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1. Towards Scalable Foundation Models for Digital Dermatology

Author

Gröger, Fabian, Gottfrois, Philippe, Amruthalingam, Ludovic, Gonzalez-Jimenez, Alvaro, Lionetti, Simone, Soenksen-Martinez, Luis R., Navarini, Alexander A., and Pouly, Marc

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

The growing demand for accurate and equitable AI models in digital dermatology faces a significant challenge: the lack of diverse, high-quality labeled data. In this work, we investigate the potential of domain-specific foundation models for dermatology in addressing this challenge. We utilize self-supervised learning (SSL) techniques to pre-train models on a dataset of over 240,000 dermatological images from public and private collections. Our study considers several SSL methods and compares the resulting foundation models against domain-agnostic models like those pre-trained on ImageNet and state-of-the-art models such as MONET across 12 downstream tasks. Unlike previous research, we emphasize the development of smaller models that are more suitable for resource-limited clinical settings, facilitating easier adaptation to a broad range of use cases. Results show that models pre-trained in this work not only outperform general-purpose models but also approach the performance of models 50 times larger on clinically relevant diagnostic tasks. To promote further research in this direction, we publicly release both the training code and the foundation models, which can benefit clinicians in dermatological applications., Comment: Findings paper presented at Machine Learning for Health (ML4H) symposium 2024, December 15-16, 2024, Vancouver, Canada, 11 pages

Published
2024

2. PASSION for Dermatology: Bridging the Diversity Gap with Pigmented Skin Images from Sub-Saharan Africa

Author

Gottfrois, Philippe, Gröger, Fabian, Andriambololoniaina, Faly Herizo, Amruthalingam, Ludovic, Gonzalez-Jimenez, Alvaro, Hsu, Christophe, Kessy, Agnes, Lionetti, Simone, Mavura, Daudi, Ng'ambi, Wingston, Ngongonda, Dingase Faith, Pouly, Marc, Rakotoarisaona, Mendrika Fifaliana, Rabenja, Fahafahantsoa Rapelanoro, Traoré, Ibrahima, and Navarini, Alexander A.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Africa faces a huge shortage of dermatologists, with less than one per million people. This is in stark contrast to the high demand for dermatologic care, with 80% of the paediatric population suffering from largely untreated skin conditions. The integration of AI into healthcare sparks significant hope for treatment accessibility, especially through the development of AI-supported teledermatology. Current AI models are predominantly trained on white-skinned patients and do not generalize well enough to pigmented patients. The PASSION project aims to address this issue by collecting images of skin diseases in Sub-Saharan countries with the aim of open-sourcing this data. This dataset is the first of its kind, consisting of 1,653 patients for a total of 4,901 images. The images are representative of telemedicine settings and encompass the most common paediatric conditions: eczema, fungals, scabies, and impetigo. We also provide a baseline machine learning model trained on the dataset and a detailed performance analysis for the subpopulations represented in the dataset. The project website can be found at https://passionderm.github.io/., Comment: MICCAI 2024

Published
2024
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3. The Gravitational Form Factor of the Pion and Proton and the Conformal Anomaly

Author

Corianò, Claudio, Lionetti, Stefano, Melle, Dario, and Tommasi, Riccardo

Subjects
High Energy Physics - Phenomenology
Abstract

We analyze the hard scattering amplitude of gravitational form factors (GFFs) of hadrons within QCD factorization at large momentum transfers, focusing on their conformal field theory (CFT) description. These form factors are key to studying quark and gluon angular momentum in hadrons, connected to Mellin moments of Deeply Virtual Compton Scattering (DVCS). The analysis uses diffeomorphism invariance and conformal symmetry in momentum space. A non-Abelian $TJJ$ 3-point function at $O(\alpha_s^2)$ reveals a dilaton interaction in the $t$-channel. We present a parameterization relevant for future DVCS/GFF experiments at the Electron-Ion Collider., Comment: 6 pages, 2 figs. Presented at QCD@Work, 18 - 21 June 2024, Trani, Italy (typos corrections)

Published
2024

4. Conformal Backreaction, Chiral and Conformal Anomalies in the Early Universe

Author

Corianò, Claudio, Lionetti, Stefano, Melle, Dario, Tommasi, Riccardo, and Torcellini, Leonardo

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology, High Energy Physics - Theory
Abstract

The backreaction of a conformal matter sector and its associated conformal anomaly on gravity can be systematically studied using the formalism of the anomaly effective action. This action, defined precisely in flat spacetime within ordinary quantum field theory, can be analyzed perturbatively in terms of external graviton insertions. The expansion coefficients correspond to correlation functions of the stress-energy tensor, which are renormalized through two key counterterms: the square of the Weyl tensor $(C^2)$ and the Gauss-Bonnet term $(E)$. Anomalous conformal Ward identities impose hierarchical constraints on this expansion, revealing that the anomaly's contribution arises from bilinear mixings of the form $R \Box^{-1} E$ and $R \Box^{-1} C^2$, supplemented by local Weyl-invariant terms. These mixings reflect the non-local structure of the anomaly. The precise form of the effective action, however, may vary depending on the regularization scheme used, with potential differences manifesting through additional Weyl-invariant terms. These actions encapsulate the breaking of Weyl invariance in the early universe, with implications that are particularly relevant during the inflationary epoch. For chiral and gravitational anomalies, we demonstrate that the corresponding effective actions exhibit similar structures, influencing the evolution of chiral asymmetries in the early universe plasma., Comment: 20 pages 1 fig., Presented by Claudio Corian\`o at the XVII Marcel Grossmann Meeting, Pescara, Italy, 7-12 July 2024

Published
2024

5. Quantum Anomalies and Parity-odd CFT Correlators for Chiral States of Matter

Author

Corianó, Claudio and Lionetti, Stefano

Subjects
High Energy Physics - Theory
Abstract

Chiral currents influence the parity-odd sector of CFT correlators in momentum space, playing a crucial role in the evolution of the quark-gluon plasma in the early universe. We demonstrate that these parity-odd interactions, which couple quarks and gluons to gravitons, can be fully determined in terms of their anomaly content by solving the conformal constraints in momentum space. This process involves a single nonlocal, massless axion-like interaction in the longitudinal channel, which remains protected against thermal and finite density effects., Comment: 7 pages, 2 figures, Proceeding of QCD@Work 2024, Trani, Italy

Published
2024

6. The Gravitational Form Factors of Hadrons from CFT in Momentum Space and the Dilaton in Perturbative QCD

Author

Corianò, Claudio, Lionetti, Stefano, Melle, Dario, and Tommasi, Riccardo

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Theory
Abstract

We analyze the hard scattering amplitude of the gravitational form factors (GFFs) of hadrons at one-loop, in relation to their conformal field theory (CFT) description, within the framework of QCD factorization for hard exclusive processes at large momentum transfers. These form factors play an essential role in studying the quark and gluon angular momentum of the hadrons due to their relation to the Mellin moments of the Deeply Virtual Compton Scattering (DVCS) invariant amplitudes. Our analysis is performed using a diffeomorphism invariant approach, applying the formalism of the gravitational effective action and conformal symmetry in momentum space for the discussion of the quark and gluon contributions. The interpolating correlator in the hard scattering of any GFF is the non-Abelian $TJJ$ (stress-energy/gluon/gluon) 3-point function at $O(\alpha_s^2)$, revealing an effective dilaton interaction in the $t$-channel due to the trace anomaly, in the form of a massless anomaly pole in the QCD hard scattering, constrained by a sum rule on its spectral density. We investigate the role of quarks, gauge-fixing and ghost contributions in the reconstruction of the hard scattering amplitude mediated by this interaction, performed in terms of its transverse traceless, longitudinal, and trace decomposition, as identified from CFT in momentum space ($CFT_p$). We present a convenient parameterization of the hard scattering amplitude relevant for future experimental investigations of the DVCS/GFF amplitudes at the Electron-Ion Collider at BNL., Comment: 68 pages, 6 figures, added extra subsection and appendix (7 pages)

Published
2024

7. CFT Constraints on Parity-odd Interactions with Axions and Dilatons

Author

Corianó, Claudio and Lionetti, Stefano

Subjects
High Energy Physics - Theory
Abstract

We illustrate how the Conformal Ward Identities (CWIs) in momentum space completely determine the structure of a parity-odd 3-point correlator involving currents, energy momentum tensors and at least one scalar operator in $d=4$. Conformal invariance fixes almost all such possible correlators to vanish. The only exceptions are given by the $\langle JJO\rangle_{odd}$ and the $\langle TTO \rangle_{odd}$ which in momentum-space are protected by chiral and conformal anomalies. Specifically, one can obtain a non-vanishing solution by considering scalar operators such as $O=\nabla \cdot J_A$, $O=g_{\mu\nu}T^{\mu\nu}$ or their shadow transforms. We comment on the implications of these results that constrain the coupling of axions and dilatons in a conformal phase of the early universe., Comment: 21 pages

Published
2024

8. Self-Supervised and Few-Shot Learning for Robust Bioaerosol Monitoring

Author

Willi, Adrian, Baumann, Pascal, Erb, Sophie, Gröger, Fabian, Zeder, Yanick, and Lionetti, Simone

Subjects
Computer Science - Machine Learning
Abstract

Real-time bioaerosol monitoring is improving the quality of life for people affected by allergies, but it often relies on deep-learning models which pose challenges for widespread adoption. These models are typically trained in a supervised fashion and require considerable effort to produce large amounts of annotated data, an effort that must be repeated for new particles, geographical regions, or measurement systems. In this work, we show that self-supervised learning and few-shot learning can be combined to classify holographic images of bioaerosol particles using a large collection of unlabelled data and only a few examples for each particle type. We first demonstrate that self-supervision on pictures of unidentified particles from ambient air measurements enhances identification even when labelled data is abundant. Most importantly, it greatly improves few-shot classification when only a handful of labelled images are available. Our findings suggest that real-time bioaerosol monitoring workflows can be substantially optimized, and the effort required to adapt models for different situations considerably reduced., Comment: Short communication, 8 pages, 2 figures, 1 table

Published
2024

9. Nonlocal Gravity, Dark Energy and Conformal Symmetry: Testing the Hierarchies of Anomaly-Induced Actions

Author

Corianò, Claudio, Lionetti, Stefano, Maglio, Matteo Maria, and Tommasi, Riccardo

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology
Abstract

Conformal back-reaction generates cosmological models where the trace anomaly reflects the breaking of Weyl invariance. Analyzing these actions yields a dynamic approach to dark energy through anomaly-induced actions (AIAs), that are variational solutions of the trace anomaly functional constraint. Expanded around Minkowski space, they produce semiclassical correlators subject to hierarchical anomalous Ward identities, tied to conformal symmetry and diffeomorphism invariance. We focus on comparing the hierarchy of a specific 4-point function, particularly the 2-gravitons-2-photons correlator $(TTJJ)$, generated by AIAs, to free field theory realizations of the same correlator. We observe that the free field theory original hierarchy splits into one ordinary and one anomalous hierarchy, both satisfying the conservation Ward identities from diffeomorphism invariance. However, we find that the anomalous hierarchy derived from ordinary AIAs in both the Riegert or Fradkin-Vilkovisky gauges, are either affected by double poles or violate the hierarchy of the trace Ward identity, respectively. We show that correct forms of the anomalous hierarchies of 4-point functions (for the $TTTT$ and $TTJJ$), identified in a perturbative free field theory expansion around flat space, are characterised by anomaly poles, corresponding to a curvature expansion in $R\Box^{-1}$, together with Weyl invariant terms. We derive the effective action that generates the correct form of the hierarchy for the $TTJJ$., Comment: 22 pages, 2 figures. Proceedings of Corfu Summer Institute, Workshop on the Standard Model and Beyond, August 27- September 7, 2023. arXiv admin note: text overlap with arXiv:2212.12779

Published
2024

10. The Gravitational Chiral Anomaly at Finite Temperature and Density

Author

Corianò, Claudio, Cretì, Mario, Lionetti, Stefano, and Tommasi, Riccardo

Subjects
High Energy Physics - Theory, Condensed Matter - Mesoscale and Nanoscale Physics, High Energy Physics - Phenomenology
Abstract

We investigate the gravitational anomaly vertex $\langle TTJ_5\rangle$ (graviton - graviton - axial current) under conditions of finite density and temperature. Through a direct analysis of perturbative contributions, we demonstrate that neither finite temperature nor finite fermion density affects the gravitational chiral anomaly. These results find application in several contexts, from topological materials to the early universe plasma. They affect the decay of any axion or axion-like particle into gravitational waves, in very dense and hot environments., Comment: 17 pages, 9 figures

Published
2024

11. Axion-like Interactions and CFT in Topological Matter, Anomaly Sum Rules and the Faraday Effect

Author

Corianò, Claudio, Cretì, Mario, Lionetti, Stefano, Melle, Dario, and Tommasi, Riccardo

Subjects
High Energy Physics - Phenomenology, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We discuss fundamental aspects of chiral anomaly-driven interactions in conformal field theory (CFT) in four spacetime dimensions. They find application in very general contexts, from early universe plasma to topological condensed matter. We outline the key shared characteristics of these interactions, specifically addressing the case of chiral anomalies, both for vector currents and gravitons. In the case of topological materials, the gravitational chiral anomaly is generated by thermal gradients via the (Tolman-Ehrenfest) Luttinger relation. In the CFT framework, a nonlocal effective action, derived through perturbation theory, indicates that the interaction is mediated by an excitation in the form of an anomaly pole, which appears in the conformal limit of the vertex. To illustrate this, we demonstrate how conformal Ward identities (CWIs) in momentum space allow us to reconstruct the entire chiral anomaly interaction in its longitudinal and transverse sectors just by inclusion of a pole in the longitudinal sector. Both sectors are coupled in amplitudes with an intermediate chiral fermion or a bilinear Chern-Simons current with intermediate photons. In the presence of fermion mass corrections, the pole transforms into a cut, but the absorption amplitude in the axial-vector channel satisfies mass-independent sum rules related to the anomaly in any chiral interaction. The detection of an axion-like/quasiparticle in these materials may rely on a combined investigation of these sum rules, along with the measurement of the angle of rotation of the plane of polarization of incident light when subjected to a chiral perturbation. This phenomenon serves as an analogue of a similar one in ordinary axion physics, in the presence of an axion-like condensate, that we rederive using axion electrodynamics., Comment: 55 pages, 5 figures

Published
2024

12. Hyperbolic Metric Learning for Visual Outlier Detection

Author

Gonzalez-Jimenez, Alvaro, Lionetti, Simone, Bazazian, Dena, Gottfrois, Philippe, Gröger, Fabian, Pouly, Marc, and Navarini, Alexander

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Out-Of-Distribution (OOD) detection is critical to deploy deep learning models in safety-critical applications. However, the inherent hierarchical concept structure of visual data, which is instrumental to OOD detection, is often poorly captured by conventional methods based on Euclidean geometry. This work proposes a metric framework that leverages the strengths of Hyperbolic geometry for OOD detection. Inspired by previous works that refine the decision boundary for OOD data with synthetic outliers, we extend this method to Hyperbolic space. Interestingly, we find that synthetic outliers do not benefit OOD detection in Hyperbolic space as they do in Euclidean space. Furthermore we explore the relationship between OOD detection performance and Hyperbolic embedding dimension, addressing practical concerns in resource-constrained environments. Extensive experiments show that our framework improves the FPR95 for OOD detection from 22\% to 15\% and from 49% to 28% on CIFAR-10 and CIFAR-100 respectively compared to Euclidean methods., Comment: European Conference on Computer Vision ECCV 2024 BEW Workshop

Published
2024

17. Axion-like Quasiparticles and Topological States of Matter: Finite Density Corrections of the Chiral Anomaly Vertex

Author

Corianò, Claudio, Cretì, Mario, Lionetti, Stefano, and Tommasi, Riccardo

Subjects
High Energy Physics - Phenomenology, Condensed Matter - Mesoscale and Nanoscale Physics, High Energy Physics - Theory
Abstract

We investigate the general structure of the chiral anomaly $AVV/AAA$ and $(LLL, RRR)$ vertices, in the presence of chemical potentials in perturbation theory. The study finds application in anomalous transport, whenever chirally unbalanced matter is present, with propagating external currents that are classically conserved. Examples are topological materials and the chiral magnetic effect in the plasma state of matter of the early universe. We classify the minimal number of form factors of the $AVV$ parameterization, by a complete analysis of the Schouten identities in the presence of a heat bath. We show that the longitudinal (anomaly) sector in the axial-vector channel, for on-shell and off-shell photons, is protected against corrections coming from the insertion of a chemical potential in the fermion loop. When the photons are on-shell, we prove that also the transverse sector, in the same channel, is $\mu$-independent and vanishes. The related effective action is shown to be always described by the exchange of a massless anomaly pole, as in the case of vanishing chemical potentials. The pole is interpreted as an interpolating axion-like quasiparticle generated by the anomaly. In each axial-vector channel, it is predicted to be a correlated fermion/antifermion pseudoscalar (axion-like) quasiparticle appearing in the response function, once the material is subjected to an external chiral perturbation. The cancellation of the $\mu$ dependence extends to any chiral current within the Standard Model, including examples like $B$ (baryon), $L$ (lepton), and $B-L$. This holds true irrespective of whether these currents exhibit anomalies., Comment: 56 pages, 6 figures, published version with typos corrections

Published
2024

23. Towards Reliable Dermatology Evaluation Benchmarks

Author

Gröger, Fabian, Lionetti, Simone, Gottfrois, Philippe, Gonzalez-Jimenez, Alvaro, Groh, Matthew, Daneshjou, Roxana, Consortium, Labelling, Navarini, Alexander A., and Pouly, Marc

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Benchmark datasets for digital dermatology unwittingly contain inaccuracies that reduce trust in model performance estimates. We propose a resource-efficient data-cleaning protocol to identify issues that escaped previous curation. The protocol leverages an existing algorithmic cleaning strategy and is followed by a confirmation process terminated by an intuitive stopping criterion. Based on confirmation by multiple dermatologists, we remove irrelevant samples and near duplicates and estimate the percentage of label errors in six dermatology image datasets for model evaluation promoted by the International Skin Imaging Collaboration. Along with this paper, we publish revised file lists for each dataset which should be used for model evaluation. Our work paves the way for more trustworthy performance assessment in digital dermatology., Comment: Link to the revised file lists: https://github.com/Digital-Dermatology/SelfClean-Revised-Benchmarks

Published
2023

24. Parity-Violating CFT and the Gravitational Chiral Anomaly

Author

Corianò, Claudio, Lionetti, Stefano, and Maglio, Matteo Maria

Subjects
High Energy Physics - Theory
Abstract

We illustrate how the Conformal Ward Identities (CWI) and the gravitational chiral anomaly completely determine the structure of the $\langle TTJ_{5}\rangle$ (graviton-graviton-chiral gauge current) correlator in momentum space. This analysis extends our previous results on the anomaly vertices $\langle AVV\rangle$ and $\langle AAA\rangle$, as well as the $\langle TJJ\rangle$ parity-odd conformal anomaly vertex in general CFTs. The $\langle TTJ_{5}\rangle$ plays a fundamental role in the analysis of the conformal backreaction in early universe cosmology, affecting the particle content and the evolution of the primordial plasma. Our approach is nonperturbative and not Lagrangian-based, requiring the inclusion of a single anomaly pole in the solution of the anomaly constraint. The pole and its residue, along with the CWIs, determine the entire correlator in all of its sectors (longitudinal/transverse), all of which are proportional to the same anomaly coefficient. The method does not rely on a specific expression of the CP-odd anomalous current, which in free field theory can be represented either by a bilinear fermion current or by a gauge-dependent Chern-Simons current; it relies solely on the symmetry constraints. We compute the correlator perturbatively at one-loop in free field theory and verify its exact agreement with the non-perturbative result. A comparison with the perturbative analysis confirms the presence of a sum rule satisfied by the correlator, similar to the parity-even $\langle TJJ\rangle$ and the chiral $\langle AVV\rangle$., Comment: 42 pages, revised version with typo corrections

Published
2023

25. The interplay among environmental sensitivity, job stressors, and leadership styles on employee well-being

Author

Gianni Onesti, Francesca Bellante, Francesca Lionetti, Mirco Fasolo, and Riccardo Palumbo

Subjects
Environmental sensitivity, Leadership styles, Job stressors, Well-being, Organizational management, Medicine, Science
Abstract

Abstract Investigating the role of individual differences in Environmental Sensitivity for well-being and stress at work is an emerging area of research with significant potential for practical implications in organizational management and human resources. Recent studies have begun to explore how individuals with high sensory-processing sensitivity (SPS) may be more vulnerable to work-related stress than their less sensitive peers, but may also derive greater benefits from positive job resources when available. The present study aims to investigate the role of leadership style in the complex interplay between individual differences in sensitivity, stress at work, and general well-being. A questionnaire was administered through Qualtrics to a total of 317 workers from two medium–large–sized Italian companies, across two waves between May and July 2022. Findings provided support for a three-way interaction effect, with job stressors exerting an adverse effect on participants’ well-being, mitigated by democratic and let-it-be leadership styles at the team level, particularly among highly sensitive individuals. Thus, our findings suggest a vantage sensitivity effect and underscore the importance of cultivating positive work climates to enhance workers’ ability to cope with stressors and improve their global well-being, with particular relevance for highly sensitive individuals.

Published
2024
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26. Severe pancytopenia at the presentation of Imerslund-Gräsbeck syndrome in a 23-month-old Italian boy

Author

Francesca Di Sario, Francesca Piloni, Francesco Gasparini, Eleonora Serpetti, Barbara Bruschi, Paola Coccia, Maria Elena Lionetti, and Simona Gatti

Subjects
Imerslund-Gräsbeck syndrome, Pancytopenia, Vitamin B12, Amnionless gene, Cobalamin deficiency, Proteinuria, Pediatrics, RJ1-570
Abstract

Abstract Background Imerslund-Gräsbeck syndrome (IGS) is a rare autosomal recessive disorder characterized by megaloblastic anemia due to selective cobalamin malabsorption and benign proteinuria. IGS is caused by a disfunction of the cubam receptor, which mediates the reabsorption of cobalamin in the ileum and the reuptake of albumin in renal proximal tubules. Case presentation We describe the case of a 23-month-old-italian infant presenting with severe pancytopenia and failure to thrive in whom the diagnosis of IGS was made and vitamin B12 replacement therapy was resolutive. Genetic analysis (NGS with CNV analysis including 214 genes involved in bone marrow failure and anemia), showed the presence of two pathogenetic variants in the AMN gene (c-208–2 A > G and c.1006 + 34_1007-31del). These variants have been previously described in the literature, but their combination has never been reported. Conclusions Imerslund-Gräsbeck syndrome should be considered in the differential diagnosis of children with severe pancytopenia even in those without neurological involvement. This case emphasizes the importance of an early diagnosis and prompt treatment, to prevent irreversible neurological injury.

Published
2024
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27. CFT Correlators and CP-Violating Trace Anomalies

Author

Corianò, Claudio, Lionetti, Stefano, and Maglio, Matteo Maria

Subjects
High Energy Physics - Theory, High Energy Physics - Phenomenology
Abstract

We analyze the parity-odd correlators $\langle JJO\rangle_{odd}$, $\langle JJT\rangle_{odd}$, $\langle TTO\rangle_{odd}$ and $\langle TTT\rangle_{odd}$ in momentum space, constrained by conformal Ward identities, extending our former investigation of the parity-odd chiral anomaly vertex. We investigate how the presence of parity-odd trace anomalies affect such correlators. Motivations for this study come from holography, early universe cosmology and from a recent debate on the chiral trace anomaly of a Weyl fermion. In the current CFT analysis, $O$ can be either a scalar or a pseudoscalar operator and it can be identified with the trace of the stress energy tensor. We find that the $\langle JJO\rangle_{odd}$ and $\langle TTO\rangle_{odd}$ can be different from zero in a CFT. This occurs when the conformal dimension of the scalar operator is $\Delta_3=4$, as in the case of $O=T^\mu_\mu$. Moreover, if we assume the existence of parity-odd trace anomalies, the conformal $\langle JJT\rangle_{odd}$ and $\langle TTT\rangle_{odd}$ are nonzero. In particular, in the case of $\langle JJT\rangle_{odd}$ the transverse-traceless component is constrained to vanish, and the correlator is determined only by the trace part with the anomaly pole., Comment: 43 pages, Corrections to Section 7 after publication

Published
2023

28. Robust T-Loss for Medical Image Segmentation

Author

Gonzalez-Jimenez, Alvaro, Lionetti, Simone, Gottfrois, Philippe, Gröger, Fabian, Pouly, Marc, and Navarini, Alexander

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper presents a new robust loss function, the T-Loss, for medical image segmentation. The proposed loss is based on the negative log-likelihood of the Student-t distribution and can effectively handle outliers in the data by controlling its sensitivity with a single parameter. This parameter is updated during the backpropagation process, eliminating the need for additional computation or prior information about the level and spread of noisy labels. Our experiments show that the T-Loss outperforms traditional loss functions in terms of dice scores on two public medical datasets for skin lesion and lung segmentation. We also demonstrate the ability of T-Loss to handle different types of simulated label noise, resembling human error. Our results provide strong evidence that the T-Loss is a promising alternative for medical image segmentation where high levels of noise or outliers in the dataset are a typical phenomenon in practice. The project website can be found at https://robust-tloss.github.io, Comment: Early accepted to MICCAI 2023

Published
2023

36. $4d$ Einstein Gauss-Bonnet Gravity without a Dilaton

Author

Corianò, Claudio, Cretì, Mario, Lionetti, Stefano, Maglio, Matteo Maria, and Tommasi, Riccardo

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology
Abstract

A nonlocal version of Einstein-Gauss Bonnet (EGB) gravity can be generated by a procedure that follows closely the steps of the derivation of the conformal anomaly effective action. The action is obtained using a Weyl decomposition of the metric, with the conformal factor removed by a finite renormalization of the topological term. We outline the mains steps in the derivation of this action, stressing on the analogies and differences respect to the anomaly action and to the ordinary $4d$ EGB theory formulated as a special version of dilaton gravity. These formulations allow a systematic investigation of the nonlocal $R\Box^{-1}$ corrections to General Relativity. In the case of conformal anomaly action they are motivated by the generation of a conformal backreaction, due to the breaking of conformal symmetry in the early universe., Comment: 21 pages, Proceedings of Science (PoS) of the Corfu Summer Institute 2022 "Workshops on the Standard Model and beyond"

Published
2023

37. Intrinsic Self-Supervision for Data Quality Audits

Author

Gröger, Fabian, Lionetti, Simone, Gottfrois, Philippe, Gonzalez-Jimenez, Alvaro, Amruthalingam, Ludovic, Consortium, Labelling, Groh, Matthew, Navarini, Alexander A., and Pouly, Marc

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Benchmark datasets in computer vision often contain off-topic images, near duplicates, and label errors, leading to inaccurate estimates of model performance. In this paper, we revisit the task of data cleaning and formalize it as either a ranking problem, which significantly reduces human inspection effort, or a scoring problem, which allows for automated decisions based on score distributions. We find that a specific combination of context-aware self-supervised representation learning and distance-based indicators is effective in finding issues without annotation biases. This methodology, which we call SelfClean, surpasses state-of-the-art performance in detecting off-topic images, near duplicates, and label errors within widely-used image datasets, such as ImageNet-1k, Food-101N, and STL-10, both for synthetic issues and real contamination. We apply the detailed method to multiple image benchmarks, identify up to 16% of issues, and confirm an improvement in evaluation reliability upon cleaning. The official implementation can be found at: https://github.com/Digital-Dermatology/SelfClean., Comment: Accepted at Neural Information Processing Systems (NeurIPS 2024)

Published
2023

38. Parity-Odd 3-Point Functions from CFT in Momentum Space and the Chiral Anomaly

Author

Corianò, Claudio, Lionetti, Stefano, and Maglio, Matteo Maria

Subjects
High Energy Physics - Theory, High Energy Physics - Phenomenology
Abstract

We illustrate how the Conformal Ward Identities (CWI) in momentum space for parity-odd correlators determine the structure of a chiral anomaly interaction, taking the example of the VVA (vector/vector/axial-vector) and AAA correlators in momentum space. Only the conservation and the anomalous WIs, together with the Bose symmetry, are imposed from the outset for the determination of the correlators. We use a longitudinal/transverse decomposition of tensor structures and form factors. The longitudinal (L) component is fixed by the anomaly content and the anomaly pole, while in the transverse (T) sector we define a new parameterization. We relate the latter both to the Rosenberg original representation of the VVA and to the longitudinal/transverse (L/T) one, first introduced in the analysis of $g-2$ of the muon in the investigation of the diagram in the chiral limit of QCD. The correlators are completely identified by the conformal constraints whose solutions are fixed only by the anomaly coefficient, the residue of the anomaly pole. In both cases, our CFT result matches the one-loop perturbative expression, as expected. The CWIs for correlators of mixed chirality $J_L J J_R$ generate solutions in agreement with the all-orders nonrenormalization theorems of perturbative QCD and in the chiral limit., Comment: 32 pages, 2 figures, revised version with typo corrections

Published
2023
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39. Fluid boluses and infusions in the early phase of resuscitation from septic shock and sepsis-induced hypotension: a retrospective report and outcome analysis from a tertiary hospital

Author

Antonio Messina, Marco Albini, Nicolò Samuelli, Andrea Brunati, Elena Costantini, Giulia Lionetti, Marta Lubian, Massimiliano Greco, Guia Margherita Matronola, Fabio Piccirillo, Daniel De Backer, Jean Louis Teboul, and Maurizio Cecconi

Subjects
Fluid therapy, Fluid bolus, Fluids, Electronic health records system, Fluid responsiveness, Hemodynamic monitoring, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9
Abstract

Abstract Background Fluid administration is the first line treatment in intensive care unit (ICU) patients with sepsis and septic shock. While fluid boluses administration can be titrated by predicting preload dependency, the amount of other forms of fluids may be more complex to be evaluated. We conducted a retrospective analysis in a tertiary hospital, to assess the ratio between fluids given as boluses and total administered fluid intake during early phases of ICU stay, and to evaluate the impact of fluid strategy on ICU mortality. Data related to fluid administration during the first four days of ICU stay were exported from an electronic health records system (ICCA®, Philips Healthcare). Demographic data, severity score, norepinephrine dose at ICU admission, overall fluid balance and the percentage of different fluid components of the overall volume administered were included in a multivariable logistic regression model, evaluating the association with ICU survival. Results We analyzed 220 patients admitted with septic shock and sepsis-induced hypotension from 1st July 2021 to 31st December 2023. Fluid boluses and maintenance represented 49.3% ± 22.8 of the overall fluid intake, being balanced solution the most represented (40.4% ± 22.0). The fluid volume for drug infusion represented 34.0% ± 2.9 of the total fluid intake, while oral or via nasogastric tube fluid intake represented 18.0% ± 15.7 of the total fluid intake. Fluid volume given as boluses represented 8.6% of the total fluid intake over the four days, with a reduction from 25.1% ± 24.0 on Day 1 to 4.8% ± 8.7 on Day 4. A positive fluid balance [OR 1.167 (1.029–1.341); p = 0.021] was the most important factor associated with ICU mortality. Non-survivors (n = 66; 30%) received a higher amount of overall inputs than survivors only on Day 1 [2493 mL vs. 1855 mL; p = 0.022]. Conclusions This retrospective analysis of fluids given over the early phases of septic shock and sepsis-induced hypotension showed that the overall volume given by boluses ranges from about 25% on Day 1 to about 5% on Day 4 from ICU admission. Our data confirms that a positive fluid balance over the first 4 days of ICU is associated with mortality.

Published
2024
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40. Chagas Disease in the Non-Endemic Area of Rome, Italy: Ten Years of Experience and a Brief Overview

Author

Maria Letizia Giancola, Andrea Angheben, Laura Scorzolini, Stefania Carrara, Ada Petrone, Antonella Vulcano, Raffaella Lionetti, Angela Corpolongo, Rosalia Marrone, Francesca Faraglia, Tommaso Ascoli Bartoli, Patrizia De Marco, Maria Virginia Tomassi, Carla Fontana, and Emanuele Nicastri

Subjects
Chagas disease, Trypanosoma cruzi, non-endemic country, benznidazole, screening, Other systems of medicine, RZ201-999
Abstract

Chagas disease (CD) is a parasitic infection endemic in Latin America and also affects patients in Western countries due to migration flows. This has a significant impact on health services worldwide due to its high morbidity and mortality burden. This paper aims to share our experience at the National Institute for Infectious Diseases “Lazzaro Spallanzani”, IRCCS, in Rome, Italy, where to date, a total of 47 patients—mainly Bolivian women—diagnosed with CD have received treatment with benznidazole, with all but one presenting with chronic disease. Most of the patients were recruited through the first extensive screening program held in 2014 at our Institute. About a quarter of our patients showed adverse effects to benznidazole, including a case of severe drug-induced liver injury, but 83% completed a full course of treatment. In addition to the description of our cohort, the paper reports a brief overview of the disease compiled through a review of the existing literature on CD in non-endemic countries. The growing prevalence of CD in Western countries highlights the importance of screening at-risk populations and urges public concern and medical awareness about this neglected tropical disease. There are still many unanswered questions that need to be addressed to develop a personalized approach in treating patients.

Published
2024
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41. A multi-channel stimulator with an active electrode array implant for vagal-cardiac neuromodulation studies

Author

Fangqi Liu, Maryam Habibollahi, Yu Wu, Nazanin Neshatvar, Jiaxing Zhang, Ciro Zinno, Outman Akouissi, Fabio Bernini, Lisa Alibrandi, Khatia Gabisonia, Vincenzo Lionetti, Jacopo Carpaneto, Henry Lancashire, Dai Jiang, Silvestro Micera, and Andreas Demosthenous

Subjects
Active electrode array, Implant fabrication, Integrated stimulator, Microelectrodes, Neuroprosthesis, Vagus nerve stimulator, Medical technology, R855-855.5
Abstract

Abstract Background Implantable vagus nerve stimulation is a promising approach for restoring autonomic cardiovascular functions after heart transplantation. For successful treatment a system should have multiple electrodes to deliver precise stimulation and complex neuromodulation patterns. Methods This paper presents an implantable multi-channel stimulation system for vagal-cardiac neuromodulation studies in swine species. The system comprises an active electrode array implant percutaneously connected to an external wearable controller. The active electrode array implant has an integrated stimulator ASIC mounted on a ceramic substrate connected to an intraneural electrode array via micro-rivet bonding. The implant is silicone encapsulated for biocompatibility and implanted lifetime. The stimulation parameters are remotely transmitted via a Bluetooth telemetry link. Results The size of the encapsulated active electrode array implant is 8 mm × 10 mm × 3 mm. The stimulator ASIC has 10-bit current amplitude resolution and 16 independent output channels, each capable of delivering up to 550 µA stimulus current and a maximum voltage of 20 V. The active electrode array implant was subjected to in vitro accelerated lifetime testing at 70 °C for 7 days with no degradation in performance. After over 2 h continuous stimulation, the surface temperature change of the implant was less than 0.5 °C. In addition, in vivo testing on the sciatic nerve of a male Göttingen minipig demonstrated that the implant could effectively elicit an EMG response that grew progressively stronger on increasing the amplitude of the stimulation. Conclusions The multi-channel stimulator is suitable for long term implantation. It shows potential as a useful tool in vagal-cardiac neuromodulation studies in animal models for restoring autonomic cardiovascular functions after heart transplantation.

Published
2024
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42. Three-Wave and Four-Wave Interactions in the $4d$ Einstein Gauss-Bonnet (EGB) and Lovelock Theories

Author

Corianò, Claudio, Cretì, Mario, Lionetti, Stefano, and Maglio, Matteo Maria

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology
Abstract

We derive the conformal constraints satisfied by classical vertices of a (Einstein) Gauss-Bonnet theory around flat space, in general dimensions and at $d=4$ (4d EGB). In $4d$ EGB they are obtained by a singular limit of the integral of the Euler-Poincar\`e density. Our analysis exploits the relation between this theory and the conformal anomaly action, which allows to uncover some interesting features of the GB vertex at cubic and quartic level. If we introduce a conformal decomposition of the metric, the resulting theory can be formulated in two different versions, which are regularization dependent, a local one which is quartic in the dilaton field, and a nonlocal one, with a quadratic dilaton. The nonlocal version is derived by a finite redefinition of the GB density with the inclusion of a $(d-4)R^2$ correction, before performing the singular $d\to 4$ limit. In the local version of the theory, we show how the independent dynamics of the metric and of the dilaton are interwinded by a classical trace identity. Three-gravitational wave interactions can be organised in a nontrivial way by using directly the nonlocal 4d EGB version of the theory. This is possible thanks to the consistency of such formulation - only up to 3-point functions - directly inherited from the conformal anomaly (Riegert) action. The constraints satisfied by the vertices are classical, hierarchical Ward identities. At quartic level, similar relations are derived, borrowing from the analysis of the counterterms of the 4T correlators of the conformal anomaly action, as defined by a perturbative expansion. For $d\neq 4$ these constraints hold also for Lovelock actions. They can be extended to higher order topological invariants in such class of theories., Comment: 17 pages, 2 figures

Published
2023

43. Asymptotic symmetries and soft theorems in higher-dimensional gravity

Author

Lionetti, Stefano

Subjects
High Energy Physics - Theory
Abstract

Soft theorems can be recast as Ward identities of asymptotic symmetries. We review such relation for the leading and subleading soft graviton theorems in arbitrary even dimensions. While soft theorems are trivially generalized to dimensions higher than four, the charges of asymptotic symmetries are plagued by divergences requiring a renormalization. We argue that the renormalized charges of these symmetries can be determined by rewriting soft theorems as Ward identities. In order to show that the charges of such identities generate asymptotic symmetries, we propose a suitable commutation relation among certain components of the metric fields, Comment: 7 pages, contribution to QCD@Work 2022

Published
2022
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46. Individual traits are associated with pro‐environmental behaviour: Environmental sensitivity, nature connectedness and consideration for future consequences

Author

Helen Dunne, Francesca Lionetti, Michael Pluess, and Annalisa Setti

Subjects
connectedness to nature, consideration for future consequences, health, sensory processing sensitivity, Human ecology. Anthropogeography, GF1-900, Ecology, QH540-549.5
Abstract

Abstract Despite growing concern about climate change, there remains a significant gap between individuals' environmental concern and their actual behaviour. Humans' personal relationship with nature is a key contributor to pro‐environmental behaviour (PEB), which may account for this gap. Those individuals with high levels of sensory processing sensitivity (SPS), approximately 25%–30% of the population, have a particularly strong connection with the natural world and have a ‘pause to check’ attitude that may make them more prone to consider future consequences of actions. We hypothesise that (1) a disposition to experience awe, characterizing high SPS, mediates the association between the trait and connectedness to nature (CN); (2) SPS is associated with PEB, and CN mediates the association; and (3) consideration for future consequences also mediates the association between high SPS and PEB. 807 participants completed an online survey including validated measures of SPS, CN, awe, PEB and consideration for future consequences. Correlational and mediational analyses were performed to test the hypotheses. The study showed that the relationship between SPS and CN was mediated by awe. The relationship between SPS and PEB was independently mediated by CN and consideration for future consequences. Policy implications. The UN Sustainable Development Goals were set to reduce inequalities (SDG 10) by considering individual differences, as well as improving climate action (SDG 13). This study shows that psychological dimensions such as sensory processing sensitivity (SPS) are linked to pro‐environmental behaviour (PEB) through future‐oriented thinking and feeling connected with nature. These results also suggest that cultivating connectedness to nature and training those with lower SPS to consider future consequences of actions may be a potential avenue to improve PEB. Read the free Plain Language Summary for this article on the Journal blog.

Published
2024
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47. Phenolic compounds-enriched extract recovered from two-phase olive pomace serves as plant immunostimulants and broad-spectrum antimicrobials against phytopathogens including Xylella fastidiosa

Author

Marco Greco, María Fuertes-Rabanal, Carlos Frey, Carmine Del Grosso, Daniele Coculo, Pasquale Moretti, Pasquale Saldarelli, Savino Agresti, Rosanna Caliandro, Hugo Mélida, and Vincenzo Lionetti

Subjects
Two-phase olive pomace, Olive juice, Agro-industrial waste, Phenolic compounds, Phytovaccines, Antifungal and antibacterial inhibition, Plant ecology, QK900-989
Abstract

The production of extra virgin olive oil generates significant amounts of olive mill waste, whose disposal leads to severe environmental impacts, especially due to the high content of phenolic compounds. In this study, a pomace phenolic extract composed of hydroxytyrosol, tyrosol, verbascoside, and oleuropein was obtained from the liquid fraction of two-phase olive pomace and explored for its antimicrobial properties and potential as plant immunostimulants. The olive pomace extract exhibited a broad range of antimicrobial activity against important phytopathogens, including the bacteria Xylella fastidiosa, Pseudomonas syringae, and Pectobacterium carotovorum, as well as the fungi Colletotrichum graminicola, Fusarium graminearum, and Botrytis cinerea. The extract induced key features of plant innate immunity in Arabidopsis seedlings, including hydrogen peroxide production, phosphorylation of mitogen-activated protein kinase MAPK6, and upregulation of defence genes, such as CYP81F2, FRK1, and WRKY53, suggesting the activation of early signalling cascades leading to the production of indole glucosinolates and salicylic acid. The immune activation pathways induced by the phenolic extract did not always match those triggered by well-known oligogalacturonide elicitors. Notably, pretreatment of adult Arabidopsis and tomato plants with the phenolic compounds-enriched extract primed responses and enhanced their resistance against B. cinerea and P. syringae. Our findings demonstrate the potential to upcycle two-phase olive pomace into plant protectants, offering a promising alternative to reduce reliance on chemically synthesized pesticides in integrated pest management programs.

Published
2024
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48. Corrigendum: Increase in pediatric recurrent fever evaluations during the first year of the COVID-19 pandemic in North America.

Author

Mansfield, Leanne, Lapidus, Sivia, Romero, Samira, Moorthy, Lakshmi, Adler-Shohet, Felice, Hollander, Matthew, Cherian, Julie, Twilt, Marinka, Mohan, Smriti, DeLaMora, Patricia, Durrant, Karen, Muskardin, Theresa, Correia Marques, Mariana, Onel, Karen, Dedeoglu, Fatma, Gutierrez, Maria, Schulert, Grant, and Lionetti, Geraldina

Subjects
CARRA, COVID-19, fevers, pediatric, recurrent, rheumatology
Abstract

[This corrects the article DOI: 10.3389/fped.2023.1240242.].

Published
2023

49. Increase in pediatric recurrent fever evaluations during the first year of the COVID-19 pandemic in North America.

Author

Mansfield, Leanne, Lapidus, Sivia, Romero, Samira, Moorthy, Lakshmi, Adler-Shohet, Felice, Hollander, Matthew, Cherian, Julie, Twilt, Marinka, Lionetti, Geraldina, Mohan, Smriti, DeLaMora, Patricia, Durrant, Karen, Muskardin, Theresa, Correia Marques, Mariana, Onel, Karen, Dedeoglu, Fatma, Guttierez, Maria, and Schulert, Grant

Subjects
CARRA, COVID-19, fevers, pediatric, recurrent, rheumatology
Abstract

The impact of the COVID-19 pandemic on new diagnoses of recurrent fevers and autoinflammatory diseases is largely unknown. The Childhood Arthritis and Rheumatology Research Alliance (CARRA) PFAPA/AID Working Group aimed to investigate the impact of the COVID-19 pandemic on the number of pediatric patients evaluated for recurrent fevers and autoinflammatory diseases in North America. The absolute number of new outpatient visits and the proportion of these visits attributed to recurrent fever diagnoses during the pre-pandemic period (1 March 2019-29 February 2020) and the first year of the COVID-19 pandemic (1 March 2020-28 February 2021) were examined. Data were collected from 27 sites in the United States and Canada. Our results showed an increase in the absolute number of new visits for recurrent fever evaluations in 21 of 27 sites during the COVID-19 pandemic compared to the pre-pandemic period. The increase was observed across different geographic regions in North America. Additionally, the proportion of new visits to these centers for recurrent fever in relation to all new patient evaluations was significantly higher during the first year of the pandemic, increasing from 7.8% before the pandemic to 10.9% during the pandemic year (p

Published
2023

50. From inner to dyadic connection: the role of mindfulness in mother–infant interaction during the first year of life

Author

Ilenia Passaquindici, Massimiliano Pastore, Odette Nardozza, Francesca Lionetti, Giulio D’Urso, Riccardo Palumbo, Mirco Fasolo, and Maria Spinelli

Subjects
mindfulness, mindfulness-based interventions, physiological attunement, mother–infant interaction, parenting stress, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

IntroductionMother–infant attunement is fundamental to supporting infant socio-emotional development. Based on the assumption that we connect better with others if we are aware of and connected with our own experience, mindfulness could affect the maternal ability to attune to the infant. However, little is known about this topic in the first year of life. Study 1 aimed to investigate the role of maternal dispositional mindfulness and mindful parenting in mother–infant physiological and behavioral attunement at 3 months of age. Study 2 aimed to explore the effect of a mindfulness-based intervention not specific to parenting experience on mother–infant behavioral and physiological attunement and on maternal wellbeing at 9 months of age.MethodsIn Study 1, mother–infant (n = 67) behavioral and physiological attunement (i.e., co-regulation and RSA) were collected simultaneously each 20 s during face-to-face interaction. Mothers completed questionnaires about their dispositional mindfulness and mindful parenting. In Study 2, mother–infant dyads were randomly divided into a control (n = 20) and an intervention group (n = 29). The intervention group attended a 5-week mindfulness-based intervention. At T1 and T2, the same procedure described in Study 1 was applied and mothers reported about their wellbeing.ResultsResults showed that maternal mindfulness was associated with high physiological and behavioral attunement at 3 months and with more positive maternal behaviors and less stress at 9 months. Analysis evidenced a slight improvement in the intervention group in maternal dispositional mindfulness and a reduction in parenting stress at T2.DiscussionFindings from both studies suggested that maternal mindfulness could represent a protective factor that could support mothers in fostering better dyadic interactions with their infants. The implementation of mindfulness-based interventions for mothers could have preventive and clinical implications.

Published
2024
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