused on the proportion of patients with lung nodules detected during surgery using an NIR camera. The secondary outcomes include a broad spectrum of items, including the proportion of patients with detection of unexpected cancer localization during surgery by NIR camera and the proportion of patients with negative surgical margins, the evaluation of the time spawns between the insertion of the NIR camera and the visualization of the nodule and the possible morbidity of the drug assessed during and after the drug infusion. Ethics and dissemination. This trial has been approved by the Ethical Committee of Azienda Ospedaliera Universitaria Città della Salute e della Scienza di Torino (Torino, Italy) and by the Italian Medicines Agency (AIFA). Findings will be written as methodology papers for conference presentations and published in peer-reviewed journals. The Azienda Ospedaliera Universitaria Città della Salute e della Scienza di Torino, the University of Torino, and the AIRC Public Engagement Divisions will help identify how best to publicize the findings. Trial registration EudraCT 202,100,645,430. ClinicalTrials.gov NCT06101394 (October 23, 2023).

Published

2024

12. GeneFEAST: the pivotal, gene-centric step in functional enrichment analysis interpretation

Author

Taylor, Avigail, Macaulay, Valentine M, Maurya, Anand K, Miossec, Matthieu J, and Buffa, Francesca M

Subjects

Quantitative Biology - Quantitative Methods

Abstract

Summary: GeneFEAST, implemented in Python, is a gene-centric functional enrichment analysis summarisation and visualisation tool that can be applied to large functional enrichment analysis (FEA) results arising from upstream FEA pipelines. It produces a systematic, navigable HTML report, making it easy to identify sets of genes putatively driving multiple enrichments and to explore gene-level quantitative data first used to identify input genes. Further, GeneFEAST can compare FEA results from multiple studies, making it possible, for example, to highlight patterns of gene expression amongst genes commonly differentially expressed in two sets of conditions, and giving rise to shared enrichments under those conditions. GeneFEAST offers a novel, effective way to address the complexities of linking up many overlapping FEA results to their underlying genes and data, advancing gene-centric hypotheses, and providing pivotal information for downstream validation experiments. Availability: GeneFEAST is available at https://github.com/avigailtaylor/GeneFEAST Contact: avigail.taylor@well.ox.ac.uk, Comment: Main text: 3 pages, 1 figure. Supplementary Information: 16 pages, 3 figures, 2 tables, 4 boxes

Published

2023

13. Reduced Order Modeling based Inexact FETI-DP solver for lattice structures

Author

Hirschler, Thibaut, Bouclier, Robin, Antolin, Pablo, and Buffa, Annalisa

Subjects

Mathematics - Numerical Analysis, Computer Science - Computational Engineering, Finance, and Science

Abstract

This paper addresses the overwhelming computational resources needed with standard numerical approaches to simulate architected materials. Those multiscale heterogeneous lattice structures gain intensive interest in conjunction with the improvement of additive manufacturing as they offer, among many others, excellent stiffness-to-weight ratios. We develop here a dedicated HPC solver that benefits from the specific nature of the underlying problem in order to drastically reduce the computational costs (memory and time) for the full fine-scale analysis of lattice structures. Our purpose is to take advantage of the natural domain decomposition into cells and, even more importantly, of the geometrical and mechanical similarities among cells. Our solver consists in a so-called inexact FETI-DP method where the local, cell-wise operators and solutions are approximated with reduced order modeling techniques. Instead of considering independently every cell, we end up with only few principal local problems to solve and make use of the corresponding principal cell-wise operators to approximate all the others. It results in a scalable algorithm that saves numerous local factorizations. Our solver is applied for the isogeometric analysis of lattices built by spline composition, which offers the opportunity to compute the reduced basis with macro-scale data, thereby making our method also multiscale and matrix-free. The solver is tested against various 2D and 3D analyses. It shows major gains with respect to black-box solvers; in particular, problems of several millions of degrees of freedom can be solved with a simple computer within few minutes., Comment: 30 pages, 12 figures, 2 tables

Published

2023

14. Fast parametric analysis of trimmed multi-patch isogeometric Kirchhoff-Love shells using a local reduced basis method

Author

Chasapi, Margarita, Antolin, Pablo, and Buffa, Annalisa

Subjects

Mathematics - Numerical Analysis

Abstract

This contribution presents a model order reduction framework for real-time efficient solution of trimmed, multi-patch isogeometric Kirchhoff-Love shells. In several scenarios, such as design and shape optimization, multiple simulations need to be performed for a given set of physical or geometrical parameters. This step can be computationally expensive in particular for real world, practical applications. We are interested in geometrical parameters and take advantage of the flexibility of splines in representing complex geometries. In this case, the operators are geometry-dependent and generally depend on the parameters in a non-affine way. Moreover, the solutions obtained from trimmed domains may vary highly with respect to different values of the parameters. Therefore, we employ a local reduced basis method based on clustering techniques and the Discrete Empirical Interpolation Method to construct affine approximations and efficient reduced order models. In addition, we discuss the application of the reduction strategy to parametric shape optimization. Finally, we demonstrate the performance of the proposed framework to parameterized Kirchhoff-Love shells through benchmark tests on trimmed, multi-patch meshes including a complex geometry. The proposed approach is accurate and achieves a significant reduction of the online computational cost in comparison to the standard reduced basis method., Comment: 44 pages, 23 figures, 3 tables

Published

2023

15. PDE-Based Parameterisation Techniques for Planar Multipatch Domains

Author

Hinz, Jochen and Buffa, Annalisa

Subjects

Mathematics - Numerical Analysis

Abstract

This paper presents a PDE-based parameterisation framework for addressing the planar surface-to-volume (StV) problem of finding a valid description of the domain's interior given no more than a spline-based description of its boundary contours. The framework is geared towards isogeometric analysis (IGA) applications wherein the physical domain is comprised of more than four sides, hence requiring more than one patch. We adopt the concept of harmonic maps and propose several PDE-based problem formulations capable of finding a valid map between a convex parametric multipatch domain and the piecewise-smooth physical domain with an equal number of sides. In line with the isoparametric paradigm of IGA, we treat the StV problem using techniques that are characteristic for the analysis step. As such, this study proposes several IGA-based numerical algorithms for the problem's governing equations that can be effortlessly integrated into a well-developed IGA software suite. We augment the framework with mechanisms that enable controlling the parametric properties of the outcome. Parametric control is accomplished by, among other techniques, the introduction of a curvilinear coordinate system in the convex parametric domain that, depending on the application, builds desired features into the computed harmonic map, such as homogeneous cell sizes or boundary layers.

Published

2023

16. A shape derivative approach to domain simplification

Author

Hinz, Jochen, Chanon, Ondine, Arrigoni, Alessandra, and Buffa, Annalisa

Subjects

Mathematics - Numerical Analysis

Abstract

The objective of this study is to address the difficulty of simplifying the geometric model in which a differential problem is formulated, also called defeaturing, while simultaneously ensuring that the accuracy of the solution is maintained under control. This enables faster and more efficient simulations, without sacrificing accuracy. More precisely, we consider an isogeometric discretisation of an elliptic model problem defined on a two-dimensional hierarchical B-spline computational domain with a complex boundary. Starting with an oversimplification of the geometry, we build a goal-oriented adaptive strategy that adaptively reintroduces continuous geometrical features in regions where the analysis suggests a large impact on the quantity of interest. This strategy is driven by an a posteriori estimator of the defeaturing error based on first-order shape sensitivity analysis, and it profits from the local refinement properties of hierarchical B-splines. The adaptive algorithm is described together with a procedure to generate (partially) simplified hierarchical B-spline geometrical domains. Numerical experiments are presented to illustrate the proposed strategy and its limitations.

Published

2023

17. Quality improvement in medicines regulation: a retrospective analysis of the Pharmacy Board of Sierra Leone before and during quality management system implementation

Author

Lahai, Michael, Lake, Laurie, Vandy, Ahmed, Sebba, Bondu, Sesay, Mohamed, Abiri, Onome T., Johnson, Joy, Buffa, Tamba, Kanu, Abdulai, Bawoh, Mohamed, Komeh, James P., and Johnson, Wiltshire C.N

Published

2024

18. Study protocol for Near-infrared molecular imaging for lung cancer detection and treatment during mini-invasive surgery (phase II Trial) - (the RECOGNISE study)

Author

Beffa, Eleonora Della, Lyberis, Paraskevas, Rosboch, Giulio Luca, Arezzo, Alberto, Lococo, Filippo, Carena, Laura, Sciorsci, Elisa, Monica, Valentina, Lausi, Paolo Olivo, Dusi, Veronica, Busardò, Francesco Paolo, Buffa, Elena, Stefania, Rachele, Ciccone, Giovannino, Monagheddu, Chiara, Capello, Beatrice Maria, Vancheri, Raffaella, Garrone, Pamela, Gabbarini, Fulvio, Cattel, Francesco, Ruffini, Enrico, and Guerrera, Francesco

Published

2024

19. New role of fat-free mass in cancer risk linked with genetic predisposition

Author

Harris, Benjamin H. L., Di Giovannantonio, Matteo, Zhang, Ping, Harris, David A., Lord, Simon R., Allen, Naomi E., Maughan, Tim S., Bryant, Richard J., Harris, Adrian L., Bond, Gareth L., and Buffa, Francesca M.

Published

2024

20. Intra-prostatic tumour evolution, steps in metastatic spread and histogenomic associations revealed by integration of multi-region whole-genome sequencing with histopathological features

Author

Rao, Srinivasa, Verrill, Clare, Cerundolo, Lucia, Alham, Nasullah Khalid, Kaya, Zeynep, O’Hanlon, Miriam, Hayes, Alicia, Lambert, Adam, James, Martha, Tullis, Iain D. C., Niederer, Jane, Lovell, Shelagh, Omer, Altan, Lopez, Francisco, Leslie, Tom, Buffa, Francesca, Bryant, Richard J., Lamb, Alastair D., Vojnovic, Boris, Wedge, David C., Mills, Ian G., Woodcock, Dan J., Tomlinson, Ian, and Hamdy, Freddie C.

Published

2024

21. A phase 1/2 clinical trial of invariant natural killer T cell therapy in moderate-severe acute respiratory distress syndrome

Author

Hammond, Terese C., Purbhoo, Marco A., Kadel, Sapana, Ritz, Jerome, Nikiforow, Sarah, Daley, Heather, Shaw, Kit, van Besien, Koen, Gomez-Arteaga, Alexandra, Stevens, Don, Ortuzar, Waldo, Michelet, Xavier, Smith, Rachel, Moskowitz, Darrian, Masakayan, Reed, Yigit, Burcu, Boi, Shannon, Soh, Kah Teong, Chamberland, John, Song, Xin, Qin, Yu, Mishchenko, Ilya, Kirby, Maurice, Nasonenko, Valeriia, Buffa, Alexa, Buell, Jennifer S., Chand, Dhan, van Dijk, Marc, Stebbing, Justin, and Exley, Mark A.

Published

2024

22. Robustness and reproducibility for AI learning in biomedical sciences: RENOIR

Author

Barberis, Alessandro, Aerts, Hugo J. W. L., and Buffa, Francesca M.

Published

2024

23. On the use of elliptic PDEs for the parameterisation of planar multipatch domains: Part 1: Numerical algorithms and foundations of parametric control

Author

Hinz, Jochen and Buffa, Annalisa

Published

2024

24. Ecological intensification: multifunctional flower strips support beneficial arthropods in an organic apple orchard

Author

Favarin, Sebastiano, Sommaggio, Daniele, Fantinato, Edy, Masiero, Maddalena, and Buffa, Gabriella

Published

2024

25. Fast parametric analysis of trimmed multi-patch isogeometric Kirchhoff-Love shells using a local reduced basis method

Author

Chasapi, Margarita, Antolin, Pablo, and Buffa, Annalisa

Published

2024

26. Why are not all eligible chronic myeloid leukemia patients willing to attempt tyrosine kinase inhibitor discontinuation? A Czech nationwide analysis related to the TKI stopping trial HALF

Author

Žáčková, Daniela, Semerád, Lukáš, Faber, Edgar, Klamová, Hana, Stejskal, Lukáš, Bělohlávková, Petra, Karas, Michal, Cmunt, Eduard, Černá, Olga, Procházková, Jiřina, Čičátková, Petra, Kvetková, Anežka, Horňák, Tomáš, Skoumalová, Ivana, Srbová, Dana, Šálek, Cyril, Buffa, David, Voglová, Jaroslava, Jurček, Tomáš, Folta, Adam, Ježíšková, Ivana, Žižková, Hana, Machová Poláková, Kateřina, Papajík, Tomáš, Žák, Pavel, Jindra, Pavel, Svobodník, Adam, Štěpánová, Radka, and Mayer, Jiří

Published

2024

27. Process parameters and surface treatment effects on the mechanical and corrosion resistance properties of Ti6Al4V components produced by laser powder bed fusion

Author

Buffa, Gianluca, Palmeri, Dina, Pollara, Gaetano, Di Franco, Francesco, Santamaria, Monica, and Fratini, Livan

Published

2024

28. Stabilized isogeometric formulation of the Stokes problem on overlapping patches

Author

Wei, Xiaodong, Puppi, Riccardo, Antolin, Pablo, and Buffa, Annalisa

Subjects

Mathematics - Numerical Analysis, Computer Science - Computational Engineering, Finance, and Science

Abstract

We present a novel stabilized isogeometric formulation for the Stokes problem, where the geometry of interest is obtained via overlapping NURBS (non-uniform rational B-spline) patches, i.e., one patch on top of another in an arbitrary but predefined hierarchical order. All the visible regions constitute the computational domain, whereas independent patches are coupled through visible interfaces using Nitsche's formulation. Such a geometric representation inevitably involves trimming, which may yield trimmed elements of extremely small measures (referred to as bad elements) and thus lead to the instability issue. Motivated by the minimal stabilization method that rigorously guarantees stability for trimmed geometries [1], in this work we generalize it to the Stokes problem on overlapping patches. Central to our method is the distinct treatments for the pressure and velocity spaces: Stabilization for velocity is carried out for the flux terms on interfaces, whereas pressure is stabilized in all the bad elements. We provide a priori error estimates with a comprehensive theoretical study. Through a suite of numerical tests, we first show that optimal convergence rates are achieved, which consistently agrees with our theoretical findings. Second, we show that the accuracy of pressure is significantly improved by several orders using the proposed stabilization method, compared to the results without stabilization. Finally, we also demonstrate the flexibility and efficiency of the proposed method in capturing local features in the solution field., Comment: 38 pages, 29 figures. Reviewed version

Published

2023

29. A localized reduced basis approach for unfitted domain methods on parameterized geometries

Author

Chasapi, Margarita, Antolin, Pablo, and Buffa, Annalisa

Subjects

Mathematics - Numerical Analysis

Abstract

This work introduces a reduced order modeling (ROM) framework for the solution of parameterized second-order linear elliptic partial differential equations formulated on unfitted geometries. The goal is to construct efficient projection-based ROMs, which rely on techniques such as the reduced basis method and discrete empirical interpolation. The presence of geometrical parameters in unfitted domain discretizations entails challenges for the application of standard ROMs. Therefore, in this work we propose a methodology based on i) extension of snapshots on the background mesh and ii) localization strategies to decrease the number of reduced basis functions. The method we obtain is computationally efficient and accurate, while it is agnostic with respect to the underlying discretization choice. We test the applicability of the proposed framework with numerical experiments on two model problems, namely the Poisson and linear elasticity problems. In particular, we study several benchmarks formulated on two-dimensional, trimmed domains discretized with splines and we observe a significant reduction of the online computational cost compared to standard ROMs for the same level of accuracy. Moreover, we show the applicability of our methodology to a three-dimensional geometry of a linear elastic problem., Comment: 35 pages, 19 figures, 5 tables. Preprint accepted in Computer Methods in Applied Mechanics and Engineering

Published

2022

30. Adaptive analysis-aware defeaturing: the case of Neumann boundary conditions

Author

Buffa, Annalisa, Chanon, Ondine, and Vázquez, Rafael

Subjects

Mathematics - Numerical Analysis

Abstract

Removing geometrical details from a complex domain is a classical operation in computer aided design. This procedure simplifies the meshing process, and it enables faster simulations with less memory requirements. However, depending on the partial differential equation that one wants to solve, removing some important geometrical features may greatly impact the solution accuracy. Unfortunately, the effect of geometrical simplification on the accuracy of the problem solution is often neglected or its evaluation is based on engineering expertise, only due to the lack of reliable tools. It is therefore important to have a better understanding of the effect of geometrical model simplification, also called defeaturing, to improve our control on the simulation accuracy along the design and analysis phases. In this work, we consider as a model problem the Poisson equation on a geometry with Neumann features, we consider some finite element discretization of it, and we build an adaptive strategy that is twofold. Firstly, it is able to perform geometrical refinements, that is, to choose at each iteration step which geometrical feature is important to obtain an accurate solution. Secondly, it performs standard mesh refinements; since the geometry changes at each iteration, the algorithm is designed to be used with an immersed method. To drive this adaptive strategy, we introduce an a posteriori estimator of the energy error between the exact solution defined in the exact fully-featured geometry, and the numerical approximation of the solution defined in the defeatured geometry. The reliability of the estimator is proven for very general (potentially trimmed multipatch) geometric configurations, and in particular for IGA with hierarchical B-splines. Finally, numerical experiments are performed to validate the presented theory and to illustrate the capabilities of the proposed adaptive strategy., Comment: 50 pages

Published

2022

31. A mathematical theory for mass lumping and its generalization with applications to isogeometric analysis

Author

Voet, Yannis, Sande, Espen, and Buffa, Annalisa

Subjects

Mathematics - Numerical Analysis, 65M60 65F55

Abstract

Explicit time integration schemes coupled with Galerkin discretizations of time-dependent partial differential equations require solving a linear system with the mass matrix at each time step. For applications in structural dynamics, the solution of the linear system is frequently approximated through so-called mass lumping, which consists in replacing the mass matrix by some diagonal approximation. Mass lumping has been widely used in engineering practice for decades already and has a sound mathematical theory supporting it for finite element methods using the classical Lagrange basis. However, the theory for more general basis functions is still missing. Our paper partly addresses this shortcoming. Some special and practically relevant properties of lumped mass matrices are proved and we discuss how these properties naturally extend to banded and Kronecker product matrices whose structure allows to solve linear systems very efficiently. Our theoretical results are applied to isogeometric discretizations but are not restricted to them., Comment: 29 pages, 26 figures. Accepted manuscript

Published

2022

32. Low cytoplasmic NUB1 protein exerts hypoxic cell death with poorer prognosis in oestrogen receptor negative breast cancer patients

Author

Ka-Liong Tan, Syed Haider, Christos E. Zois, Jianting Hu, Helen Turley, Russell Leek, Francesca Buffa, Oreste Acuto, Adrian L. Harris, and Francesco Pezzella

Subjects

NUB1, Oestrogen receptor, Immunohistochemistry, Biomarkers, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Current prognostic biomarkers fall short in stratifying Oestrogen receptor (ER)-negative breast cancer patients regarding tumour progression risk at diagnosis. The role of AIPL1 in activating its tumour suppressor client protein, NEDD8 Ultimate Buster-1 (NUB1) remains unknown in cancer. Our study demonstrated how downregulated AIPL1 results in the deactivated NUB1 protein under hypoxic conditions. We examined the AIPL1-NUB1 pathwayin vitro using cell lines i.e. MCF-7, MDA-MB-231, RCC4 etc. NUB1 expression was assessed using Oncomine, and cBioPortal was performed to assess NUB1′s prognostic significance in human cancers. In the John Radcliffe Hospital cohort (n = 122), immunohistochemistry analysis revealed downregulated AIPL1 (Log2 fold change=-0.28; p < 0.001) and upregulated NUB1 transcripts (Log2 fold change=0.59; p < 0.001) compared to adjacent normal tissues. In severe chronic hypoxia, multimerised AIPL1 localisedin the cytoplasm while NUB1 protein migrated to the nucleus, where the absence of NUB1 nuclear localisation led to cell cycle arrest. Biopsies showed that patients with lower cytoplasmic NUB1 expression (n = 57) had poorer overall survival compared to those with higher cytoplasmic expression (n = 57), HR=1.78; 95 % CI=1.01–3.35, p = 0.048. Low NUB1 protein levels in both normoxic and hypoxic conditions were associated with cell cycle arrest and upregulation ofp21 and p27 in breast cancer cell lines, correlating significantly withpoorer survival outcomes in all breast cancer and ER-negative breast cancer patients.

Published

2024

33. Identification and validation of a machine learning model of complete response to radiation in rectal cancer reveals immune infiltrate and TGFβ as key predictors

Author

Blake, Andrew, Buffa, Francesca, Domingo, Enric, Higgins, Geoffrey, Holmes, Christopher, Koelzer, Viktor, Leedham, Simon, Maughan, Timothy, McKenna, Gillies, Robineau, James, Tomlinson, Ian, Youdell, Michael, Quirke, Philip, Richman, Susan, Sebag-Montefiore, David, Seymour, Matthew, West, Nicholas, Dunne, Philip, Kennedy, Richard, Lawler, Mark, Redmond, Keara, Salto-Tellez, Manuel, Campbell, Peter, Chatzipli, Aikaterini, Hardy, Claire, McDermott, Ultan, Bach, Simon, Beggs, Andrew, Cazier, Jean-Baptiste, Middleton, Gary, Morton, Dion, Whalley, Celina, Brown, Louise, Kaplan, Richard, Murray, Graeme, Wilson, Richard, Adams, Richard, Sullivan, Richard, Samuel, Leslie, Harkin, Paul, Walker, Steven, Hill, Jim, Wu, Chieh-Hsi, Horgan, Dennis, Rathee, Sanjay, Gollins, Simon, Begum, Rubina, Quirke, Phil, Barberis, Alessandro, Hassanieh, Sylvana, Mahmood, Umair, Buffa, Francesca M., and Maughan, Timothy S.

Published

2024

34. Identification and validation of a machine learning model of complete response to radiation in rectal cancer reveals immune infiltrate and TGFβ as key predictorsResearch in context

Author

Enric Domingo, Sanjay Rathee, Andrew Blake, Leslie Samuel, Graeme Murray, David Sebag-Montefiore, Simon Gollins, Nicholas West, Rubina Begum, Susan Richman, Phil Quirke, Keara Redmond, Aikaterini Chatzipli, Alessandro Barberis, Sylvana Hassanieh, Umair Mahmood, Michael Youdell, Ultan McDermott, Viktor Koelzer, Simon Leedham, Ian Tomlinson, Philip Dunne, Francesca M. Buffa, Timothy S. Maughan, Francesca Buffa, Geoffrey Higgins, Christopher Holmes, Timothy Maughan, Gillies McKenna, James Robineau, Philip Quirke, Matthew Seymour, Richard Kennedy, Mark Lawler, Manuel Salto-Tellez, Peter Campbell, Claire Hardy, Simon Bach, Andrew Beggs, Jean-Baptiste Cazier, Gary Middleton, Dion Morton, Celina Whalley, Louise Brown, Richard Kaplan, Richard Wilson, Richard Adams, Richard Sullivan, Paul Harkin, Steven Walker, Jim Hill, Chieh-Hsi Wu, and Dennis Horgan

Subjects

Rectal neoplasms, Radiotherapy, Precision medicine, Prediction, TGFβ, Immune response, Medicine, Medicine (General), R5-920

Abstract

Summary: Background: It is uncertain which biological features underpin the response of rectal cancer (RC) to radiotherapy. No biomarker is currently in clinical use to select patients for treatment modifications. Methods: We identified two cohorts of patients (total N = 249) with RC treated with neoadjuvant radiotherapy (45Gy/25) plus fluoropyrimidine. This discovery set included 57 cases with pathological complete response (pCR) to chemoradiotherapy (23%). Pre-treatment cancer biopsies were assessed using transcriptome-wide mRNA expression and targeted DNA sequencing for copy number and driver mutations. Biological candidate and machine learning (ML) approaches were used to identify predictors of pCR to radiotherapy independent of tumour stage. Findings were assessed in 107 cases from an independent validation set (GSE87211). Findings: Three gene expression sets showed significant independent associations with pCR: Fibroblast-TGFβ Response Signature (F-TBRS) with radioresistance; and cytotoxic lymphocyte (CL) expression signature and consensus molecular subtype CMS1 with radiosensitivity. These associations were replicated in the validation cohort. In parallel, a gradient boosting machine model comprising the expression of 33 genes generated in the discovery cohort showed high performance in GSE87211 with 90% sensitivity, 86% specificity. Biological and ML signatures indicated similar mechanisms underlying radiation response, and showed better AUC and p-values than published transcriptomic signatures of radiation response in RC. Interpretation: RCs responding completely to chemoradiotherapy (CRT) have biological characteristics of immune response and absence of immune inhibitory TGFβ signalling. These tumours may be identified with a potential biomarker based on a 33 gene expression signature. This could help select patients likely to respond to treatment with a primary radiotherapy approach as for anal cancer. Conversely, those with predicted radioresistance may be candidates for clinical trials evaluating addition of immune-oncology agents and stromal TGFβ signalling inhibition. Funding: The Stratification in Colorectal Cancer Consortium (S:CORT) was funded by the Medical Research Council and Cancer Research UK (MR/M016587/1).

Published

2024

35. Forest-based Evolutionary Algorithm for Reconstructing Boolean Gene Regulatory Networks.

Author

Nicolò Stranieri, Francesca M. Buffa, and Andrea Tangherloni

Published

2024

36. A Fast Feature Selection for Interpretable Modeling Based on Fuzzy Inference Systems.

Author

Andrea Tangherloni, Paolo Cazzaniga, Nicolò Stranieri, Francesca M. Buffa, and Marco S. Nobile

Published

2024

37. Using Web Audio Modules for Immersive Audio Collaboration in the Musical Metaverse.

Author

Michel Buffa, Dorian Girard, and Ayoub Hofr

Published

2024

38. Can you DAW it Online?: The Challenges of a Web-Based Open Source Workstation.

Author

Michel Buffa and Samuel Demont

Published

2024

39. A Modified EACOP Implementation for Real-Parameter Single Objective Optimization Problems.

Author

Andrea Tangherloni, Vasco Coelho, Francesca M. Buffa, and Paolo Cazzaniga

Published

2024

40. Reduced Order Modelling of Nonaffine Problems on Parameterized NURBS Multipatch Geometries

Author

Chasapi, Margarita, Antolin, Pablo, Buffa, Annalisa, Griebel, Michael, Series Editor, Keyes, David E., Series Editor, Nieminen, Risto M., Series Editor, Roose, Dirk, Series Editor, Schlick, Tamar, Series Editor, Rozza, Gianluigi, editor, Stabile, Giovanni, editor, Gunzburger, Max, editor, and D'Elia, Marta, editor

Published

2024

41. White Paper on Innovative Joining Technologies for Naval Applications

Author

Di Bella, Guido, Borsellino, Chiara, Buffa, Gianluca, Simoncini, Michela, Forcellese, Archimede, Panfiglio, Simone, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Carrino, Luigi, editor, Galantucci, Luigi Maria, editor, and Settineri, Luca, editor

Published

2024

42. Influence of Line Energy Density on the Ductility of Ti6Al4V L-PBF Parts for Hybrid Metal Forming Applications

Author

Buffa, Gianluca, Palmeri, Dina, Pollara, Gaetano, Fratini, Livan, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Mocellin, Katia, editor, Bouchard, Pierre-Olivier, editor, Bigot, Régis, editor, and Balan, Tudor, editor

Published

2024

43. Numerical Investigation on Dissimilar Titanium-Aluminum T-joints Produced by Friction Stir Welding: Process Mechanics and Material Flow

Author

Rana, Harikrishna, Buffa, Gianluca, Micari, Fabrizio, Fratini, Livan, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Mocellin, Katia, editor, Bouchard, Pierre-Olivier, editor, Bigot, Régis, editor, and Balan, Tudor, editor

Published

2024

44. Reduced order modelling of nonaffine problems on parameterized NURBS multipatch geometries

Author

Chasapi, Margarita, Antolin, Pablo, and Buffa, Annalisa

Subjects

Mathematics - Numerical Analysis

Abstract

This contribution explores the combined capabilities of reduced basis methods and IsoGeometric Analysis (IGA) in the context of parameterized partial differential equations. The introduction of IGA enables a unified simulation framework based on a single geometry representation for both design and analysis. The coupling of reduced basis methods with IGA has been motivated in particular by their combined capabilities for geometric design and solution of parameterized geometries. In most IGA applications, the geometry is modelled by multiple patches with different physical or geometrical parameters. In particular, we are interested in nonaffine problems characterized by a high-dimensional parameter space. We consider the Empirical Interpolation Method (EIM) to recover an affine parametric dependence and combine domain decomposition to reduce the dimensionality. We couple spline patches in a parameterized setting, where multiple evaluations are performed for a given set of geometrical parameters, and employ the Static Condensation Reduced Basis Element (SCRBE) method. At the common interface between adjacent patches a static condensation procedure is employed, whereas in the interior a reduced basis approximation enables an efficient offline/online decomposition. The full order model over which we setup the RB formulation is based on NURBS approximation, whereas the reduced basis construction relies on techniques such as the Greedy algorithm or proper orthogonal decomposition (POD). We demonstrate the developed procedure using an illustrative model problem on a three-dimensional geometry featuring a multi-dimensional geometrical parameterization., Comment: 18 pages, 7 figures, 1 table

Published

2022

45. Visceral adiposity in patients with lipomatous hypertrophy of the interatrial septum

Author

Mallio, Carlo A., Di Gennaro, Gianfranco, Greco, Federico, Pescosolido, Andrea, Bernetti, Caterina, Piccolo, Claudia Lucia, Buffa, Vitaliano, Quattrocchi, Carlo C., and Beomonte Zobel, Bruno

Published

2024

46. The bioelectrical impedance analysis (BIA) international database: aims, scope, and call for data

Author

Silva, Analiza M., Campa, Francesco, Stagi, Silvia, Gobbo, Luís A., Buffa, Roberto, Toselli, Stefania, Silva, Diego Augusto Santos, Gonçalves, Ezequiel M., Langer, Raquel D., Guerra-Júnior, Gil, Machado, Dalmo R. L., Kondo, Emi, Sagayama, Hiroyuki, Omi, Naomi, Yamada, Yosuke, Yoshida, Tsukasa, Fukuda, Wataru, Gonzalez, Maria Cristina, Orlandi, Silvana P., Koury, Josely C., Moro, Tatiana, Paoli, Antonio, Kruger, Salome, Schutte, Aletta E., Andreolli, Angela, Earthman, Carrie P., Fuchs-Tarlovsky, Vanessa, Irurtia, Alfredo, Castizo-Olier, Jorge, Mascherini, Gabriele, Petri, Cristian, Busert, Laura K., Cortina-Borja, Mario, Bailey, Jeanette, Tausanovitch, Zachary, Lelijveld, Natasha, Ghazzawi, Hadeel Ali, Amawi, Adam Tawfiq, Tinsley, Grant, Kangas, Suvi T., Salpéteur, Cécile, Vázquez-Vázquez, Adriana, Fewtrell, Mary, Ceolin, Chiara, Sergi, Giuseppe, Ward, Leigh C., Heitmann, Berit L., da Costa, Roberto Fernandes, Vicente-Rodriguez, German, Cremasco, Margherita Micheletti, Moroni, Alessia, Shepherd, John, Moon, Jordan, Knaan, Tzachi, Müller, Manfred J., Braun, Wiebke, García‐Almeida, José M., Palmeira, António L., Santos, Inês, Larsen, Sofus C., Zhang, Xueying, Speakman, John R., Plank, Lindsay D., Swinburn, Boyd A., Ssensamba, Jude Thaddeus, Shiose, Keisuke, Cyrino, Edilson S., Bosy-Westphal, Anja, Heymsfield, Steven B., Lukaski, Henry, Sardinha, Luís B., Wells, Jonathan C., and Marini, Elisabetta

Published

2023

47. New role of fat-free mass in cancer risk linked with genetic predisposition

Author

Benjamin H. L. Harris, Matteo Di Giovannantonio, Ping Zhang, David A. Harris, Simon R. Lord, Naomi E. Allen, Tim S. Maughan, Richard J. Bryant, Adrian L. Harris, Gareth L. Bond, and Francesca M. Buffa

Subjects

Medicine, Science

Abstract

Abstract Cancer risk is associated with the widely debated measure body mass index (BMI). Fat mass and fat-free mass measurements from bioelectrical impedance may further clarify this association. The UK Biobank is a rare resource in which bioelectrical impedance and BMI data was collected on ~ 500,000 individuals. Using this dataset, a comprehensive analysis using regression, principal component and genome-wide genetic association, provided multiple levels of evidence that increasing whole body fat (WBFM) and fat-free mass (WBFFM) are both associated with increased post-menopausal breast cancer risk, and colorectal cancer risk in men. WBFM was inversely associated with prostate cancer. We also identified rs615029[T] and rs1485995[G] as associated in independent analyses with both PMBC (p = 1.56E–17 and 1.78E–11) and WBFFM (p = 2.88E–08 and 8.24E–12), highlighting splice variants of the intriguing long non-coding RNA CUPID1 (LINC01488) as a potential link between PMBC risk and fat-free mass.

Published

2024

48. Parts repairing and microstructural refinement of high-pressure die cast aluminum alloys through friction stir processing for bulk production

Author

Muhammad Adnan, Gianluca Buffa, Livan Fratini, Vivek Patel, and Mattias Igestrand

Subjects

Friction stir processing, High-pressure die casting, Porosity, Grain refinement, Mechanical property, Microstructural refinement, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

A key challenge in the production of high-grade automotive aluminum components through the High-Pressure Die Casting (HPDC) process is the imperative to minimize imperfection. In addressing this concern, this study utilizes friction stir processing (FSP), a widely recognized intense plastic deformation technique. FSP is applied to systematically alter the microstructure of HPDC Al-4Mg-2Fe, a prominent alloy extensively used in the die-casting sector. By using the pass strategy to incorporate both one-pass and two-pass approaches, the microstructure is selectively altered to establish a defect-free processed zone. The utilization of FSP demonstrates its efficacy in breaking aluminum dendrites and acicular silicon particles, leading to a uniformly dispersed arrangement of equiaxed silicon particles within the aluminum-based matrix. In addition, FSP eradicates porosity and disintegrates needle-like Fe particles, resulting in a more refined and homogeneously distributed structure. Subsequently, the material's mechanical properties processed by FSP were assessed in the longitudinal direction concerning the processing axis and then compared with those of the original base material.The microstructural refinement and reduction in porosity induced by FSP result in a notable enhancement in hardness, with an increase of 23 % after one pass and 37 % after two passes. The substantial improvement in mechanical properties during the FSP process is predominantly attributed to modifications in the morphology, refinement, and dispersion of intermetallic particles within the matrix. This improvement is further complemented by the ultrafine dispersion of casting defects.This study underscores the efficacy of FSP as a valuable tool for modifying microstructures and improving mechanical properties in HPDC Al-4Mg-2Fe alloys. Such advancements align with the lightweighting objectives pursued by the automotive industry.

Published

2024

49. Solar observations with single-dish INAF radio telescopes: continuum imaging in the 18-26 GHz range

Author

Pellizzoni, A., Righini, S., Iacolina, M. N., Marongiu, M., Mulas, S., Murtas, G., Valente, G., Egron, E., Bachetti, M., Buffa, F., Concu, R., Deiana, G. L., Guglielmino, S. L., Ladu, A., Loru, S., Maccaferri, A., Marongiu, P., Melis, A., Navarrini, A., Orfei, A., Ortu, P., Pili, M., Pisanu, T., Pupillo, G., Saba, A., Schirru, L., Serra, G., Tiburzi, C., Zanichelli, A., Zucca, P., and Messerotti, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present a new solar radio imaging system implemented through the upgrade of the large single-dish telescopes of the Italian National Institute for Astrophysics (INAF), not originally conceived for solar observations. During the development and early science phase of the project (2018-2020), we obtained about 170 maps of the entire solar disk in the 18-26 GHz band, filling the observational gap in the field of solar imaging at these frequencies. These solar images have typical resolutions in the 0.7-2 arcmin range and a brightness temperature sensitivity <10 K. Accurate calibration adopting the Supernova Remnant Cas A as a flux reference, provided typical errors <3% for the estimation of the quiet-Sun level components and for active regions flux measurements. As a first early science result of the project, we present a catalog of radio continuum solar imaging observations with Medicina 32-m and SRT 64-m radio telescopes including the multi-wavelength identification of active regions, their brightness and spectral characterization. The interpretation of the observed emission as thermal bremsstrahlung components combined with gyro-magnetic variable emission pave the way to the use of our system for long-term monitoring of the Sun. We also discuss useful outcomes both for solar physics (e.g. study of the chromospheric network dynamics) and space weather applications (e.g. flare precursors studies)., Comment: 43 pages, 11 figures, 6 tables, accepted for publication in Solar Physics

Published

2022

50. Unveiling the mechanical and microstructural properties of SiC reinforced aluminum wires recycled from scraps by friction stir extrusion

Author

Adnan, Muhammad, Buffa, Gianluca, Baghdadchi, Amir, Patel, Vivek, and Fratini, Livan

Published

2024