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1. Geometric Active Exploration in Markov Decision Processes: the Benefit of Abstraction

Author

De Santi, Riccardo, Joseph, Federico Arangath, Liniger, Noah, Mutti, Mirco, and Krause, Andreas

Subjects
Computer Science - Machine Learning
Abstract

How can a scientist use a Reinforcement Learning (RL) algorithm to design experiments over a dynamical system's state space? In the case of finite and Markovian systems, an area called Active Exploration (AE) relaxes the optimization problem of experiments design into Convex RL, a generalization of RL admitting a wider notion of reward. Unfortunately, this framework is currently not scalable and the potential of AE is hindered by the vastness of experiment spaces typical of scientific discovery applications. However, these spaces are often endowed with natural geometries, e.g., permutation invariance in molecular design, that an agent could leverage to improve the statistical and computational efficiency of AE. To achieve this, we bridge AE and MDP homomorphisms, which offer a way to exploit known geometric structures via abstraction. Towards this goal, we make two fundamental contributions: we extend MDP homomorphisms formalism to Convex RL, and we present, to the best of our knowledge, the first analysis that formally captures the benefit of abstraction via homomorphisms on sample efficiency. Ultimately, we propose the Geometric Active Exploration (GAE) algorithm, which we analyse theoretically and experimentally in environments motivated by problems in scientific discovery., Comment: ICML 2024

Published
2024

2. The Limits of Pure Exploration in POMDPs: When the Observation Entropy is Enough

Author

Zamboni, Riccardo, Cirino, Duilio, Restelli, Marcello, and Mutti, Mirco

Subjects
Computer Science - Machine Learning
Abstract

The problem of pure exploration in Markov decision processes has been cast as maximizing the entropy over the state distribution induced by the agent's policy, an objective that has been extensively studied. However, little attention has been dedicated to state entropy maximization under partial observability, despite the latter being ubiquitous in applications, e.g., finance and robotics, in which the agent only receives noisy observations of the true state governing the system's dynamics. How can we address state entropy maximization in those domains? In this paper, we study the simple approach of maximizing the entropy over observations in place of true latent states. First, we provide lower and upper bounds to the approximation of the true state entropy that only depends on some properties of the observation function. Then, we show how knowledge of the latter can be exploited to compute a principled regularization of the observation entropy to improve performance. With this work, we provide both a flexible approach to bring advances in state entropy maximization to the POMDP setting and a theoretical characterization of its intrinsic limits.

Published
2024

3. Generalized FGM dependence: Geometrical representation and convex bounds on sums

Author

Cossette, Hélène, Marceau, Etienne, Mutti, Alessandro, and Semeraro, Patrizia

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Statistics Theory
Abstract

Building on the one-to-one relationship between generalized FGM copulas and multivariate Bernoulli distributions, we prove that the class of multivariate distributions with generalized FGM copulas is a convex polytope. Therefore, we find sharp bounds in this class for many aggregate risk measures, such as value-at-risk, expected shortfall, and entropic risk measure, by enumerating their values on the extremal points of the convex polytope. This is infeasible in high dimensions. We overcome this limitation by considering the aggregation of identically distributed risks with generalized FGM copula specified by a common parameter $p$. In this case, the analogy with the geometrical structure of the class of Bernoulli distribution allows us to provide sharp analytical bounds for convex risk measures., Comment: 30 pages, 1 figure

Published
2024

4. How does Inverse RL Scale to Large State Spaces? A Provably Efficient Approach

Author

Lazzati, Filippo, Mutti, Mirco, and Metelli, Alberto Maria

Subjects
Computer Science - Machine Learning
Abstract

In online Inverse Reinforcement Learning (IRL), the learner can collect samples about the dynamics of the environment to improve its estimate of the reward function. Since IRL suffers from identifiability issues, many theoretical works on online IRL focus on estimating the entire set of rewards that explain the demonstrations, named the feasible reward set. However, none of the algorithms available in the literature can scale to problems with large state spaces. In this paper, we focus on the online IRL problem in Linear Markov Decision Processes (MDPs). We show that the structure offered by Linear MDPs is not sufficient for efficiently estimating the feasible set when the state space is large. As a consequence, we introduce the novel framework of rewards compatibility, which generalizes the notion of feasible set, and we develop CATY-IRL, a sample efficient algorithm whose complexity is independent of the cardinality of the state space in Linear MDPs. When restricted to the tabular setting, we demonstrate that CATY-IRL is minimax optimal up to logarithmic factors. As a by-product, we show that Reward-Free Exploration (RFE) enjoys the same worst-case rate, improving over the state-of-the-art lower bound. Finally, we devise a unifying framework for IRL and RFE that may be of independent interest., Comment: Advances in Neural Information Processing Systems 38 (NeurIPS 2024)

Published
2024

5. How to Explore with Belief: State Entropy Maximization in POMDPs

Author

Zamboni, Riccardo, Cirino, Duilio, Restelli, Marcello, and Mutti, Mirco

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Recent works have studied *state entropy maximization* in reinforcement learning, in which the agent's objective is to learn a policy inducing high entropy over states visitation (Hazan et al., 2019). They typically assume full observability of the state of the system, so that the entropy of the observations is maximized. In practice, the agent may only get *partial* observations, e.g., a robot perceiving the state of a physical space through proximity sensors and cameras. A significant mismatch between the entropy over observations and true states of the system can arise in those settings. In this paper, we address the problem of entropy maximization over the *true states* with a decision policy conditioned on partial observations *only*. The latter is a generalization of POMDPs, which is intractable in general. We develop a memory and computationally efficient *policy gradient* method to address a first-order relaxation of the objective defined on *belief* states, providing various formal characterizations of approximation gaps, the optimization landscape, and the *hallucination* problem. This paper aims to generalize state entropy maximization to more realistic domains that meet the challenges of applications.

Published
2024

6. Test-Time Regret Minimization in Meta Reinforcement Learning

Author

Mutti, Mirco and Tamar, Aviv

Subjects
Computer Science - Machine Learning
Abstract

Meta reinforcement learning sets a distribution over a set of tasks on which the agent can train at will, then is asked to learn an optimal policy for any test task efficiently. In this paper, we consider a finite set of tasks modeled through Markov decision processes with various dynamics. We assume to have endured a long training phase, from which the set of tasks is perfectly recovered, and we focus on regret minimization against the optimal policy in the unknown test task. Under a separation condition that states the existence of a state-action pair revealing a task against another, Chen et al. (2022) show that $O(M^2 \log(H))$ regret can be achieved, where $M, H$ are the number of tasks in the set and test episodes, respectively. In our first contribution, we demonstrate that the latter rate is nearly optimal by developing a novel lower bound for test-time regret minimization under separation, showing that a linear dependence with $M$ is unavoidable. Then, we present a family of stronger yet reasonable assumptions beyond separation, which we call strong identifiability, enabling algorithms achieving fast rates $\log (H)$ and sublinear dependence with $M$ simultaneously. Our paper provides a new understanding of the statistical barriers of test-time regret minimization and when fast rates can be achieved.

Published
2024

8. Immuno-related cardio-vascular adverse events associated with immuno-oncological treatments: an under-estimated threat for cancer patients

Author

Panuccio, Giuseppe, Correale, Pierpaolo, d’Apolito, Maria, Mutti, Luciano, Giannicola, Rocco, Pirtoli, Luigi, Giordano, Antonio, Labate, Demetrio, Macheda, Sebastiano, Carabetta, Nicole, Abdelwahed, Youssef S., Landmesser, Ulf, Tassone, Pierfrancesco, Tagliaferri, Pierosandro, De Rosa, Salvatore, and Torella, Daniele

Published
2024
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10. Offline Inverse RL: New Solution Concepts and Provably Efficient Algorithms

Author

Lazzati, Filippo, Mutti, Mirco, and Metelli, Alberto Maria

Subjects
Computer Science - Machine Learning
Abstract

Inverse reinforcement learning (IRL) aims to recover the reward function of an expert agent from demonstrations of behavior. It is well-known that the IRL problem is fundamentally ill-posed, i.e., many reward functions can explain the demonstrations. For this reason, IRL has been recently reframed in terms of estimating the feasible reward set (Metelli et al., 2021), thus, postponing the selection of a single reward. However, so far, the available formulations and algorithmic solutions have been proposed and analyzed mainly for the online setting, where the learner can interact with the environment and query the expert at will. This is clearly unrealistic in most practical applications, where the availability of an offline dataset is a much more common scenario. In this paper, we introduce a novel notion of feasible reward set capturing the opportunities and limitations of the offline setting and we analyze the complexity of its estimation. This requires the introduction an original learning framework that copes with the intrinsic difficulty of the setting, for which the data coverage is not under control. Then, we propose two computationally and statistically efficient algorithms, IRLO and PIRLO, for addressing the problem. In particular, the latter adopts a specific form of pessimism to enforce the novel desirable property of inclusion monotonicity of the delivered feasible set. With this work, we aim to provide a panorama of the challenges of the offline IRL problem and how they can be fruitfully addressed., Comment: International Conference on Machine Learning 41 (ICML 2024)

Published
2024

11. A Theoretical Framework for Partially Observed Reward-States in RLHF

Author

Kausik, Chinmaya, Mutti, Mirco, Pacchiano, Aldo, and Tewari, Ambuj

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Statistics - Machine Learning
Abstract

The growing deployment of reinforcement learning from human feedback (RLHF) calls for a deeper theoretical investigation of its underlying models. The prevalent models of RLHF do not account for neuroscience-backed, partially-observed "internal states" that can affect human feedback, nor do they accommodate intermediate feedback during an interaction. Both of these can be instrumental in speeding up learning and improving alignment. To address these limitations, we model RLHF as reinforcement learning with partially observed reward-states (PORRL). We accommodate two kinds of feedback $-$ cardinal and dueling feedback. We first demonstrate that PORRL subsumes a wide class of RL problems, including traditional RL, RLHF, and reward machines. For cardinal feedback, we present two model-based methods (POR-UCRL, POR-UCBVI). We give both cardinal regret and sample complexity guarantees for the methods, showing that they improve over naive history-summarization. We then discuss the benefits of a model-free method like GOLF with naive history-summarization in settings with recursive internal states and dense intermediate feedback. For this purpose, we define a new history aware version of the Bellman-eluder dimension and give a new guarantee for GOLF in our setting, which can be exponentially sharper in illustrative examples. For dueling feedback, we show that a naive reduction to cardinal feedback fails to achieve sublinear dueling regret. We then present the first explicit reduction that converts guarantees for cardinal regret to dueling regret. In both feedback settings, we show that our models and guarantees generalize and extend existing ones., Comment: 64 pages. 14 pages for main paper, 50 pages for references + appendix

Published
2024

12. Delivering the EU Child Guarantee: Practical Lessons for Effective Interventions. A Synthesis of Findings of Operational Research on 15 Pilot Models of Intervention for Children and Families in Need in Bulgaria, Croatia, Greece and Italy

Author

UNICEF Office of Research – Innocenti (Italy), Cunsolo, Sabbiana, Rees, Gwyther, Tadic, Maja, Mihaylova, Raya, Karakosta, Argyro, Mutti, Valentina, Pozneanscaia, Cristina, and Bianchera, Emanuela

Abstract

In 2019, the President of the European Commission announced the creation of the European Child Guarantee, an initiative that aimed to combat child poverty by making sure that every child who lives in poverty has access to free healthcare, free education, free childcare, decent housing and adequate nutrition. With "Delivering the EU Child Guarantee: Practical lessons for effective interventions," UNICEF Innocenti provides a synthesis of findings of operational research on 15 pilot models of intervention for children and families in Bulgaria, Croatia, Greece and Italy. The goal of the report is to learn from the experiences in these four countries to inform the rollout of the Child Guarantee programme throughout Europe. The study provides lessons learned in three themes: laying the foundations for the Child Guarantee work at the national level; developing interventions at the local level; supporting the Child Guarantee at the EU level.

Published
2023

13. Diurnal cycle of precipitation in Brazil

Author

Santos e Silva, Cláudio Moisés, Rodrigues, Daniele Tôrres, Medeiros, Felipe, Valentim, Aléxia Monteiro, de Araújo, Paula Andressa Alves, da Silva Pinto, Joicy, Mutti, Pedro Rodrigues, Mendes, Keila Rêgo, Bezerra, Bergson Guedes, de Oliveira, Cristiano Prestrelo, and Gonçalves, Weber Andrade

Published
2024
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14. Exploiting Causal Graph Priors with Posterior Sampling for Reinforcement Learning

Author

Mutti, Mirco, De Santi, Riccardo, Restelli, Marcello, Marx, Alexander, and Ramponi, Giorgia

Subjects
Computer Science - Machine Learning
Abstract

Posterior sampling allows exploitation of prior knowledge on the environment's transition dynamics to improve the sample efficiency of reinforcement learning. The prior is typically specified as a class of parametric distributions, the design of which can be cumbersome in practice, often resulting in the choice of uninformative priors. In this work, we propose a novel posterior sampling approach in which the prior is given as a (partial) causal graph over the environment's variables. The latter is often more natural to design, such as listing known causal dependencies between biometric features in a medical treatment study. Specifically, we propose a hierarchical Bayesian procedure, called C-PSRL, simultaneously learning the full causal graph at the higher level and the parameters of the resulting factored dynamics at the lower level. We provide an analysis of the Bayesian regret of C-PSRL that explicitly connects the regret rate with the degree of prior knowledge. Our numerical evaluation conducted in illustrative domains confirms that C-PSRL strongly improves the efficiency of posterior sampling with an uninformative prior while performing close to posterior sampling with the full causal graph.

Published
2023

15. Symmetric Bernoulli distributions and minimal dependence copulas

Author

Mutti, Alessandro and Semeraro, Patrizia

Subjects
Mathematics - Statistics Theory, Quantitative Finance - Mathematical Finance
Abstract

The key result of this paper is to find all the joint distributions of random vectors whose sums $S=X_1+\ldots+X_d$ are minimal in convex order in the class of symmetric Bernoulli distributions. The minimal convex sums distributions are known to be strongly negatively dependent. Beyond their interest per se, these results enable us to explore negative dependence within the class of copulas. In fact, there are two classes of copulas that can be built from multivariate symmetric Bernoulli distributions: the extremal mixture copulas, and the FGM copulas. We study the extremal negative dependence structure of the copulas corresponding to symmetric Bernoulli vectors with minimal convex sums and we explicitly find a class of minimal dependence copulas. Our main results stem from the geometric and algebraic representations of multivariate symmetric Bernoulli distributions, which effectively encode several of their statistical properties.

Published
2023

16. Accurate measurements of delayed neutron data for reactor applications: methodology and application to 235U(nth,f)

Author

Leconte, Pierre, Belverge, Dorian, Bernard, David, Chebboubi, Abdelhazize, Kessedjian, Grégoire, Foligno, Daniela, Geslot, Benoit, Sardet, Alix, Casoli, Pierre, Kooyman, Timothée, Pépino, Alexandra, Domergue, Christophe, Doré, Diane, Ledoux, Xavier, Mathieu, Ludovic, Méplan, Olivier, Billebaud, Annick, Cheymol, Benjamin, Marie, Nathalie, Lecolley, François-René, Lecouey, Jean-Luc, Koester, Ulli, Solder, Torsten, and Mutti, Paolo

Published
2024
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17. Persuading Farsighted Receivers in MDPs: the Power of Honesty

Author

Bernasconi, Martino, Castiglioni, Matteo, Marchesi, Alberto, and Mutti, Mirco

Subjects
Computer Science - Computer Science and Game Theory
Abstract

Bayesian persuasion studies the problem faced by an informed sender who strategically discloses information to influence the behavior of an uninformed receiver. Recently, a growing attention has been devoted to settings where the sender and the receiver interact sequentially, in which the receiver's decision-making problem is usually modeled as a Markov decision process (MDP). However, previous works focused on computing optimal information-revelation policies (a.k.a. signaling schemes) under the restrictive assumption that the receiver acts myopically, selecting actions to maximize the one-step utility and disregarding future rewards. This is justified by the fact that, when the receiver is farsighted and thus considers future rewards, finding an optimal Markovian signaling scheme is NP-hard. In this paper, we show that Markovian signaling schemes do not constitute the "right" class of policies. Indeed, differently from most of the MDPs settings, we prove that Markovian signaling schemes are not optimal, and general history-dependent signaling schemes should be considered. Moreover, we also show that history-dependent signaling schemes circumvent the negative complexity results affecting Markovian signaling schemes. Formally, we design an algorithm that computes an optimal and {\epsilon}-persuasive history-dependent signaling scheme in time polynomial in 1/{\epsilon} and in the instance size. The crucial challenge is that general history-dependent signaling schemes cannot be represented in polynomial space. Nevertheless, we introduce a convenient subclass of history-dependent signaling schemes, called promise-form, which are as powerful as general history-dependent ones and efficiently representable. Intuitively, promise-form signaling schemes compactly encode histories in the form of honest promises on future receiver's rewards.

Published
2023

19. The catalytic activity of methyltransferase METTL15 is dispensable for its role in mitochondrial ribosome biogenesis

Author

Christian D. Mutti, Lindsey Van Haute, and Michal Minczuk

Subjects
Mitochondrial ribosome, epitranscriptomics, methyltransferase, chaperone, mitochondria, ribosomal RNA, Genetics, QH426-470
Abstract

Ribosomes are large macromolecular complexes composed of both proteins and RNA, that require a plethora of factors and post-transcriptional modifications for their biogenesis. In human mitochondria, the ribosomal RNA is post-transcriptionally modified at ten sites. The N4-methylcytidine (m4C) methyltransferase, METTL15, modifies the 12S rRNA of the small subunit at position C1486. The enzyme is essential for mitochondrial protein synthesis and assembly of the mitoribosome small subunit, as shown here and by previous studies. Here, we demonstrate that the m4C modification is not required for small subunit biogenesis, indicating that the chaperone-like activity of the METTL15 protein itself is an essential component for mitoribosome biogenesis.

Published
2024
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25. A Tale of Sampling and Estimation in Discounted Reinforcement Learning

Author

Metelli, Alberto Maria, Mutti, Mirco, and Restelli, Marcello

Subjects
Computer Science - Machine Learning
Abstract

The most relevant problems in discounted reinforcement learning involve estimating the mean of a function under the stationary distribution of a Markov reward process, such as the expected return in policy evaluation, or the policy gradient in policy optimization. In practice, these estimates are produced through a finite-horizon episodic sampling, which neglects the mixing properties of the Markov process. It is mostly unclear how this mismatch between the practical and the ideal setting affects the estimation, and the literature lacks a formal study on the pitfalls of episodic sampling, and how to do it optimally. In this paper, we present a minimax lower bound on the discounted mean estimation problem that explicitly connects the estimation error with the mixing properties of the Markov process and the discount factor. Then, we provide a statistical analysis on a set of notable estimators and the corresponding sampling procedures, which includes the finite-horizon estimators often used in practice. Crucially, we show that estimating the mean by directly sampling from the discounted kernel of the Markov process brings compelling statistical properties w.r.t. the alternative estimators, as it matches the lower bound without requiring a careful tuning of the episode horizon., Comment: AISTATS 2023

Published
2023

26. Thonzonium bromide inhibits progression of malignant pleural mesothelioma through regulation of ERK1/2 and p38 pathways and mitochondrial uncoupling

Author

Irene Dell’Anno, Federica Morani, Simone Patergnani, Antonio Daga, Paolo Pinton, Carlotta Giorgi, Luciano Mutti, Federica Gemignani, and Stefano Landi

Subjects
Malignant pleural mesothelioma, Thonzonium bromide, NOD-SCID, Mitochondrial uncouplers, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671
Abstract

Abstract Background Malignant Pleural Mesothelioma (MPM) is a rare malignancy with a poor prognosis. Current therapies are unsatisfactory and novel cures are urgently needed. In a previous drug screening, we identified thonzonium bromide (TB) as one of the most active compounds against MPM cells. Since the biological effects of TB are poorly known, in this work we departed from some hints of previous studies and investigated several hypotheses. Moreover, we evaluated the efficacy of TB in an in vivo xenograft rodent model. Methods In vitro assessment was made on five MPM (Mero-14, Mero-25, Ren, NCI-H28, MSTO-211H) and one SV40-immortalized mesothelial cell line (MeT-5A). We evaluated TB ability to affect proliferation, apoptosis, mitochondrial functions and metabolism, and the mevalonate pathway. In vivo assay was carried out on MPM-xenograft NOD-SCID mice (4 mg/kg delivered intraperitoneally, twice a week for 4 weeks) and the overall survival was analysed with Kaplan-Meier curves. Results After TB treatment, we observed the suppression of ERK 1/2 phosphorylation, the increase of BAX expression and p38 phosphorylation. TB affected Ca2+ homeostasis in both mitochondrial and cytosolic compartments, it regulated the mitochondrial functioning, respiration, and ATP production as well as the mevalonate pathway. The in vivo study showed an increased overall survival for TB treated group vs. vehicle control group (P = 0.0076). Conclusions Both in vitro and in vivo results confirmed the effect of TB on MPM and unravelled novel targets with translational potential.

Published
2024
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27. Structure–function relationship of dynorphin B variants using naturally occurring amino acid substitutions

Author

Luca Zangrandi, Barbara Fogli, Anna Mutti, René Staritzbichler, Victoria Most, Peter W. Hildebrand, Regine Heilbronn, and Christoph Schwarzer

Subjects
opioid receptors, epilepsy, functional selectivity, G-protein-coupled receptors, selectivity, Therapeutics. Pharmacology, RM1-950
Abstract

Dynorphins (Dyn) represent the subset of endogenous opioid peptides with the highest binding affinity to kappa opioid receptors (KOPrs). Activation of the G-protein-coupled pathway of KOPrs has strong anticonvulsant effects. Dyn also bind to mu (MOPrs) and delta opioid receptors (DOPrs) with lower affinity and can activate the β-arrestin pathway. To fully exploit the therapeutic potential of dynorphins and reduce potential unwanted effects, increased selectivity for KOPrs combined with reduced activation of the mTOR complex would be favorable. Therefore, we investigated a series of dynorphin B (DynB) variants, substituted in one or two positions with naturally occurring amino acids for differential opioid receptor activation, applying competitive radio binding assays, GTPγS assays, PRESTO-Tango, and Western blotting on single-opioid receptor-expressing cells. Seven DynB derivatives displayed at least 10-fold increased selectivity for KOPrs over either MOPrs or DOPrs. The highest selectivity for KOPrs over MOPrs was obtained with DynB_G3M/Q8H, and the highest selectivity for KOPrs over DOPrs was obtained with DynB_L5S. Increased selectivity for KOPr over MOPr and DOPr was based on a loss of affinity or potency at MOPr and DOPr rather than a higher affinity or potency at KOPr. This suggests that the investigated amino acid exchanges in positions 3, 5, and 8 are of higher importance for binding and activation of MOPr or DOPr than of KOPr. In tests for signal transduction using the GTPγS assay, none of the DynB derivatives displayed increased potency. The three tested variants with substitutions of glycine to methionine in position 3 displayed reduced efficacy and are, therefore, considered partial agonists. The two most promising activating candidates were further investigated for functional selectivity between the G-protein and the β-arrestin pathway, as well as for activation of mTOR. No difference was detected in the respective read-outs, compared to wild-type DynB. Our data indicate that the assessment of affinity to KOPr alone is not sufficient to predict either potency or efficacy of peptidergic agonists on KOPr. Further assessment of downstream pathways is required to allow more reliable predictions of in vivo effects.

Published
2024
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28. En memoria a Cristina Díaz

Author

V. Gastón Mutti and Pablo Barberis

Subjects
Social sciences (General), H1-99
Abstract

Como Equipo Editorial queremos recordar a nuestra querida Cristina Díaz quien recientemente nos dejara. Ella participó activamente en el proceso fundacional de la carrera licenciatura en Ciencia Política y de la Maestría en Evaluación de Políticas Públicas de nuestra institución. Convocamos a Gastón Mutti y Pablo Barberis, cientistas políticos, docentes de nuestra facultad, quienes comparten algunas palabras en su memoria. Todo nuestro afecto y gratitud en su recuerdo.

Published
2024

29. EFFECTS OF CPAP USE IN PREVENTING ATRIAL FIBRILLATION RECURRENCE POST-ABLATION IN OSA PATIENTS

Author

Sumeet S. Mutti, MD

Subjects
Diseases of the circulatory (Cardiovascular) system, RC666-701, Public aspects of medicine, RA1-1270
Abstract

Therapeutic Area: ASCVD/CVD Risk Factors Background: With the escalating global prevalence of atrial fibrillation (AF) and its recognized link to obstructive sleep apnea (OSA), this study focuses on assessing the efficacy of continuous positive airway pressure (CPAP) therapy in reducing AF recurrence following catheter-based pulmonary vein isolation. Methods: Following the Preferred Reporting Items for Systematic Review and Meta-Analyses (PRISMA) guidelines, we conducted a comprehensive systematic review and meta-analysis. The search was limited to English-language journal articles published from 2010 up to June 2023. Our search spanned various databases, targeting studies reporting AF recurrence post-ablation exclusively in patients diagnosed with OSA with AHI > five. After stringent selection criteria, we applied the Mantel-Haenszel method for analysis, using the pooled relative risk (RR) as the core outcome measure. Results: Data from Five studies with 1023 in total patients from three cohort studies and two intention-to-treat Randomized Control Trial was extracted. Both common effect and random effects models consistently demonstrated a substantial reduction in AF recurrence post-ablation attributed to CPAP intervention, yielding pooled RRs of 0.6075 and 0.6101, respectively. Patients who used CPAP showed 39.1% relative risk reduction (in the random effect model) of AF recurrence post-ablation compared to those who did not use CPAP. Heterogeneity analysis indicated moderate variability, and Egger's test suggested minimal risk of publication bias. Conclusions: The findings highlight the potential of CPAP therapy in significantly curtailing AF recurrence among individuals with OSA, particularly in the context of post-ablation scenarios. CPAP's influence may extend to rectifying atrial structural and electrical remodeling, translating into a tangible decrease in AF recurrence rates.

Published
2024
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33. Pleural mesothelioma (PMe): The evolving molecular knowledge of a rare and aggressive cancer

Author

Manuel Rigon, Luciano Mutti, and Michelangelo Campanella

Subjects
asbestos, BAP1 and therapy, mesothelioma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Mesothelioma is a type of late‐onset cancer that develops in cells covering the outer surface of organs. Although it can affect the peritoneum, heart, or testicles, it mainly targets the lining of the lungs, making pleural mesothelioma (PMe) the most common and widely studied mesothelioma type. PMe is caused by exposure to fibres of asbestos, which when inhaled leads to inflammation and scarring of the pleura. Despite the ban on asbestos by most Western countries, the incidence of PMe is on the rise, also facilitated by a lack of specific symptomatology and diagnostic methods. Therapeutic options are also limited to mainly palliative care, making this disease untreatable. Here we present an overview of biological aspects underlying PMe by listing genetic and molecular mechanisms behind its onset, aggressive nature, and fast‐paced progression. To this end, we report on the role of deubiquitinase BRCA1‐associated protein‐1 (BAP1), a tumour suppressor gene with a widely acknowledged role in the corrupted signalling and metabolism of PMe. This review aims to enhance our understanding of this devastating malignancy and propel efforts for its investigation.

Published
2024
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34. Engagement of private health care facilities in TB management in Lusaka district of Zambia: lessons learned and achievements

Author

Robert Hambwalula, Mary Kagujje, Innocent Mwaba, Dennis Musonda, David Singini, Lilungwe Mutti, Nsala Sanjase, Paul C. Kaumba, Luunga M. Ziko, Kevin M. Zimba, Pauline Kasese-Chanda, and Monde Muyoyeta

Subjects
Public aspects of medicine, RA1-1270
Abstract

Abstract Background Globally, at least 3 million TB patients are missed every year. In Zambia, the TB treatment coverage increased from 66% in 2020 to 92% in 2022. Involvement of all levels of health care service delivery is critical to finding all the missing TB patients. Methods A survey was undertaken in 15 private facilities in Lusaka district of Zambia using a structured tool administered by project team and a district health team member. Data collected during the survey was analysed and results were used to determine the type of TB services that were offered as well as barriers and enablers to TB service provision. This was followed by a set of interventions that included; training and mentorship on active case finding and systematic TB screening, increased diagnostic capacity, provision of national recording and reporting tools and provision of TB medication through linkage with the National TB program (NTP). We report findings from the baseline survey and changes in presumptive TB identification and notification following interventions. Results Major barriers to TB service delivery were the high cost of TB diagnostic testing and treatment in facilities where services were not supported by the National TB program; the mean cost was 33 (SD 33) and 93 (SD 148) for GeneXpert testing and a full course of treatment respectively. Pre-intervention, presumptive TB identification appeared to increase monthly by 4 (P = 0.000, CI=[3.00–5.00]). The monthly trends of presumptive TB identification during the intervention period increased by 5.32 (P = 0.000, [CI 4.31–6.33. Pre-intervention, the notification of TB appeared to decrease every month by -4.0 (P = 0.114, CI=[-9.00-0.10]) followed by an immediate increase in notifications of 13.94 TB patients (P = 0.001, CI [6.51, 21.36] in the first month on intervention. The monthly trends of notification during the intervention period changed by 0.34 (P = 0.000 [CI 0.19–0.48]). Private facility contribution to TB notification increased from 3 to 7%. Conclusion Engagement and inclusion of private health facilities in TB service provision through a systems strengthening approach can increase contribution to TB notification by private health facilities.

Published
2024
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35. Unveiling the Transition From Paleolake Lisan to Dead Sea Through the Analysis of Lake Paleoshorelines and Radiometric Dating of Fossil Stromatolites

Author

Julius Jara‐Muñoz, Amotz Agnon, Jens Fohlmeister, Sara Tomás, Jürgen Mey, Norbert Frank, Birgit Schröder, Andrea Schröder‐Ritzrau, Yannick Garcin, Yaniv Darvasi, Daniel Melnick, Maria Mutti, and Manfred R. Strecker

Subjects
Dead Sea, paleolake Lisan, stromatolites, lacustrine shorelines, lake‐level, Levant, Geophysics. Cosmic physics, QC801-809, Geology, QE1-996.5
Abstract

Abstract To date, the most complete paleolake‐level reconstructions for the late Pleistocene water bodies that once occupied the Dead Sea depression have been based on the combination of dating of lake sediments and terrestrial materials. However, despite these major accomplishments, there is still limited spatial control regarding the water levels, suggesting some degree of uncertainty concerning the magnitude and rate of lake‐level changes. Here, we re‐examine the late Pleistocene lake‐level changes in the Dead Sea during the transition from paleolake Lisan to the present‐day Dead Sea. We rely on systematic dating of fossil stromatolites including 84 radiocarbon and 15 U‐series ages, stable‐isotope measurements, paleobiology, high‐resolution topography, and numerical modeling to assess lake‐level changes. Our results indicate that the highstand of paleolake Lisan was of shorter duration and the transition between Lake Lisan and the Dead Sea occurred at least 5 Kyrs earlier than previously indicated. By refining the timeline and accuracy of lake‐level positions during the transition paleolake Lisan—Dead Sea, our study offers new insights into the regional and local paleo‐climatic conditions during the last glacial period in this region.

Published
2024
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36. Meteorological and biophysical controls of evapotranspiration in tropical grazed pasture under rainfed conditions

Author

Israel W.H. da Silva, Thiago V. Marques, Stela A. Urbano, Keila R. Mendes, Ane Caroline C.F. Oliveira, Fábio da S. Nascimento, Leonardo Fiusa de Morais, Waldeir dos S. Pereira, Pedro R. Mutti, João Virgínio Emerenciano Neto, José Romualdo de S. Lima, Pablo E.S. Oliveira, Gabriel B. Costa, Cláudio M. Santos e Silva, and Bergson G. Bezerra

Subjects
Pasture water consumption, Surface conductance, Brachiaria brizantha, Eddy covariance, Grazing pasture, Agriculture (General), S1-972, Agricultural industries, HD9000-9495
Abstract

Evapotranspiration (ET) is the main driver of the energy balance partitioning and influences hydrological and carbon cycles at global, regional and local scales. Furthermore, it is the main requirement for developing strategies to improve water use in agriculture. It is known that there is a close relationship between ET and rainfall, especially in tropical environments. Thus, the main goal of this article was to evaluate how ET and its controls (surface conductance - Gs; decoupling coefficient - Ω; Priestley-Taylor parameter - α) respond to the seasonal variability of meteorological forcing in tropical grazed pastures under the climatic conditions of Northeast Brazil. ET was measured using an Eddy covariance (EC) system and analyzed based on data from two agricultural years (2015–2016 and 2016–2017) with negative (-59 mm) and positive (356 mm) rainfall anomaly, respectively. ET exhibited pronounced seasonality, closely aligned with the seasonality of rainfall. Lower daily averages were observed during the dry season in both agricultural years (1.01 ± 0.60 and 0.89 ± 0.44 mm, respectively). On the other hand, higher daily averages were observed during the rainy season (2.44 ± 0.75 and 4.83 ± 0.96 mm, respectively). The Gs patterns and the significant correlation between Gs, Ω, and α (p < 0.01) indicate that surface control prevails over atmospheric control on an annual scale. This finding is confirmed by the annual mean values of Ω (0.27, 2015–2016) and α (0.38, 2016–2017). This relationship is likely induced by a vegetative stomatal control mechanism, which protects the vegetation against excessive water loss during periods of high temperatures and low humidity levels. These findings are crucial for understanding how droughts modulate components of the energy balance and water fluxes in pastures, especially given the intensification of these events. This has implications for the implementation of climate change mitigation policies and soil management.

Published
2024
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37. Unraveling sleep respiratory dysfunction in amyotrophic lateral sclerosis: Beyond the apnea-hypopnea index and sleep-related hypoxia

Author

Andi Nuredini, Dario Bottignole, Filippo Stragliati, Pietro Anceschi, Sonia Romano, Irene Pollara, Anna Abramo, Francesco Rausa, Liborio Parrino, Lucia Zinno, and Carlotta Mutti

Subjects
Sleep recording, Amyotrophic lateral sclerosis, Diagnosis, Hypoventilation, Noninvasive ventilation, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

The timely introduction of non-invasive ventilation (NIV) is extremely relevant in the multidisciplinary management of patients affected by amyotrophic lateral sclerosis (ALS) and is based on the proper identification of red flags for early diaphragmatic exhaustion. Polygraphic sleep recording may provide insightful information on the ongoing respiratory impairment; in particular, atypical breathing patterns need to be recognized, as the application of current guidelines for sleep-related hypoxemia or sleep apnea may be insufficient for detecting early signs of diaphragmatic fatigue. We report the case of a 51-year-old man affected by ALS who was asymptomatic for breathing impairment, but whose nocturnal polysomnographic recording, despite not significant for obstructive sleep apnea nor for conventional hypoventilatory patterns, strongly suggested initial respiratory failure, as lately confirmed by the pulmonary follow-up. We discuss the advantages of including sleep recording in the clinical work-up of patients affected by ALS.

Published
2024
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38. Sim-to-Real RNN-Based Framework for the Precise Positioning of Autonomous Mobile Robots

Author

Stefano Mutti, Nicola Pedrocchi, Anna Valente, and Giovanni Dimauro

Subjects
Mobile robot localization, transfer learning, recurrent neural networks, lidar-based localization, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

This work proposes a recurrent neural network-based sim-to-real method to learn mobile robot localization using lidar data in dynamic environments. The main aim of the algorithm is to estimate a Cartesian position error relative to a saved position by means of stored lidar readings in a two-dimensional environment, using lidar data as input. To achieve this, we propose a method that first trains a model on synthetic and augmented LiDAR data to embed rigid transformations into the deep learning model and then fine-tunes the model on real positions using real-world data and external camera measures to produce training labels. This pre-training and fine-tuning approach considerably reduces the time, the computation power, and the amount of real-world data needed to have an accurate model, allowing running the fine-positioning model on the edge of autonomous mobile robots(AMRs). After optimizing the model architecture and hyperparameters, the devised model is tested in different scenarios, comparing the precise positioning capability of AMRs with that of a classical iterative closest point and advanced Monte Carlo localization.

Published
2024
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39. The association between pupillary responses and axial length in children differs as a function of season

Author

Marielle G. Reidy, Andrew T. E. Hartwick, and Donald O. Mutti

Subjects
Medicine, Science
Abstract

Abstract The association between pupillary responses to repeated stimuli and adult refractive error has been previously demonstrated. This study evaluated whether this association exists in children and if it varies by season. Fifty children aged 8–17 years (average: 11.55 ± 2.75 years, 31 females) with refractive error between + 1.51 and − 5.69 diopters (non-cycloplegic) participated (n = 27 in summer, and n = 23 in winter). The RAPDx pupilometer measured pupil sizes while stimuli oscillated between colored light and dark at 0.1 Hz in three sequences: (1) alternating red and blue, (2) red-only, and (3) blue-only. The primary outcome was the difference in pupillary responses between the blue-only and red-only sequences. Pupillary constriction was greater in response to blue light than to red for those with shorter eyes in summer (β = − 9.42, P = 0.034) but not in winter (β = 3.42, P = 0.54). Greater constriction comprised faster pupillary escape following red light onset and slower redilation following stimulus offset of both colors (P = 0.017, 0.036, 0.035 respectively). The association between axial length and children’s pupillary responses in summer, but not winter may be explained by greater light-associated release of retinal dopamine in summer. Shorter eyes’ more robust responses are consistent with greater light exposure inhibiting axial elongation and reducing myopia risk.

Published
2024
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40. Reward-Free Policy Space Compression for Reinforcement Learning

Author

Mutti, Mirco, Del Col, Stefano, and Restelli, Marcello

Subjects
Computer Science - Machine Learning
Abstract

In reinforcement learning, we encode the potential behaviors of an agent interacting with an environment into an infinite set of policies, the policy space, typically represented by a family of parametric functions. Dealing with such a policy space is a hefty challenge, which often causes sample and computation inefficiencies. However, we argue that a limited number of policies are actually relevant when we also account for the structure of the environment and of the policy parameterization, as many of them would induce very similar interactions, i.e., state-action distributions. In this paper, we seek for a reward-free compression of the policy space into a finite set of representative policies, such that, given any policy $\pi$, the minimum R\'enyi divergence between the state-action distributions of the representative policies and the state-action distribution of $\pi$ is bounded. We show that this compression of the policy space can be formulated as a set cover problem, and it is inherently NP-hard. Nonetheless, we propose a game-theoretic reformulation for which a locally optimal solution can be efficiently found by iteratively stretching the compressed space to cover an adversarial policy. Finally, we provide an empirical evaluation to illustrate the compression procedure in simple domains, and its ripple effects in reinforcement learning., Comment: In 25th International Conference on Artificial Intelligence and Statistics

Published
2022

41. Provably Efficient Causal Model-Based Reinforcement Learning for Systematic Generalization

Author

Mutti, Mirco, De Santi, Riccardo, Rossi, Emanuele, Calderon, Juan Felipe, Bronstein, Michael, and Restelli, Marcello

Subjects
Computer Science - Machine Learning
Abstract

In the sequential decision making setting, an agent aims to achieve systematic generalization over a large, possibly infinite, set of environments. Such environments are modeled as discrete Markov decision processes with both states and actions represented through a feature vector. The underlying structure of the environments allows the transition dynamics to be factored into two components: one that is environment-specific and another that is shared. Consider a set of environments that share the laws of motion as an example. In this setting, the agent can take a finite amount of reward-free interactions from a subset of these environments. The agent then must be able to approximately solve any planning task defined over any environment in the original set, relying on the above interactions only. Can we design a provably efficient algorithm that achieves this ambitious goal of systematic generalization? In this paper, we give a partially positive answer to this question. First, we provide a tractable formulation of systematic generalization by employing a causal viewpoint. Then, under specific structural assumptions, we provide a simple learning algorithm that guarantees any desired planning error up to an unavoidable sub-optimality term, while showcasing a polynomial sample complexity., Comment: AAAI 2023

Published
2022

42. The Importance of Non-Markovianity in Maximum State Entropy Exploration

Author

Mutti, Mirco, De Santi, Riccardo, and Restelli, Marcello

Subjects
Computer Science - Machine Learning
Abstract

In the maximum state entropy exploration framework, an agent interacts with a reward-free environment to learn a policy that maximizes the entropy of the expected state visitations it is inducing. Hazan et al. (2019) noted that the class of Markovian stochastic policies is sufficient for the maximum state entropy objective, and exploiting non-Markovianity is generally considered pointless in this setting. In this paper, we argue that non-Markovianity is instead paramount for maximum state entropy exploration in a finite-sample regime. Especially, we recast the objective to target the expected entropy of the induced state visitations in a single trial. Then, we show that the class of non-Markovian deterministic policies is sufficient for the introduced objective, while Markovian policies suffer non-zero regret in general. However, we prove that the problem of finding an optimal non-Markovian policy is NP-hard. Despite this negative result, we discuss avenues to address the problem in a tractable way and how non-Markovian exploration could benefit the sample efficiency of online reinforcement learning in future works., Comment: ICML 2022

Published
2022

43. Challenging Common Assumptions in Convex Reinforcement Learning

Author

Mutti, Mirco, De Santi, Riccardo, De Bartolomeis, Piersilvio, and Restelli, Marcello

Subjects
Computer Science - Machine Learning
Abstract

The classic Reinforcement Learning (RL) formulation concerns the maximization of a scalar reward function. More recently, convex RL has been introduced to extend the RL formulation to all the objectives that are convex functions of the state distribution induced by a policy. Notably, convex RL covers several relevant applications that do not fall into the scalar formulation, including imitation learning, risk-averse RL, and pure exploration. In classic RL, it is common to optimize an infinite trials objective, which accounts for the state distribution instead of the empirical state visitation frequencies, even though the actual number of trajectories is always finite in practice. This is theoretically sound since the infinite trials and finite trials objectives can be proved to coincide and thus lead to the same optimal policy. In this paper, we show that this hidden assumption does not hold in the convex RL setting. In particular, we show that erroneously optimizing the infinite trials objective in place of the actual finite trials one, as it is usually done, can lead to a significant approximation error. Since the finite trials setting is the default in both simulated and real-world RL, we believe shedding light on this issue will lead to better approaches and methodologies for convex RL, impacting relevant research areas such as imitation learning, risk-averse RL, and pure exploration among others., Comment: NeurIPS 2022

Published
2022

45. Unsupervised Reinforcement Learning in Multiple Environments

Author

Mutti, Mirco, Mancassola, Mattia, and Restelli, Marcello

Subjects
Computer Science - Machine Learning
Abstract

Several recent works have been dedicated to unsupervised reinforcement learning in a single environment, in which a policy is first pre-trained with unsupervised interactions, and then fine-tuned towards the optimal policy for several downstream supervised tasks defined over the same environment. Along this line, we address the problem of unsupervised reinforcement learning in a class of multiple environments, in which the policy is pre-trained with interactions from the whole class, and then fine-tuned for several tasks in any environment of the class. Notably, the problem is inherently multi-objective as we can trade off the pre-training objective between environments in many ways. In this work, we foster an exploration strategy that is sensitive to the most adverse cases within the class. Hence, we cast the exploration problem as the maximization of the mean of a critical percentile of the state visitation entropy induced by the exploration strategy over the class of environments. Then, we present a policy gradient algorithm, $\alpha$MEPOL, to optimize the introduced objective through mediated interactions with the class. Finally, we empirically demonstrate the ability of the algorithm in learning to explore challenging classes of continuous environments and we show that reinforcement learning greatly benefits from the pre-trained exploration strategy w.r.t. learning from scratch., Comment: In 36th AAAI Conference on Artificial Intelligence (AAAI 2022)

Published
2021

48. Antitumoral effects of Bortezomib in malignant mesothelioma: evidence of mild endoplasmic reticulum stress in vitro and activation of T cell response in vivo

Author

Benvenuto, Monica, Angiolini, Valentina, Focaccetti, Chiara, Nardozi, Daniela, Palumbo, Camilla, Carrano, Raffaele, Rufini, Alessandra, Bei, Riccardo, Miele, Martino Tony, Mancini, Patrizia, Barillari, Giovanni, Cirone, Mara, Ferretti, Elisabetta, Tundo, Grazia Raffaella, Mutti, Luciano, Masuelli, Laura, and Bei, Roberto

Published
2023
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50. Phage activity against Staphylococcus aureus is impaired in plasma and synovial fluid

Author

Michele Mutti, David Sáez Moreno, Marcela Restrepo-Córdoba, Zehra Visram, Grégory Resch, and Lorenzo Corsini

Subjects
Medicine, Science
Abstract

Abstract S. aureus is a pathogen that frequently causes severe morbidity and phage therapy is being discussed as an alternative to antibiotics for the treatment of S. aureus infections. In this in vitro and animal study, we demonstrated that the activity of anti-staphylococcal phages is severely impaired in 0.5% plasma or synovial fluid. Despite phage replication in these matrices, lysis of the bacteria was slower than phage propagation, and no reduction of the bacterial population was observed. The inhibition of the phages associated with a reduction in phage adsorption, quantified to 99% at 10% plasma. S. aureus is known to bind multiple coagulation factors, resulting in the formation of aggregates and blood clots that might protect the bacterium from the phages. Here, we show that purified fibrinogen at a sub-physiological concentration of 0.4 mg/ml is sufficient to impair phage activity. In contrast, dissolution of the clots by tissue plasminogen activator (tPA) partially restored phage activity. Consistent with these in vitro findings, phage treatment did not reduce bacterial burdens in a neutropenic mouse S. aureus thigh infection model. In summary, phage treatment of S. aureus infections inside the body may be fundamentally challenging, and more investigation is needed prior to proceeding to in-human trials.

Published
2023
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