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1. Laser-written waveguide-integrated coherent spins in diamond

Author

Guo, Yanzhao, Hadden, John P., Gorrini, Federico, Coccia, Giulio, Bharadwaj, Vibhav, Kavatamane, Vinaya Kumar, Alam, Mohammad Sahnawaz, Ramponi, Roberta, Barclay, Paul E., Chiappini, Andrea, Ferrari, Maurizio, Kubanek, Alexander, Bifone, Angelo, Eaton, Shane M., and Bennett, Anthony J.

Subjects
Quantum Physics
Abstract

Quantum emitters, such as the negatively charged nitrogen-vacancy center in diamond, are attractive for quantum technologies such as nano-sensing, quantum information processing, and as a non-classical light source. However, it is still challenging to position individual emitters in photonic structures whilst preserving the spin coherence properties of the defect. In this paper, we investigate single and ensemble waveguide-integrated nitrogen-vacancy centers in diamond fabricated by femtosecond laser writing followed by thermal annealing. Their spin coherence properties are systematically investigated and are shown to be comparable to native nitrogen-vacancy centers in diamond. This method paves the way for the fabrication of coherent spins integrated within photonic devices., Comment: 9 pages, 5 figures

Published
2024
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2. Determining Strain Components in a Diamond Waveguide from Zero-Field ODMR Spectra of NV$^{-}$ Center Ensembles

Author

Alam, M. Sahnawaz, Gorrini, Federico, Gawełczyk, Michał, Wigger, Daniel, Coccia, Giulio, Guo, Yanzhao, Shahbazi, Sajedeh, Bharadwaj, Vibhav, Kubanek, Alexander, Ramponi, Roberta, Barclay, Paul E., Bennett, Anthony J., Hadden, John P., Bifone, Angelo, Eaton, Shane M., and Machnikowski, Paweł

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

The negatively charged nitrogen-vacancy (NV$^{-}$) center in diamond has shown great potential in nanoscale sensing and quantum information processing due to its rich spin physics. An efficient coupling with light, providing strong luminescence, is crucial for realizing these applications. Laser-written waveguides in diamond promote NV$^{-}$ creation and improve their coupling to light but, at the same time, induce strain in the crystal. The induced strain contributes to light guiding but also affects the energy levels of NV$^{-}$ centers. We probe NV$^{-}$ spin states experimentally with the commonly used continuous-wave zero-field optically detected magnetic resonance (ODMR). In our waveguides, the ODMR spectra are shifted, split, and consistently asymmetric, which we attribute to the impact of local strain. To understand these features, we model ensemble ODMR signals in the presence of strain. By fitting the model results to the experimentally collected ODMR data, we determine the strain tensor components at different positions, thus determining the strain profile across the waveguide. This shows that zero-field ODMR spectroscopy can be used as a strain imaging tool. The resulting strain within the waveguide is dominated by a compressive axial component transverse to the waveguide structure, with a smaller contribution from vertical and shear strain components., Comment: 12 pages, 7 figures + Supplementary Information (6 pages, 3 figures)

Published
2024

3. Divergent effects of laser irradiation on ensembles of nitrogen-vacancy centers in bulk and nano-diamonds: implications for biosensing

Author

Olivares-Postigo, Domingo, Gorrini, Federico, Bitonto, Valeria, Ackermann, Johannes, Giri, Rakshyakar, Krueger, Anke, and Bifone, Angelo

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Ensembles of negatively charged nitrogen vacancy centers (NV-) in diamond have been proposed for sensing of magnetic fields and paramagnetic agents, and as a source of spin-order for the hyperpolarization of nuclei in magnetic resonance applications. To this end, strongly fluorescent nanodiamonds represent promising materials, with large surface areas and dense ensembles of NV-. However, surface effects tend to favor the less useful neutral form, the NV0 centers. Here, we study the fluorescence properties and optically detected magnetic resonance (ODMR) of NV- centers as a function of laser power in strongly fluorescent bulk diamond and in nanodiamonds obtained by nanomilling the native material. In bulk diamond, we find that increasing laser power increases ODMR contrast, consistent with a power-dependent increase in spin-polarization. Surprisingly, in nanodiamonds we observe a non-monotonic behavior, with a decrease in ODMR contrast at higher laser power that can be ascribed to more efficient NV- -> NV0 photoconversion in nanodiamonds compared to bulk diamond, resulting in depletion of the NV- pool. We also studied this phenomenon in cell cultures following internalization of NDs in macrophages. Our findings show that surface effects in nanodiamonds substantially affect the NV properties and provide indications for the adjustment of experimental parameters.

Published
2021
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5. Photoconversion of shallow nitrogen-vacancy centers in flat and nanostructured diamond under high-power laser irradiation

Author

Gorrini, Federico, Dorigoni, Carla, Olivares-Postigo, Domingo, Giri, Rakshyakar, Aprà, Pietro, Picollo, Federico, and Bifone, Angelo

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics
Abstract

Shallow, negatively-charged Nitrogen-Vacancy centers (NV-) in diamond have been proposed for high-sensitivity magnetometry and spin-polarization transfer applications. However, surface effects tend to favor and stabilize the less useful neutral form, the NV0 centers. Here, we report the effects of green laser irradiation on ensembles of nanometer-shallow NV centers in flat and nanostructured diamond surfaces as a function of laser power in a range not previously explored (up to 150 mW/{\mu}m2). Raman spectroscopy, optically-detected-magnetic-resonance (ODMR) and charge-photoconversion fluorescence detection are applied to characterize the properties and dynamics of NV- and NV0 centers. We demonstrate that high laser power strongly promotes photoconversion of NV0 to NV- centers. Surprisingly, the excess NV- population is stable over a time scale of one hundred milliseconds after switching off the laser, resulting in long-lived enrichment of shallow NV-. The beneficial effect of photoconversion is less marked in nanostructured samples. Our results are important to inform the design of samples and experimental procedures for applications relying on ensembles of shallow NV- centers in diamond., Comment: 24 pages, 8 figures

Published
2021

6. Thermodynamics of network model fitting with spectral entropies

Author

Nicolini, Carlo, Vlasov, Vladimir, and Bifone, Angelo

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Disordered Systems and Neural Networks
Abstract

An information theoretic approach inspired by quantum statistical mechanics was recently proposed as a means to optimize network models and to assess their likelihood against synthetic and real-world networks. Importantly, this method does not rely on specific topological features or network descriptors, but leverages entropy-based measures of network distance. Entertaining the analogy with thermodynamics, we provide a physical interpretation of model hyperparameters and propose analytical procedures for their estimate. These results enable the practical application of this novel and powerful framework to network model inference. We demonstrate this method in synthetic networks endowed with a modular structure, and in real-world brain connectivity networks., Comment: 11 pages, 3 figures

Published
2018
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8. Graph analysis and modularity of brain functional connectivity networks: searching for the optimal threshold

Author

Bordier, Cécile, Nicolini, Carlo, and Bifone, Angelo

Subjects
Quantitative Biology - Neurons and Cognition, Physics - Data Analysis, Statistics and Probability, Physics - Physics and Society
Abstract

Neuroimaging data can be represented as networks of nodes and edges that capture the topological organization of the brain connectivity. Graph theory provides a general and powerful framework to study these networks and their structure at various scales. By way of example, community detection methods have been widely applied to investigate the modular structure of many natural networks, including brain functional connectivity networks. Sparsification procedures are often applied to remove the weakest edges, which are the most affected by experimental noise, and to reduce the density of the graph, thus making it theoretically and computationally more tractable. However, weak links may also contain significant structural information, and procedures to identify the optimal tradeoff are the subject of active research. Here, we explore the use of percolation analysis, a method grounded in statistical physics, to identify the optimal sparsification threshold for community detection in brain connectivity networks. By using synthetic networks endowed with a ground-truth modular structure and realistic topological features typical of human brain functional connectivity networks, we show that percolation analysis can be applied to identify the optimal sparsification threshold that maximizes information on the networks' community structure. We validate this approach using three different community detection methods widely applied to the analysis of brain connectivity networks: Newman's modularity, InfoMap and Asymptotical Surprise. Importantly, we test the effects of noise and data variability, which are critical factors to determine the optimal threshold. This data-driven method should prove particularly useful in the analysis of the community structure of brain networks in populations characterized by different connectivity strengths, such as patients and controls., Comment: 15 pages, 7 figures

Published
2017

10. Hub induced remote synchronization and desynchronization in complex networks of Kuramoto oscillators

Author

Vlasov, Vladimir and Bifone, Angelo

Subjects
Nonlinear Sciences - Adaptation and Self-Organizing Systems
Abstract

The concept of "remote synchronization" (RS) was introduced in [Phys. Rev. E 85, 026208 (2012)], where synchronization in a star network of Stuart-Landau oscillators was investigated. In the RS regime therein described, the central hub served as a transmitter of information between peripheral nodes, while maintaining independent dynamics that were asynchronous with the rest of the network. One of the key conclusions of that paper was that RS cannot occur in pure phase-oscillator networks. Here, we show that the RS regime can exist in networks of Kuramoto oscillators, and that hub nodes can actively drive remote synchronization even in the presence of a repulsive mean field. We apply this model to study the synchronization dynamics in complex networks endowed with hub-nodes, an ubiquitous feature of many natural networks. We show that a change in the natural frequency of a hub can alone reshape synchronization patterns, and switch from direct to remote synchronization, or to hub-driven desynchronization. We discuss the potential role of this phenomenon in real-world networks, including the Karate-club and brain connectivity networks.

Published
2016

11. Community detection in weighted brain connectivity networks beyond the resolution limit

Author

Nicolini, Carlo, Bordier, Cécile, and Bifone, Angelo

Subjects
Quantitative Biology - Neurons and Cognition, Physics - Physics and Society, Quantitative Biology - Quantitative Methods
Abstract

Graph theory provides a powerful framework to investigate brain functional connectivity networks and their modular organization. However, most graph-based methods suffer from a fundamental resolution limit that may have affected previous studies and prevented detection of modules, or communities, that are smaller than a specific scale. Surprise, a resolution-limit-free function rooted in discrete probability theory, has been recently introduced and applied to brain networks, revealing a wide size-distribution of functional modules, in contrast with many previous reports. However, the use of Surprise is limited to binary networks, while brain networks are intrinsically weighted, reflecting a continuous distribution of connectivity strengths between different brain regions. Here, we propose Asymptotical Surprise, a continuous version of Surprise, for the study of weighted brain connectivity networks, and validate this approach in synthetic networks endowed with a ground-truth modular structure. We compare Asymptotical Surprise with leading community detection methods currently in use and show its superior sensitivity in the detection of small modules even in the presence of noise and intersubject variability such as those observed in fMRI data. Finally, we apply our novel approach to functional connectivity networks from resting state fMRI experimenta, and demonstrate a heterogeneous modular organization, with a wide distribution of clusters spanning multiple scales., Comment: 27 pages with 6 figures and 1 table. Conference version for CCS2016

Published
2016

12. Hierarchical organization of functional connectivity in the mouse brain: a complex network approach

Author

Bardella, Giampiero, Bifone, Angelo, Gabrielli, Andrea, Gozzi, Alessandro, and Squartini, Tiziano

Subjects
Quantitative Biology - Neurons and Cognition, Physics - Data Analysis, Statistics and Probability
Abstract

This paper represents a contribution to the study of the brain functional connectivity from the perspective of complex networks theory. More specifically, we apply graph theoretical analyses to provide evidence of the modular structure of the mouse brain and to shed light on its hierarchical organization. We propose a novel percolation analysis and we apply our approach to the analysis of a resting-state functional MRI data set from 41 mice. This approach reveals a robust hierarchical structure of modules persistent across different subjects. Importantly, we test this approach against a statistical benchmark (or null model) which constrains only the distributions of empirical correlations. Our results unambiguously show that the hierarchical character of the mouse brain modular structure is not trivially encoded into this lower-order constraint. Finally, we investigate the modular structure of the mouse brain by computing the Minimal Spanning Forest, a technique that identifies subnetworks characterized by the strongest internal correlations. This approach represents a faster alternative to other community detection methods and provides a means to rank modules on the basis of the strength of their internal edges., Comment: 11 pages, 9 figures

Published
2016
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13. The Brain–Gut Axis, an Important Player in Alzheimer and Parkinson Disease: A Narrative Review.

Author

Caradonna, Eugenio, Nemni, Raffaello, Bifone, Angelo, Gandolfo, Patrizia, Costantino, Lucy, Giordano, Luca, Mormone, Elisabetta, Macula, Anna, Cuomo, Mariarosa, Difruscolo, Rossana, Vanoli, Camilla, Vanoli, Emilio, and Ferrara, Fulvio

Subjects
ALZHEIMER'S disease, TAU proteins, GENE expression, DISEASE progression, PARKINSON'S disease
Abstract

Neurodegenerative diseases, such as Alzheimer's disease (AD) and Parkinson's disease (PD), are severe age-related disorders with complex and multifactorial causes. Recent research suggests a critical link between neurodegeneration and the gut microbiome, via the gut–brain communication pathway. This review examines the role of trimethylamine N-oxide (TMAO), a gut microbiota-derived metabolite, in the development of AD and PD, and investigates its interaction with microRNAs (miRNAs) along this bidirectional pathway. TMAO, which is produced from dietary metabolites like choline and carnitine, has been linked to increased neuroinflammation, protein misfolding, and cognitive decline. In AD, elevated TMAO levels are associated with amyloid-beta and tau pathologies, blood–brain barrier disruption, and neuronal death. TMAO can cross the blood–brain barrier and promote the aggregation of amyloid and tau proteins. Similarly, TMAO affects alpha-synuclein conformation and aggregation, a hallmark of PD. TMAO also activates pro-inflammatory pathways such as NF-kB signaling, exacerbating neuroinflammation further. Moreover, TMAO modulates the expression of various miRNAs that are involved in neurodegenerative processes. Thus, the gut microbiome–miRNA–brain axis represents a newly discovered mechanistic link between gut dysbiosis and neurodegeneration. MiRNAs regulate the key pathways involved in neuroinflammation, oxidative stress, and neuronal death, contributing to disease progression. As a direct consequence, specific miRNA signatures may serve as potential biomarkers for the early detection and monitoring of AD and PD progression. This review aims to elucidate the complex interrelationships between the gut microbiota, trimethylamine-N-oxide (TMAO), microRNAs (miRNAs), and the central nervous system, and the implications of these connections in neurodegenerative diseases. In this context, an overview of the current neuroradiology techniques available for studying neuroinflammation and of the animal models used to investigate these intricate pathologies will also be provided. In summary, a bulk of evidence supports the concept that modulating the gut–brain communication pathway through dietary changes, the manipulation of the microbiome, and/or miRNA-based therapies may offer novel approaches for implementing the treatment of debilitating neurological disorders. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Long-access heroin self-administration induces region specific reduction of grey matter volume and microglia reactivity in the rat

Author

Cannella, Nazzareno, primary, Tambalo, Stefano, additional, Lunerti, Veronica, additional, Scuppa, Giulia, additional, de Vivo, Luisa, additional, Abdulmalek, Sarah, additional, Kinen, Analia, additional, Mackle, James, additional, Kuhn, Brittany, additional, Solberg Woods, Leah C., additional, Chung, Dongjun, additional, Kalivas, Peter, additional, Soverchia, Laura, additional, Ubaldi, Massimo, additional, Hardiman, Gary, additional, Bifone, Angelo, additional, and Ciccocioppo, Roberto, additional

Published
2024
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17. Community structure and modularity in networks of correlated brain activity

Author

Schwarz, Adam J., Gozzi, Alessandro, and Bifone, Angelo

Subjects
Quantitative Biology - Neurons and Cognition
Abstract

We present an approach to study functional segregation and integration in the living brain based on community structure decomposition determined by maximum modularity. We demonstrate this method with a network derived from functional imaging data with nodes defined by individual image pixels, and edges in terms of correlated signal changes. We found communities whose anatomical distributions correspond to biologically meaningful structures and include compelling functional subdivisions between anatomically equivalent brain regions., Comment: 10 pages, 2 figs [v2:] arXiv identifier added explicitly in header (not automatically tagged to original PDF upload)

Published
2007

19. The role of cytoskeleton networks on lipid-mediated delivery of DNA

Author

Coppola, Stefano, Cardarelli, Francesco, Pozzi, Daniela, Estrada, Laura C, Digman, Michelle A, Gratton, Enrico, Bifone, Angelo, Marianecci, Carlotta, and Caracciolo, Giulio

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Genetics, Gene Therapy, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Actins, Animals, Biological Transport, Active, Bridged Bicyclo Compounds, Heterocyclic, CHO Cells, Cations, Cricetinae, Cricetulus, Cytoplasm, Cytoskeleton, DNA, Lipids, Liposomes, Microscopy, Confocal, Microtubules, Nocodazole, Thiazolidines, Transfection, Biomedical Engineering, Pharmacology and Pharmaceutical Sciences, Medical biotechnology, Pharmacology and pharmaceutical sciences
Abstract

BackgroundLipid-mediated delivery of DNA is hindered by extracellular and intracellular barriers that significantly reduce the transfection efficiency of synthetic nonviral vectors.ResultsIn this study we investigated the role of the actin and microtubule networks on the uptake and cytoplasmic transport of multicomponent cationic liposome-DNA complexes in CHO-K1 live cells by means of confocal laser scanning microscopy and 3D single particle tracking. Treatment with actin (latrunculin B)- and microtubule-disrupting (nocodazole) reagents indicated that intracellular trafficking of complexes predominantly involves microtubule-dependent active transport. We found that the actin network has a major effect on the initial uptake of complexes, while the microtubule network is mainly responsible for the subsequent active transportation to the lysosomes.ConclusionCollectively, a strategy to improve the efficiency of lipid gene vectors can be formulated. We could find a lipid formulation that allows the nanoparticles to avoid the microtubule pathway to lysosomes.

Published
2013

21. Amplifying the Effects of Contrast Agents on Magnetic Resonance Images Using a Deep Learning Method Trained on Synthetic Data

Author

Fringuello Mingo, Alberto, primary, Colombo Serra, Sonia, additional, Macula, Anna, additional, Bella, Davide, additional, La Cava, Francesca, additional, Alì, Marco, additional, Papa, Sergio, additional, Tedoldi, Fabio, additional, Smits, Marion, additional, Bifone, Angelo, additional, and Valbusa, Giovanni, additional

Published
2023
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28. Amplifying the Effects of Contrast Agents on Magnetic Resonance Images Using a Deep Learning Method Trained on Synthetic Data

Author

Fringuello Mingo, Alberto, Colombo Serra, Sonia, Macula, Anna, Bella, Davide, La Cava, Francesca, Alì, Marco, Papa, Sergio, Tedoldi, Fabio, Smits, Marion, Bifone, Angelo, Valbusa, Giovanni, Fringuello Mingo, Alberto, Colombo Serra, Sonia, Macula, Anna, Bella, Davide, La Cava, Francesca, Alì, Marco, Papa, Sergio, Tedoldi, Fabio, Smits, Marion, Bifone, Angelo, and Valbusa, Giovanni

Abstract

OBJECTIVES: Artificial intelligence (AI) methods can be applied to enhance contrast in diagnostic images beyond that attainable with the standard doses of contrast agents (CAs) normally used in the clinic, thus potentially increasing diagnostic power and sensitivity. Deep learning-based AI relies on training data sets, which should be sufficiently large and diverse to effectively adjust network parameters, avoid biases, and enable generalization of the outcome. However, large sets of diagnostic images acquired at doses of CA outside the standard-of-care are not commonly available. Here, we propose a method to generate synthetic data sets to train an "AI agent" designed to amplify the effects of CAs in magnetic resonance (MR) images. The method was fine-tuned and validated in a preclinical study in a murine model of brain glioma, and extended to a large, retrospective clinical human data set. MATERIALS AND METHODS: A physical model was applied to simulate different levels of MR contrast from a gadolinium-based CA. The simulated data were used to train a neural network that predicts image contrast at higher doses. A preclinical MR study at multiple CA doses in a rat model of glioma was performed to tune model parameters and to assess fidelity of the virtual contrast images against ground-truth MR and histological data. Two different scanners (3 T and 7 T, respectively) were used to assess the effects of field strength. The approach was then applied to a retrospective clinical study comprising 1990 examinations in patients affected by a variety of brain diseases, including glioma, multiple sclerosis, and metastatic cancer. Images were evaluated in terms of contrast-to-noise ratio and lesion-to-brain ratio, and qualitative scores. RESULTS: In the preclinical study, virtual double-dose images showed high degrees of similarity to experimental double-dose images for both peak signal-to-noise ratio and structural similarity index (29.49 dB and 0.914 dB at 7 T, respective

Published
2023

36. Supplementary Information for Increased network centrality of the anterior insula in early abstinence from alcohol

Author

Bordier, Cecile, Weil, Georg, Bach, Patrick, Scuppa, Giulia, Nicolini, Carlo, Forcellini, Giulia, Pérez-Ramírez, Úrsula, Moratal, David, Canals, Santiago, Hoffmann, Sabine, Hermann, Derik, Vollstädt‐Klein, Sabine, Kiefer, Falk, Kirsch, Peter, Sommer, Wolfgang H., Bifone, Angelo, Bordier, Cecile, Weil, Georg, Bach, Patrick, Scuppa, Giulia, Nicolini, Carlo, Forcellini, Giulia, Pérez-Ramírez, Úrsula, Moratal, David, Canals, Santiago, Hoffmann, Sabine, Hermann, Derik, Vollstädt‐Klein, Sabine, Kiefer, Falk, Kirsch, Peter, Sommer, Wolfgang H., and Bifone, Angelo

Published
2022

37. From a systems view to spotting a hidden island: A narrative review implicating insula function in alcoholism

Author

European Commission, Federal Ministry of Education and Research (Germany), Academy of Finland, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Generalitat Valenciana, Ministerio de Ciencia e Innovación (España), Sommer, Wolfgang H., Canals, Santiago, Bifone, Angelo, Heilig, Markus, Hyytiä, Petri, European Commission, Federal Ministry of Education and Research (Germany), Academy of Finland, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Generalitat Valenciana, Ministerio de Ciencia e Innovación (España), Sommer, Wolfgang H., Canals, Santiago, Bifone, Angelo, Heilig, Markus, and Hyytiä, Petri

Abstract

Excessive use of alcohol promotes the development of alcohol addiction, but the understanding of how alcohol-induced brain alterations lead to addiction remains limited. To further this understanding, we adopted an unbiased discovery strategy based on the principles of systems medicine. We used functional magnetic resonance imaging data from patients and animal models of alcohol addiction-like behaviors, and developed mathematical models of the ‘relapse-prone’ network states to identify brain sites and functional networks that can be selectively targeted by therapeutic interventions. Our systems level, non-local, and largely unbiased analyses converged on a few well-defined brain regions, with the insula emerging as one of the most consistent findings across studies. In proof-of-concept experiments we were able to demonstrate that it is possible to guide network dynamics towards increased resilience in animals but an initial translation into a clinical trial targeting the insula failed. Here, in a narrative review, we summarize the key experiments, methodological developments and knowledge gained from this complete round of a discovery cycle moving from identification of ‘relapse-prone’ network states in humans and animals to target validation and intervention trial. Future concerted efforts are necessary to gain a deeper understanding of insula function a in a state-dependent, circuit-specific and cell population perspective, and to develop the means for insula-directed interventions, before therapeutic targeting of this structure may become possible.

Published
2022

38. Increased network centrality of the anterior insula in early abstinence from alcohol

Author

Istituto Italiano di Tecnologia, European Commission, Conferencia de Rectores de las Universidades Españolas, German Research Foundation, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Economía y Competitividad (España), Bordier, Cecile, Weil, Georg, Bach, Patrick, Scuppa, Giulia, Nicolini, Carlo, Forcellini, Giulia, Pérez-Ramírez, Úrsula, Moratal, David, Canals, Santiago, Hoffmann, Sabine, Hermann, Derik, Vollstädt‐Klein, Sabine, Kiefer, Falk, Kirsch, Peter, Sommer, Wolfgang H., Bifone, Angelo, Istituto Italiano di Tecnologia, European Commission, Conferencia de Rectores de las Universidades Españolas, German Research Foundation, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Economía y Competitividad (España), Bordier, Cecile, Weil, Georg, Bach, Patrick, Scuppa, Giulia, Nicolini, Carlo, Forcellini, Giulia, Pérez-Ramírez, Úrsula, Moratal, David, Canals, Santiago, Hoffmann, Sabine, Hermann, Derik, Vollstädt‐Klein, Sabine, Kiefer, Falk, Kirsch, Peter, Sommer, Wolfgang H., and Bifone, Angelo

Abstract

Abnormal resting-state functional connectivity, as measured by functional magnetic resonance imaging (MRI), has been reported in alcohol use disorders (AUD), but findings are so far inconsistent. Here, we exploited recent developments in graph-theoretical analyses, enabling improved resolution and fine-grained representation of brain networks, to investigate functional connectivity in 35 recently detoxified alcohol dependent patients versus 34 healthy controls. Specifically, we focused on the modular organization, that is, the presence of tightly connected substructures within a network, and on the identification of brain regions responsible for network integration using an unbiased approach based on a large-scale network composed of more than 600 a priori defined nodes. We found significant reductions in global connectivity and region-specific disruption in the network topology in patients compared with controls. Specifically, the basal brain and the insular-supramarginal cortices, which form tightly coupled modules in healthy subjects, were fragmented in patients. Further, patients showed a strong increase in the centrality of the anterior insula, which exhibited stronger connectivity to distal cortical regions and weaker connectivity to the posterior insula. Anterior insula centrality, a measure of the integrative role of a region, was significantly associated with increased risk of relapse. Exploratory analysis suggests partial recovery of modular structure and insular connectivity in patients after 2 weeks. These findings support the hypothesis that, at least during the early stages of abstinence, the anterior insula may drive exaggerated integration of interoceptive states in AUD patients with possible consequences for decision making and emotional states and that functional connectivity is dynamically changing during treatment.

Published
2022

44. Dominant β-catenin mutations cause intellectual disability with recognizable syndromic features

Author

Tucci, Valter, Kleefstra, Tjitske, Hardy, Andrea, Heise, Ines, Maggi, Silvia, Willemsen, Marjolein H., Hilton, Helen, Esapa, Chris, Simon, Michelle, Beunavista, Maria-Teresa, McGuffin, Liam J., Vizor, Lucie, Dodero, Luca, Tsaftaris, Sotirios, Romero, Rosario, Nillesen, Willy N., Vissers, Lisenka E.L.M., Kempers, Marlies J., Vulto-van Silfhout, Anneke T., Iqbal, Zafar, Orlando, Marta, Maccione, Alessandro, Lassi, Glenda, Farisello, Pasqualina, Contestabile, Andrea, Tinarelli, Federico, Nieus, Thierry, Raimondi, Andrea, Greco, Barbara, Cantatore, Daniela, Gasparini, Laura, Berdondini, Luca, Bifone, Angelo, Gozzi, Alessandro, Wells, Sara, and Nolan, Patrick M.

Subjects
Gene mutations -- Research, Cadherins -- Genetic aspects -- Research, Mental retardation -- Genetic aspects -- Causes of -- Research, Health care industry
Abstract

The recent identification of multiple dominant mutations in the gene encoding β-catenin in both humans and mice has enabled exploration of the molecular and cellular basis of β-catenin function in cognitive impairment. In humans, β-catenin mutations that cause a spectrum of neurodevelopmental disorders have been identified. We identified de novo β-catenin mutations in patients with intellectual disability, carefully characterized their phenotypes, and were able to define a recognizable intellectual disability syndrome. In parallel, characterization of a chemically mutagenized mouse line that displays features similar to those of human patients with β-catenin mutations enabled us to investigate the consequences of β-catenin dysfunction through development and into adulthood. The mouse mutant, designated batface (Bfc), carries a Thr653Lys substitution in the C-terminal armadillo repeat of β-catenin and displayed a reduced affinity for membrane-associated cadherins. In association with this decreased cadherin interaction, we found that the mutation results in decreased intrahemispheric connections, with deficits in dendritic branching, long-term potentiation, and cognitive function. Our study provides in vivo evidence that dominant mutations in β-catenin underlie losses in its adhesion-related functions, which leads to severe consequences, including intellectual disability, childhood hypotonia, progressive spasticity of lower limbs, and abnormal craniofacial features in adults., Introduction β-Catenin (CTNNB1) is a highly conserved protein that implements key cellular functions by interacting with cell-adhesion proteins, signaling molecules, and transcription factors (1). The characteristic structural feature of the [...]

Published
2014
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46. Cover Image

Author

Bordier, Cecile, primary, Weil, Georg, additional, Bach, Patrick, additional, Scuppa, Giulia, additional, Nicolini, Carlo, additional, Forcellini, Giulia, additional, Pérez‐Ramirez, Ursula, additional, Moratal, David, additional, Canals, Santiago, additional, Hoffmann, Sabine, additional, Hermann, Derik, additional, Vollstädt‐Klein, Sabine, additional, Kiefer, Falk, additional, Kirsch, Peter, additional, Sommer, Wolfgang H., additional, and Bifone, Angelo, additional

Published
2021
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50. Increased network centrality of the anterior insula in early abstinence from alcohol

Author

Bordier, Cecile, primary, Weil, Georg, additional, Bach, Patrick, additional, Scuppa, Giulia, additional, Nicolini, Carlo, additional, Forcellini, Giulia, additional, Pérez‐Ramirez, Ursula, additional, Moratal, David, additional, Canals, Santiago, additional, Hoffmann, Sabine, additional, Hermann, Derik, additional, Vollstädt‐Klein, Sabine, additional, Kiefer, Falk, additional, Kirsch, Peter, additional, Sommer, Wolfgang H., additional, and Bifone, Angelo, additional

Published
2021
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