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1. Urban context and delivery performance: Modelling service time for cargo bikes and vans across diverse urban environments

Author

Schrader, Maxwell, Kumar, Navish, Sørig, Esben, Yoon, Soonmyeong, Srivastava, Akash, Xu, Kai, Astefanoaei, Maria, and Collignon, Nicolas

Subjects
Computer Science - Computers and Society, Computer Science - Machine Learning
Abstract

Light goods vehicles (LGV) used extensively in the last mile of delivery are one of the leading polluters in cities. Cargo-bike logistics and Light Electric Vehicles (LEVs) have been put forward as a high impact candidate for replacing LGVs. Studies have estimated over half of urban van deliveries being replaceable by cargo-bikes, due to their faster speeds, shorter parking times and more efficient routes across cities. However, the logistics sector suffers from a lack of publicly available data, particularly pertaining to cargo-bike deliveries, thus limiting the understanding of their potential benefits. Specifically, service time (which includes cruising for parking, and walking to destination) is a major, but often overlooked component of delivery time modelling. The aim of this study is to establish a framework for measuring the performance of delivery vehicles, with an initial focus on modelling service times of vans and cargo-bikes across diverse urban environments. We introduce two datasets that allow for in-depth analysis and modelling of service times of cargo bikes and use existing datasets to reason about differences in delivery performance across vehicle types. We introduce a modelling framework to predict the service times of deliveries based on urban context. We employ Uber's H3 index to divide cities into hexagonal cells and aggregate OpenStreetMap tags for each cell, providing a detailed assessment of urban context. Leveraging this spatial grid, we use GeoVex to represent micro-regions as points in a continuous vector space, which then serve as input for predicting vehicle service times. We show that geospatial embeddings can effectively capture urban contexts and facilitate generalizations to new contexts and cities. Our methodology addresses the challenge of limited comparative data available for different vehicle types within the same urban settings., Comment: 37 pages in submission to the Springer Journal of Urban Informatics. arXiv admin note: text overlap with arXiv:2007.06277 by other authors

Published
2024

2. Band structure engineering using a moir\'e polar substrate

Author

Wang, Xirui, Xu, Cheng, Aronson, Samuel, Bennett, Daniel, Paul, Nisarga, Crowley, Philip J. D., Collignon, Clément, Watanabe, Kenji, Taniguchi, Takashi, Ashoori, Raymond, Kaxiras, Efthimios, Zhang, Yang, Jarillo-Herrero, Pablo, and Yasuda, Kenji

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Applying long wavelength periodic potentials on quantum materials has recently been demonstrated to be a promising pathway for engineering novel quantum phases of matter. Here, we utilize twisted bilayer boron nitride (BN) as a moir\'e substrate for band structure engineering. Small-angle-twisted bilayer BN is endowed with periodically arranged up and down polar domains, which imprints a periodic electrostatic potential on a target two-dimensional (2D) material placed on top. As a proof of concept, we use Bernal bilayer graphene as the target material. The resulting modulation of the band structure appears as superlattice resistance peaks, tunable by varying the twist angle, and Hofstadter butterfly physics under a magnetic field. Additionally, we demonstrate the tunability of the moir\'e potential by altering the dielectric thickness underneath the twisted BN. Finally, we find that near-60{\deg}-twisted bilayer BN provides a unique platform for studying the moir\'e structural effect without the contribution from electrostatic moir\'e potentials. Tunable moir\'e polar substrates may serve as versatile platforms to engineer the electronic, optical, and mechanical properties of 2D materials and van der Waals heterostructures., Comment: 21 pages, 11 figures

Published
2024

4. Electoral Accountability for Rising Tuition in the US: Evidence from a Survey Experiment and Observational Data

Author

Zhamilya Mukasheva, Sofia Collignon, and Ursula Hackett

Abstract

Tuition levels in the US have been rising at an above-the-inflation pace, leading to spiraling student debt levels and negative effects on students' well-being. While student outcomes of rising tuition are well known, the political reasons behind the decisions of policy makers to contain tuition increases or not remain poorly understood. In this article, we focus on electoral accountability that policy makers face for rising tuition by examining voters' reactions. Using a survey experiment with a sample of US adults (N = 1040), we show that clarity of responsibility is an important factor affecting reactions to rising tuition levels. When voters are informed about the role of the government in tuition setting, they are more likely to vote out policy makers responsible for cuts in funding. We show a similar relationship in observational data using a nationally representative survey from Cooperative Congressional Election Study. State governors' approval is lower in states where tuition levels increased recently, and the relationship is moderated by the visibility of government in tuition-setting. By demonstrating that policy makers face repercussions for rising tuition but are able to avoid blame in certain conditions, we contribute to scholarly understanding of preferences of policy makers in higher education.

Published
2024
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6. Real-Life Study on the Efficacy and Tolerance of a Preservative-Free Surfactant-Free Latanoprost Eye Drop in Patients with Glaucoma

Author

Laure Chauchat, Camille Guerin, Hayette Rebika, Marwan Sahyoun, and Nathalie Collignon

Subjects
Adherence, Efficacy, Glaucoma, Intraocular pressure, Latanoprost, Preservative-free, Ophthalmology, RE1-994
Abstract

Abstract Introduction The purpose of this study is to assess the real-life efficacy and tolerance of a new preservative-free, surfactant-free latanoprost (PFSF-LAT) formulation. Methods Retrospective, multicentre, non-comparative, observational study in patients with ocular hypertension or open angle glaucoma, naïve or non-naïve to previous intraocular pressure (IOP)-lowering treatment, and treated for at least 3 months with the study eye drop. IOP for worse eye, ocular signs and symptoms, and concomitant use of artificial tears were collected at study drug initiation and at last visit under treatment. Reasons for discontinuing the study eye drop (if relevant) and investigators’ satisfaction were also assessed. Results In the per protocol population (103 eyes; 63 naïve, 39 switched, 1 not classified because of missing data), IOP decreased significantly (p

Published
2024
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7. Modelling the performance of delivery vehicles across urban micro-regions to accelerate the transition to cargo-bike logistics

Author

Schrader, Max, Kumar, Navish, Collignon, Nicolas, Sørig, Esben, Yoon, Soonmyeong, Srivastava, Akash, Xu, Kai, and Astefanoaei, Maria

Subjects
Computer Science - Machine Learning
Abstract

Light goods vehicles (LGV) used extensively in the last mile of delivery are one of the leading polluters in cities. Cargo-bike logistics has been put forward as a high impact candidate for replacing LGVs, with experts estimating over half of urban van deliveries being replaceable by cargo bikes, due to their faster speeds, shorter parking times and more efficient routes across cities. By modelling the relative delivery performance of different vehicle types across urban micro-regions, machine learning can help operators evaluate the business and environmental impact of adding cargo-bikes to their fleets. In this paper, we introduce two datasets, and present initial progress in modelling urban delivery service time (e.g. cruising for parking, unloading, walking). Using Uber's H3 index to divide the cities into hexagonal cells, and aggregating OpenStreetMap tags for each cell, we show that urban context is a critical predictor of delivery performance.

Published
2023

9. An electronic band sculpted by oxygen vacancies and indispensable for dilute superconductivity

Author

Fauqué, Benoît, Collignon, Clément, Yoon, Hyeok, Ravi, Lin, Xiao, Mazin, Igor, Hwang, Harold Y., and Behnia, Kamran

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Dilute superconductivity survives in bulk strontium titanate when the Fermi temperature falls well below the Debye temperature. Here, we show that the onset of the superconducting dome is dopant-dependent. When mobile electrons are introduced by removing oxygen atoms, the superconducting transition survives down to $2 \times 10^{17}$ cm$^{-3}$, but when they are brought by substituting Nb with Ti, the threshold density for superconductivity is an order of magnitude higher. Our study of quantum oscillations reveals a significant difference in the band dispersion between the dilute metals made by these doping routes and our band calculations demonstrate that the rigid band approximation does not hold when mobile electrons are introduced by oxygen vacancies. We identify the band sculpted by theses vacancies as the exclusive locus of superconducting instability in the ultra-dilute limit., Comment: 10 pages (including the supplement), 9 figures

Published
2022

11. Sex, hormones and cerebrovascular function: from development to disorder

Author

Adeline Collignon, Laurence Dion-Albert, Caroline Ménard, and Vanessa Coelho-Santos

Subjects
Autism spectrum disorder, Attention-deficit/hyperactivity disorder, Neurovascular development, Neurovascular unit, Neurodevelopmental disorders, Gonadal hormones, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Proper cerebrovascular development and neurogliovascular unit assembly are essential for brain growth and function throughout life, ensuring the continuous supply of nutrients and oxygen. This involves crucial events during pre- and postnatal stages through key pathways, including vascular endothelial growth factor (VEGF) and Wnt signaling. These pathways are pivotal for brain vascular growth, expansion, and blood–brain barrier (BBB) maturation. Interestingly, during fetal and neonatal life, cerebrovascular formation coincides with the early peak activity of the hypothalamic-pituitary-gonadal axis, supporting the idea of sex hormonal influence on cerebrovascular development and barriergenesis. Sex hormonal dysregulation in early development has been implicated in neurodevelopmental disorders with highly sexually dimorphic features, such as autism spectrum disorder (ASD) and attention-deficit/hyperactivity disorder (ADHD). Both disorders show higher prevalence in men, with varying symptoms between sexes, with boys exhibiting more externalizing behaviors, such as aggressivity or hyperactivity, and girls displaying higher internalizing behaviors, including anxiety, depression, or attention disorders. Indeed, ASD and ADHD are linked to high prenatal testosterone exposure and reduced aromatase expression, potentially explaining sex differences in prevalence and symptomatology. In line with this, high estrogen levels seem to attenuate ADHD symptoms. At the cerebrovascular level, sex- and region-specific variations of cerebral blood flow perfusion have been reported in both conditions, indicating an impact of gonadal hormones on the brain vascular system, disrupting its ability to respond to neuronal demands. This review aims to provide an overview of the existing knowledge concerning the impact of sex hormones on cerebrovascular formation and maturation, as well as the onset of neurodevelopmental disorders. Here, we explore the concept of gonadal hormone interactions with brain vascular and BBB development to function, with a particular focus on the modulation of VEGF and Wnt signaling. We outline how these pathways may be involved in the underpinnings of ASD and ADHD. Outstanding questions and potential avenues for future research are highlighted, as uncovering sex-specific physiological and pathological aspects of brain vascular development might lead to innovative therapeutic approaches in the context of ASD, ADHD and beyond.

Published
2024
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16. Whole genomes from bacteria collected at diagnostic units around the world 2020

Author

Nag, Sidsel, Larsen, Gunhild, Szarvas, Judit, Birkedahl, Laura Elmlund Kohl, Gulyás, Gábor Máté, Ciok, Wojchiech Jakub, Lagermann, Timmie Mikkel, Tafaj, Silva, Bradbury, Susan, Collignon, Peter, Daley, Denise, Dougnon, Victorien, Fabiyi, Kafayath, Coulibaly, Boubacar, Dembélé, René, Nikiema, Georgette, Magloire, Natama, Ouindgueta, Isidore Juste, Hossain, Zenat Zebin, Begum, Anowara, Donchev, Deyan, Diggle, Mathew, Turnbull, LeeAnn, Lévesque, Simon, Berlinger, Livia, Sogaard, Kirstine Kobberoe, Guevara, Paula Diaz, Valderrama, Carolina Duarte, Maikanti, Panagiota, Amlerova, Jana, Drevinek, Pavel, Tkadlec, Jan, Dilas, Milica, Kaasch, Achim, Westh, Henrik Torkil, Bachtarzi, Mohamed Azzedine, Amhis, Wahiba, Salazar, Carolina Elisabeth Satán, Villacis, JoséEduardo, Lúzon, Mária Angeles Dominguez, Palau, Dámaris Berbel, Duployez, Claire, Paluche, Maxime, Asante-Sefa, Solomon, Moller, Mie, Ip, Margaret, Mareković, Ivana, Pál-Sonnevend, Agnes, Cocuzza, Clementiza Elvezia, Dambrauskiene, Asta, Macanze, Alexandre, Cossa, Anelsio, Mandomando, Inácio, Nwajiobi-Princewill, Philip, Okeke, Iruka N., Kehinde, Aderemi O., Adebiyi, Ini, Akintayo, Ifeoluwa, Popoola, Oluwafemi, Onipede, Anthony, Blomfeldt, Anita, Nyquist, Nora Elisabeth, Bocker, Kiri, Ussher, James, Ali, Amjad, Ullah, Nimat, Khan, Habibullah, Gustafson, Natalie Weiler, Jarrar, Ikhlas, Al-Hamad, Arif, Luvira, Viravarn, Paveenkittiporn, Wantana, Baran, Irmak, Mwansa, James C. L., Sikakwa, Linda, Yamba, Kaunda, Hendriksen, Rene Sjogren, and Aarestrup, Frank Moller

Published
2023
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17. Integration of geoelectrical, hydrochemical and geothermal data to identify the origin of thermal water in the foothills of the Tlemcen mountains, Northwestern Algeria

Author

Somia Yousfi, Rachid Kerzabi, Jacques Mudry, Mustapha Bensalah, Abdelhamid Achachi, and Bernard Collignon

Subjects
Geophysics, geochemistry, Miocene basin, PCA, Remchi Plain, thermal water, Geology, QE1-996.5
Abstract

In previous studies, the mean geothermal gradient of the Tlemcen region has been estimated as low (3.7°C/100m). The existing boreholes in the Remchi plain (North of the Tlemcen Mountains) reveal thermal waters (26-48°C) and a remarkable artesianism. To understand the hydrodynamics and origin of thermalism of this groundwater, we merged geophysical and physical-chemical data. Geophysical data allowed us to improve the resolution of the fault network, to estimate the thickness of various sandstone beds connected with the thermal reservoir and to delimit the productive aquifer. Chemical characteristics of waters have been used for a statistical analysis, which displayed two independent water clusters resulting from two hydrodynamic patterns throughout the aquifer. The hydrothermal analysis identifies the depth reached by water and the relationship between water circulation and the fault network. Comparison with previous studies allowed us to build a schematic geological model, which explains hydrodynamics, origin and role of this structure in the groundwater flow.

Published
2024
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18. Added value of a connected glucose meter for glycorrhachia assessment

Author

Laurent Blairon, Marie Tré-Hardy, Sophie Collignon, François Coenen, Ingrid Beukinga, and Roberto Cupaiolo

Subjects
Point-of-care, Cerebrospinal fluid, Connected blood glucose monitoring system, Glycorrhachia, Medicine (General), R5-920, Chemistry, QD1-999
Abstract

Objectives: The aim of this study was to demonstrate the performance and added value of rapid glucose determination in cerebrospinal fluid using a connected glucometer. Design and Methods: Intra-assay and inter-assay accuracies were calculated using residual clinical samples. Accuracies were measured by comparing the results obtained with the glucometer to those from the central laboratory on a large routine chemistry platform. Results: The intra-assay coefficients of variation were between 6.1% and 6.2% for low values (18 mg/dL) and between 5.6% and 6.8% for high values (58 mg/dL). The inter-assay coefficients of variation were between 9.4% and 16.3% for the low values (18 mg/dL) and between 5.7% and 8.7% for the high values (pool; ±75 mg/dL). The regression equation by comparison to the central laboratory was y = 4.08 + 0.82 x, with a coefficient of determination (r2) of 0.95. Conclusions: The measurement of glycorrhachia with a connected glucometer before the analysis in the central laboratory allows a rapid orientation in the deferential diagnosis of a meningitis of viral vs bacterial origin. The response time is fast (6 s) and requires only a small amount of fluid (1.2 μL), which is important in infants, especially since lumbar puncture is an integral part of the investigation of the origin of a fever in this population.

Published
2024
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19. Electrochemical Behavior of Quinones Classically Used for Bioenergetical Applications: Considerations and Insights about the Anodic Side

Author

Dr. Guillaume Longatte, Dr. Olivier Buriez, Prof. Eric Labbé, Prof. Manon Guille‐Collignon, and Prof. Frédéric Lemaître

Subjects
Molecular electrochemistry, Kinetics, Thermodynamics, Biofuel cells, Quinones, Industrial electrochemistry, TP250-261, Chemistry, QD1-999
Abstract

Abstract Quinones are electrochemical probes which are used for a large range of applications including bioenergetics. One electrochemical feature of quinones is their possible slow electron transfer kinetics. In this article we compared several quinones towards electron transfer kinetics and the ability of anodic pretreatment to increase electron transfer rate constant. Rotating disk electrode and chronoamperometry measurements were used to revisit their electrochemical behavior. Additionally, the number of electrons exchanged as a function of the characteristic time was used as a proxy to investigate kinetic limitations. A model was suggested to rationalize our results. Beyond a classification of quinones regarding the kinetic and thermodynamic ability of the hydroquinone form to be re‐oxidized, some intrinsic physicochemical properties were identified from our model (such as a time dependency of the exchanged number of electrons) to characterize such important redox mediators.

Published
2024
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20. GVHD prophylaxis with post-transplant cyclophosphamide results in lower incidence of GVHD and allows faster immunosuppressive treatment reduction compared to antithymocyte globulin in 10/10 HLA-matched unrelated allogeneic hematopoietic cell transplantation

Author

Dachy, François, Furst, Sabine, Calmels, Boris, Pagliardini, Thomas, Harbi, Samia, Bouchacourt, Benjamin, Calleja, Anne, Lemarie, Claude, Collignon, Aude, Morel, Guillaume, Legrand, Faezeh, Bekrieva, Elena, Granata, Angela, Weiller, Pierre Jean, Chabannon, Christian, Schiano, Jean Marc, Vey, Norbert, Blaise, Didier, and Devillier, Raynier

Published
2023
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21. Over a decade of atmospheric mercury monitoring at Amsterdam Island in the French Southern and Antarctic Lands

Author

Olivier Magand, Hélène Angot, Yann Bertrand, Jeroen E. Sonke, Laure Laffont, Solène Duperray, Léa Collignon, Damien Boulanger, and Aurélien Dommergue

Subjects
Science
Abstract

Abstract The Minamata Convention, a global and legally binding treaty that entered into force in 2017, aims to protect human health and the environment from harmful mercury (Hg) effects by reducing anthropogenic Hg emissions and environmental levels. The Conference of the Parties is to periodically evaluate the Convention’s effectiveness, starting in 2023, using existing monitoring data and observed trends. Monitoring atmospheric Hg levels has been proposed as a key indicator. However, data gaps exist, especially in the Southern Hemisphere. Here, we present over a decade of atmospheric Hg monitoring data at Amsterdam Island (37.80°S, 77.55°E), in the remote southern Indian Ocean. Datasets include gaseous elemental and oxidised Hg species ambient air concentrations from either active/continuous or passive/discrete acquisition methods, and annual total Hg wet deposition fluxes. These datasets are made available to the community to support policy-making and further scientific advancements.

Published
2023
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22. Whole genomes from bacteria collected at diagnostic units around the world 2020

Author

Sidsel Nag, Gunhild Larsen, Judit Szarvas, Laura Elmlund Kohl Birkedahl, Gábor Máté Gulyás, Wojchiech Jakub Ciok, Timmie Mikkel Lagermann, Silva Tafaj, Susan Bradbury, Peter Collignon, Denise Daley, Victorien Dougnon, Kafayath Fabiyi, Boubacar Coulibaly, René Dembélé, Georgette Nikiema, Natama Magloire, Isidore Juste Ouindgueta, Zenat Zebin Hossain, Anowara Begum, Deyan Donchev, Mathew Diggle, LeeAnn Turnbull, Simon Lévesque, Livia Berlinger, Kirstine Kobberoe Sogaard, Paula Diaz Guevara, Carolina Duarte Valderrama, Panagiota Maikanti, Jana Amlerova, Pavel Drevinek, Jan Tkadlec, Milica Dilas, Achim Kaasch, Henrik Torkil Westh, Mohamed Azzedine Bachtarzi, Wahiba Amhis, Carolina Elisabeth Satán Salazar, JoséEduardo Villacis, Mária Angeles Dominguez Lúzon, Dámaris Berbel Palau, Claire Duployez, Maxime Paluche, Solomon Asante-Sefa, Mie Moller, Margaret Ip, Ivana Mareković, Agnes Pál-Sonnevend, Clementiza Elvezia Cocuzza, Asta Dambrauskiene, Alexandre Macanze, Anelsio Cossa, Inácio Mandomando, Philip Nwajiobi-Princewill, Iruka N. Okeke, Aderemi O. Kehinde, Ini Adebiyi, Ifeoluwa Akintayo, Oluwafemi Popoola, Anthony Onipede, Anita Blomfeldt, Nora Elisabeth Nyquist, Kiri Bocker, James Ussher, Amjad Ali, Nimat Ullah, Habibullah Khan, Natalie Weiler Gustafson, Ikhlas Jarrar, Arif Al-Hamad, Viravarn Luvira, Wantana Paveenkittiporn, Irmak Baran, James C. L. Mwansa, Linda Sikakwa, Kaunda Yamba, Rene Sjogren Hendriksen, and Frank Moller Aarestrup

Subjects
Science
Abstract

Abstract The Two Weeks in the World research project has resulted in a dataset of 3087 clinically relevant bacterial genomes with pertaining metadata, collected from 59 diagnostic units in 35 countries around the world during 2020. A relational database is available with metadata and summary data from selected bioinformatic analysis, such as species prediction and identification of acquired resistance genes.

Published
2023
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23. Optimizing and developing a scalable, chemically defined, animal component-free lentiviral vector production process in a fixed-bed bioreactor

Author

Carme Ripoll Fiol, Marie-Laure Collignon, John Welsh, and Qasim A. Rafiq

Subjects
animal component-free, chemically defined, serum-free, virus, lentiviral vectors, iCELLis Nano bioreactor, Genetics, QH426-470, Cytology, QH573-671
Abstract

Lentiviral vectors (LVVs) play a critical role in gene delivery for ex vivo gene-modified cell therapies. However, the lack of scalable LVV production methods and the high cost associated with them may limit their use. In this work, we demonstrate the optimization and development of a scalable, chemically defined, animal component-free LVV production process using adherent human embryonic kidney 293T cells in a fixed-bed bioreactor. The initial studies focused on the optimization of the culture process in 2D static cultures. Process changes such as decreasing cell seeding density on day 0 from 2.5 × 104 to 5 × 103 cells/cm2, delaying the transient transfection from 24 to 120 h post-seeding, reducing plasmid DNA to 167 ng/cm2, and adding 5 mM sodium butyrate 6 h post-transfection improved functional LVV titers by 26.9-fold. The optimized animal component-free production process was then transferred to the iCELLis Nano bioreactor, a fixed-bed bioreactor, where titers of 1.2 × 106 TU/cm2 were achieved when it was operated in perfusion. In this work, comparable functional LVV titers were obtained with FreeStyle 293 Expression medium and the conventional Dulbecco’s modified Eagle’s medium supplemented with 10% fetal bovine serum both at small and large scale.

Published
2023
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24. The Tale of Two Economies: Inflationary Dynamics in the Euro Area and the US in the Context of Uncertainty

Author

Stefan Collignon

Subjects
Euro, inflation, US economy, monetary policy, uncertainty, markups, Economics as a science, HB71-74
Abstract

In recent years, the global economy has been hit by a sequence of severe shocks that affected the two largest economies, the USA and the Euro Area, severely. Uncertainties about the future abound. While the challenges are similar for both economies and the policy tools resemble each other, they apply to different economic landscapes. What can they learn from each other? This paper looks at the basic structural facts, the nature of uncertainty shocks, and the efficiency of policy tools in the two economies. The key to understanding recent developments is uncertainty. This paper argues that the channel through which uncertainty influences inflation, wage cost, and unemployment is the markup firms charge to cover their cost of capital. While the measurements of uncertainty are uncertain, adding a proxy for uncertainty can improve the estimates of the basic New Keynesian model. The Federal Reserve Bank has been more successful because it operates in a more integrated capital market. In the Euro Area, uncertainty is higher than in the US and this could make disinflation in Europe more painful in terms of unemployment.

Published
2024
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27. Consensus statement by the Belgian Society of Neurosurgery and literature review on the diagnosis and management of postoperative spinal epidural hematoma

Author

Steven Smeijers, Frederic Collignon, Emmanuel Costa, Kris Desmedt, Henri-Benjamin Pouleau, Nikolaas Vantomme, Bertrand Cailliau, Bart Depreitere, and Dieter Peuskens

Subjects
Spinal epidural hematoma, Postoperative, Management, Complication, Spinal surgery, Neurology. Diseases of the nervous system, RC346-429
Abstract

Introduction: Postoperative spinal epidural hematoma (SEH) is a potentially devastating complication for patients and caregivers, and a leading cause for litigation in spine surgery. This article provides a literature review and the consensus statement of the Belgian Society of Neurosurgery (BSN) on the management of postoperative SEH. Research question: Can we implement current evidence to establish a framework on the management of postoperative SEH? Material and methods: Based on a Pubmed search, abstracts were screened for topics covering incidence, pathophysiology, risk factors, surveillance, diagnosis, treatment, and outcome. Relevant topics are presented in a narrative review format, followed by a consensus statement of the BSN with emphasis on rapid diagnosis and treatment. Results: Symptomatic SEH is rare (0.3–1%) and can have an insidious onset with rapid progression to neurological deficits. Recurring risk factors are coagulation deficiencies and multilevel surgery. The protective effect of a postoperative drainage system is uncertain, and early thrombo-embolic prophylaxis does not increase the risk of SEH. Prognosis is dependent on residual neurological function and critically, on the time to reintervention. There is a need for structured neurological observation formats after spine surgery. Discussion and conclusion: Symptomatic SEH after surgery is an unpredictable and severe complication requiring rapid action to maximize outcomes. The BSN proposes three nuclear terms central to SEH management, converging on a triple ‘S’: 1) high level of suspicion 2) speed of diagnosis and 3) immediate surgery. All spine centers can benefit from an institutional protocol in which SEH should be treated as an emergency.

Published
2024
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28. Multiscale Modeling and Deep Learning for Complex Microbial Colonies

Author

Collignon, Jordan

Subjects
Applied mathematics, Computer science, Biophysics, Candida albicans, classification, deep learning, prion, Saccharomyces cerevisiae, segmentation
Abstract

It is challenging to build meaningful models of biological systems that are calibrated to experimental data. For microbial colonies, chromogenic assays are key tools for distinguishing phenotypic variants in growing colonies over time and provide additional useful information for colony quantification. In microbial colonies, the presence of multiple phenotypes indicate a functional change that is dependent on the colony species. One example in Saccharomyces cerevisiae is that the presence of multiple phenotypes indicates a loss of infectious agents within the cells. Another example in Candida albicans is that the presence of multiple phenotypes tells us about cell mating strategies. At present, we lack both a model that explains the formation of these sectored phenotypes and a method for validating such a model from experiments. In addition, we lack a framework which couple both approaches to make meaningful insights related to the driving of multiple phenotypes in microbial colonies. In this dissertation, I seek to address this gap with a data-driven approach that integrates experimental data of sectored yeast colonies with the construction of an agent-based model of growing budding yeast colonies. I first discuss my previously published work developing an agent based model of budding yeast and apply mathematical techniques to analyze colony structure. Next, I explain my ongoing work to use image analysis techniques to create a high-throughput pipeline allowing us to extract information about the size and structure of colonies found in image data. Finally, I present ongoing work with using this framework for larger and more diverse datasets and discuss limitations on their use in automated colony quantification. Together these projects create a framework allowing us to adapt our agent based modeling framework to the conditions observed in experiments so that the model both captures sectoring behavior and allows us to predict the mechanisms driving sectoring behavior.

Published
2024

29. Electrochemiluminescence Imaging of Liposome Permeabilization by an Antimicrobial Peptide: Melittin

Author

Fatma Ben Trad, Jérôme Delacotte, Manon Guille-Collignon, Frédéric Lemaître, Stéphane Arbault, Neso Sojic, Fabienne Burlina, Eric Labbé, and Olivier Buriez

Subjects
Medical technology, R855-855.5, Chemistry, QD1-999
Abstract

The permeabilization of liposomes by melittin, an antimicrobial peptide (AMP), has been studied by an electrochemiluminescence (ECL) imaging strategy. The methodology consisted first of encapsulating ECL reagents in sealed giant asymmetrical liposomes (100 μm in diameter) made of DOPG/DOPC phospholipids (i.e., 1,2-dioleoyl-sn-glycerol-3-phospho-(1′-rac-glycerol) sodium salt/1,2-dioleolyl-sn-glycero-3-phosphocholine). Then liposomes were placed on an indium tin oxide electrode coated with poly-l-lysine to avoid any membrane poration/permeabilization through polarization of the electrode surface. Finally, the addition of melittin (from 10 μM to 100 nM in concentration) enabled the permeabilization of the lipid membrane followed by the liposome content release and subsequent light generation through the ECL reagents oxidation processes. Interestingly, at a melittin concentration of 10 μM, two successive leakages occurring on the same liposome could be imaged. Combination of ECL and photoluminescence imaging allowed comprehensive monitoring of the permeabilization and content release of a single liposome. This ECL imaging approach opens interesting perspectives to characterize the instant release of vesicle content upon permeabilization by AMPs or other membrane-active species.

Published
2023
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30. First Isolation of the Heteropathotype Shiga Toxin-Producing and Extra-Intestinal Pathogenic (STEC-ExPEC) E. coli O80:H2 in French Healthy Cattle: Genomic Characterization and Phylogenetic Position

Author

Nathan Soleau, Sarah Ganet, Stéphanie Werlen, Lia Collignon, Aurélie Cointe, Stéphane Bonacorsi, and Delphine Sergentet

Subjects
Shiga-toxin-producing Escherichia coli (STEC), first isolation, characterization, whole-genome sequencing, serotype O80:H2, emerging pathogen, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

The emerging heteropathotype shigatoxigenic (STEC) and extra-intestinal pathogenic Escherichia coli (ExPEC) O80:H2 has been the second leading cause of pediatric HUS in France since the mid-2010s. In contrast with other highly pathogenic STEC serotypes, for which ruminants have clearly been identified as the main human infection source, this heteropathotype’s reservoir remains unknown. In this context, we describe for the first time the isolation of seven STEC O80:H2 strains from healthy cattle on a single cattle farm in France. This study aimed at (i) characterizing the genome and (ii) investigating the phylogenetic positions of these O80:H2 STEC strains. The virulomes, resistomes, and phylogenetic positions of the seven bovine isolates were investigated using in silico typing tools, antimicrobial susceptibility testing and cgMLST analysis after short-read whole genome sequencing (WGS). One representative isolate (A13P112V1) was also subjected to long-read sequencing. The seven isolates possessed ExPEC-related virulence genes on a pR444_A-like mosaic plasmid, previously described in strain RDEx444 and known to confer multi-drug resistance. All isolates were clonally related and clustered with human clinical strains from France and Switzerland with a range of locus differences of only one to five. In conclusion, our findings suggest that healthy cattle in France could potentially act as a reservoir of the STEC-ExPEC O80:H2 pathotype.

Published
2024
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32. Generation and characterization of a monoclonal antibody against an African swine fever virus protein encoded by the A137R gene

Author

Carissa Embury-Hyatt, Estella Moffat, Dmytro Zhmendak, Cassidy N. G. Erdelyan, Brad Collignon, Kalhari Goonewardene, Aruna Ambagala, and Ming Yang

Subjects
African swine fever virus, monoclonal antibody, antibody binding epitope, double-antibody sandwich ELISA, immunohistochemistry, in situ hybridization, Veterinary medicine, SF600-1100
Abstract

The ongoing African swine fever (ASF) pandemic continues to have a major impact on global pork production and trade. Since ASF cannot be distinguished from other swine hemorrhagic fevers clinically, ASF-specific laboratory diagnosis is critical. Thus ASF virus (ASFV)-specific monoclonal antibodies (mAbs) are critical for the development of laboratory diagnostics. In this study, we report one ASFV-specific mAb, F88ASF-55, that was generated and characterized. This mAb recognizes the ASFV A137R-encoded protein (pA137R). Epitope mapping results revealed a highly conserved linear epitope recognized by this mAb, corresponding to amino acids 111–125 of pA137R. We explored the potential use of this mAb in diagnostic applications. Using F88ASF-55 as the detection antibody, six ASFV strains were detected in an enzyme-linked immunosorbent assay (ELISA) with low background. In immunohistochemistry (IHC) assays, this mAb specifically recognized ASFV antigens in the submandibular lymph nodes of animals experimentally infected with different ASFV strains. Although not all ASFV genotypes were tested in this study, based on the conserved ASFV epitope targeted by F88ASF-55, it has the potential to detect multiple ASFV genotypes. In conclusion, this newly generated ASFV pA137R-specific mAb has potential value in ASF diagnostic tool development. It can be used in ELISA, IHC, and possibly-immunochromatographic strip assays for ASFV detection. It also suggests that pA137R may be a good target for diagnostic assays to detect ASFV infection.

Published
2023
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34. Turbulent induced vibration of a guide tube in experimental reactor

Author

Ricciardi Guillaume, Collignon Christophe, Galpin Jérémy, Cissé Mamadou, Piteau Philippe, Erard Domnin, and Blanc Patrick

Subjects
Nuclear engineering. Atomic power, TK9001-9401
Abstract

The design of advanced experimental nuclear reactors consists in integrating safety and operational requirements as well as reaching targets in terms of thermal power and neutron spectrum. In order to meet theses constraints, slender structures with little supports and crossing the entire reactor vessel are implemented in the reactor and are subjected to an axial flow that generates flow-induced vibration (FIV). From the industrial point of view, the mastering of the occurrence of FIV and its associated wear in case of contacts is requested. The stationary fluid forces applying on slender tubular structure in response to its motion are of primary interest since they can significantly affect the vibration amplitudes and even the stability of the system, especially in case of confined axial flow with high velocities (typically higher than 10 m/s). In this study it proposed to compare two approaches to estimate the vibration induced by turbulent excitation of an industrial device encountered in a research nuclear reactor. The control-rod guide-tube mock-up of the Jules Horowitz Reactor, previously tested in an hydraulic channel at the Technical Center from Le Creusot in France, is retained for this benchmark. Two models are proposed, one based on derivation of leakage flow theory and the other one was based on potential flow theory with adjusted coefficients given by CFD simulations. The flow induced vibration amplitude is consistent with the experimental data. Also, the calculation and experiment provide similar trends when the boundary conditions are changed.

Published
2024
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35. Single cell multi-omics characterise discrete human tendon cells populations that persist in vitro and on fibrous scaffolds

Author

A Gomez-Collignon, R Brown, A Carr, S Dakin, A Lach, C Loizou, M Rogers, R Sharp, and A Kendal

Subjects
tenocyte, tendon fibroblast, human tendon, single-cell rna sequencing, cite-seq, transcriptomic, tendinopathy, in vitro, culture, polydioxanone, scaffolds, fibres, Diseases of the musculoskeletal system, RC925-935, Orthopedic surgery, RD701-811
Abstract

Chronic tendinopathy represents a growing healthcare burden in the ageing global population. Curative therapies remain elusive as the mechanisms that underlie chronic inflammation in tendon disease remain unclear. Identifying and isolating key pathogenic and reparative cells is essential in developing precision therapies and implantable materials for improved tendon healing. Multiple discrete human tendon cell populations have been previously described ex vivo. To determine if these populations persist in vitro, healthy human hamstring tenocytes were cultured for 8 d on either tissue culture plastic or aligned electrospun fibres of absorbable polydioxanone. Novel single-cell surface proteomics combined with unbiased single-cell transcriptomics (CITE-Seq) was used to identify discrete tenocyte populations. 6 cell populations were found, 4 of which shared key gene expression determinants with ex vivo human cell clusters: PTX3_PAPPA, POSTN_SCX, DCN_LUM and ITGA7_NES. Surface proteomics found that PTX3_PAPPA cells were CD10+CD26+CD54+. ITGA7_NES cells were CD146+ and POSTN_SCX cells were CD90+CD95+CD10+. Culture on the aligned electrospun fibres favoured 3 cell subtypes (DCN_LUM, POSTN_SCX and PTX3_ PAPPA), promoting high expression of tendon-matrix-associated genes and upregulating gene sets enriched for TNF-a and IL-6/STAT3 signalling. Discrete human tendon cell subpopulations persisted in in vitro culture and could be recognised by specific gene and surface-protein signatures. Aligned polydioxanone fibres promoted the survival of 3 clusters, including pro-inflammatory PTX3-expressing CD10+CD26+CD54+ cells found in chronic tendon disease. These results improved the understanding of preferred culture conditions for different tenocyte subpopulations and informed the development of in vitro models of tendon disease.

Published
2022
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38. δ13C, CO2 ∕ 3He and 3He ∕ 4He ratios reveal the presence of mantle gas in the CO2-rich groundwaters of the Ardennes massif (Spa, Belgium)

Author

A. Defourny, P.-H. Blard, L. Zimmermann, P. Jobé, A. Collignon, F. Nguyen, and A. Dassargues

Subjects
Technology, Environmental technology. Sanitary engineering, TD1-1066, Geography. Anthropology. Recreation, Environmental sciences, GE1-350
Abstract

Although natural CO2-rich groundwaters of eastern Belgium have been known for centuries, the exact origin of their gas is still unclear. This paper presents the results of a sampling campaign in Belgium (Spa, Stoumont, Malmedy): 30 samples of both carbogaseous and non-carbogaseous groundwaters were analyzed for major elements, CO2 content and carbon isotopic composition. Among them, 13 samples were also analyzed for 3He/4He and 4He/20Ne ratios. The combination of δ13C (between ca. −9 ‰ VPDB1 and −2 ‰ VPDB), CO2/3He ratio (between 1.9×108 and 2.9×109) and 3He/4He (between 0.92 and 2.70 Ra) shows with a high level of confidence that the CO2 in the carbogaseous groundwater of Spa and Bru has a mantle origin. It can likely be attributed to the degassing of mantle from the neighboring Eifel volcanic fields, located at a distance of 100 km eastwards. The identity and nature of the deep-rooted fractures that act as CO2 transport pathways to the surface are still to be clarified, but several major thrust faults exist in the Rhenish Massif and could connect the Eifel volcanic fields with the studied area.

Published
2022
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40. EMPOWERMENT IN COMPLEXE DYNAMISCHE SYSTEMEN

Author

Debby Collignon and Carine Ex

Subjects
empowerment, complexiteit, complex dynamische systemen, positieve psychologie, sociale interventies, zelfregie, eigen kracht, agency, Sociology (General), HM401-1281
Abstract

Empowerment is een centraal begrip in het hedendaagse pedagogisch denken en handelen. In dit artikel wordt empowerment besproken in het licht van de positieve psychologie: een stroming in de psychologie die bestudeerd hoe het welbevinden en optimaal functioneren van mensen kan worden bevorderd. In de positieve psychologie heeft recent een paradigmaverschuiving plaatsgevonden. De interactie tussen individu en omgeving wordt niet langer begrepen in termen van causaliteit maar vanuit het narratief van complexiteit. In dit narratief wordt de interactie tussen individu en omgeving opgevat als een complex dynamisch systeem waarin er zelden sprake is vandirecte oorzaak-gevolg relaties (lineaire causaliteit). Bij het ontstaan van empowerment spelen zowel multi-causaliteit, multi-finaliteit als circulaire causaliteit een rol. Empowerment wordt in dit artikel dan ook niet beschouwd als een inherent psychisch kenmerk van een individu, maar als iets dat zich vormt op basis van iemands dagelijkse ervaringen in interactie met zijn sociale omgeving.In dit artikel onderzoeken we wat het denken vanuit het perspectief van complex dynamische systemen betekent voor de pedagogische visie op empowerment en welke gevolgen dit heeft voor interventies in de pedagogische praktijk.

Published
2022
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41. LADON, a Natural Antisense Transcript of NODAL, Promotes Tumour Progression and Metastasis in Melanoma

Author

Annie Dutriaux, Serena Diazzi, Chiara Bresesti, Sylvie Hardouin, Frédérique Deshayes, Jérôme Collignon, and Domenico Flagiello

Subjects
lncRNA, melanoma, invasion, metastasis, exosomes, A375M, Genetics, QH426-470
Abstract

The TGFβ family member NODAL, repeatedly required during embryonic development, has also been associated with tumour progression. Our aim was to clarify the controversy surrounding its involvement in melanoma tumour progression. We found that the deletion of the NODAL exon 2 in a metastatic melanoma cell line impairs its ability to form tumours and colonize distant tissues. However, we show that this phenotype does not result from the absence of NODAL, but from a defect in the expression of a natural antisense transcript of NODAL, here called LADON. We show that LADON expression is specifically activated in metastatic melanoma cell lines, that its transcript is packaged in exosomes secreted by melanoma cells, and that, via its differential impact on the expression of oncogenes and tumour suppressors, it promotes the mesenchymal to amoeboid transition that is critical for melanoma cell invasiveness. LADON is, therefore, a new player in the regulatory network governing tumour progression in melanoma and possibly in other types of cancer.

Published
2023
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42. Complete Resection of a Torcular Herophili Hemangiopericytoma without Sinus Reconstruction: A Case Report and Review of the Literature

Author

Salah-Edine Safi, Julie Godfrain, Herbert Rooijakkers, and Frederic Collignon

Subjects
Surgery, RD1-811
Abstract

A 78-year-old woman presented to the emergency department with mild headaches and a sudden onset of blurred vision. Computerized tomography scan and magnetic resonance imaging showed what was described at first as a meningioma invading and occluding the torcular Herophili, the posterior third of the superior sagittal sinus and the proximal part of the right transverse sinus. Gross total resection of the tumor was performed without reconstructing dural sinuses. The patient was discharged home without new neurological deficit. Histopathology was in favor of a hemangiopericytoma Grade II World Health Organization (WHO). Total body positron emission tomography [18F]fluorodeoxyglucose found no secondary location. Radiotherapy was planned post-operatively.

Published
2023
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43. Tactile expectancy modulates occipital alpha oscillations in early blindness

Author

Ane Gurtubay-Antolin, Ricardo Bruña, Olivier Collignon, and Antoni Rodríguez-Fornells

Subjects
Blindness, Alpha, Tactile, Oscillatory activity, Tactile expectancy, Occipital cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Alpha oscillatory activity is thought to contribute to visual expectancy through the engagement of task-relevant occipital regions. In early blindness, occipital alpha oscillations are systematically reduced, suggesting that occipital alpha depends on visual experience. However, it remains possible that alpha activity could serve expectancy in non-visual modalities in blind people, especially considering that previous research has shown the recruitment of the occipital cortex for non-visual processing. To test this idea, we used electroencephalography to examine whether alpha oscillations reflected a differential recruitment of task-relevant regions between expected and unexpected conditions in two haptic tasks (texture and shape discrimination). As expected, sensor-level analyses showed that alpha suppression in parieto-occipital sites was significantly reduced in early blind individuals compared with sighted participants. The source reconstruction analysis revealed that group differences originated in the middle occipital cortex. In that region, expected trials evoked higher alpha desynchronization than unexpected trials in the early blind group only. Our results support the role of alpha rhythms in the recruitment of occipital areas in early blind participants, and for the first time we show that although posterior alpha activity is reduced in blindness, it remains sensitive to expectancy factors. Our findings therefore suggest that occipital alpha activity is involved in tactile expectancy in blind individuals, serving a similar function to visual anticipation in sighted populations but switched to the tactile modality. Altogether, our results indicate that expectancy-dependent modulation of alpha oscillatory activity does not depend on visual experience. Significance statement: Are posterior alpha oscillations and their role in expectancy and anticipation dependent on visual experience? Our results show that tactile expectancy can modulate posterior alpha activity in blind (but not sighted) individuals through the engagement of occipital regions, suggesting that in early blindness, alpha oscillations maintain their proposed role in visual anticipation but subserve tactile processing. Our findings bring a new understanding of the role that alpha oscillatory activity plays in blindness, contrasting with the view that alpha activity is task unspecific in blind populations.

Published
2023
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44. The effect of eye protection on SARS-CoV-2 transmission: a systematic review

Author

Oyungerel Byambasuren, Elaine Beller, Justin Clark, Peter Collignon, and Paul Glasziou

Subjects
COVID-19, SARS-CoV-2, Eye protection, Face shield, Infection prevention, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background The effect of eye protection to prevent SARS-CoV-2 infection in the real-world remains uncertain. We aimed to synthesize all available research on the potential impact of eye protection on transmission of SARS-CoV-2. Methods We searched PROSPERO, PubMed, Embase, The Cochrane Library for clinical trials and comparative observational studies in CENTRAL, and Europe PMC for pre-prints. We included studies that reported sufficient data to estimate the effect of any form of eye protection including face shields and variants, goggles, and glasses, on subsequent confirmed infection with SARS-CoV-2. Results We screened 898 articles and included 6 reports of 5 observational studies from 4 countries (USA, India, Columbia, and United Kingdom) that tested face shields, goggles, and wraparound eyewear on 7567 healthcare workers. The three before-and-after and one retrospective cohort studies showed statistically significant and substantial reductions in SARS-CoV-2 infections favouring eye protection with odds ratios ranging from 0.04 to 0.6, corresponding to relative risk reductions of 96% to 40%. These reductions were not explained by changes in the community rates. However, the one case–control study reported odds ratio favouring no eye protection (OR 1.7, 95% CI 0.99, 3.0). The high heterogeneity between studies precluded any meaningful meta-analysis. None of the studies adjusted for potential confounders such as other protective behaviours, thus increasing the risk of bias, and decreasing the certainty of evidence to very low. Conclusions Current studies suggest that eye protection may play a role in prevention of SARS-CoV-2 infection in healthcare workers. However, robust comparative trials are needed to clearly determine effectiveness of eye protections and wearability issues in both healthcare and general populations.

Published
2021
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45. Oncological patients' reactions to COVID‐19 pandemic: A single institution prospective study

Author

Concetta Elisa Onesti, Hélène Schroeder, Andrée Rorive, Brieuc Sautois, Marie Lecocq, Marie Goffin, Elodie Gonne, Astrid Collinge, Laurence Nicolaers, Odile Wéra, Amandine Catot, Catherine Loly, Astrid Paulus, Anne Sibille, Laurence Lousberg, Florence Troisfontaine, Joëlle Collignon, Christine Gennigens, Pierre Frères, Marc Polus, Bernard Duysinx, Frédérique Vaillant, Nathalie Marchal, Aurélie Poncin, and Guy Jerusalem

Subjects
COVID‐19 and cancer, patients' awareness, patients' feelings, SARS‐CoV2, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background The spread of the COVID‐19 pandemic has led to a rapid reorganization in all human and hospital activities, with impact on cancer patients. Aim An analysis of cancer patients fears, and awareness of COVID‐19 has been done in this study. Methods and results We analyzed cancer patients' reactions to the pandemic and their perception of oncological care reorganization, through a 12‐item survey, proposed at the peak of pandemic and 3 months later. Overall, 237 patients were included in the study. During the peak of pandemic 34.6% of patients were more worried about COVID‐19 than cancer versus 26.4% in the post‐acute phase (p = .013). Although 49.8% of patients in the acute phase and 42.3% in the post‐acute phase considered their risk of death if infected ≥50%, and more than 70% of patients thought to be at higher risk of complications, the majority of them did not consider the possibility to stop or delay their treatment. Patients were more interested in following news about COVID‐19 than cancer and they complied with all preventive measures in more than 90% of the cases. Conclusions Although cancer patients worried about COVID‐19 and evaluated the risk of complication or death due to COVID‐19 as extremely high, they were still asking for the best oncological treatment.

Published
2022
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46. Impact of blindness onset on the representation of sound categories in occipital and temporal cortices

Author

Stefania Mattioni, Mohamed Rezk, Ceren Battal, Jyothirmayi Vadlamudi, and Olivier Collignon

Subjects
early blindness, crossmodal plasticity, intramodal plasticity, audition, categories, fMRI multivariate analyses, Medicine, Science, Biology (General), QH301-705.5
Abstract

The ventral occipito-temporal cortex (VOTC) reliably encodes auditory categories in people born blind using a representational structure partially similar to the one found in vision (Mattioni et al.,2020). Here, using a combination of uni- and multivoxel analyses applied to fMRI data, we extend our previous findings, comprehensively investigating how early and late acquired blindness impact on the cortical regions coding for the deprived and the remaining senses. First, we show enhanced univariate response to sounds in part of the occipital cortex of both blind groups that is concomitant to reduced auditory responses in temporal regions. We then reveal that the representation of the sound categories in the occipital and temporal regions is more similar in blind subjects compared to sighted subjects. What could drive this enhanced similarity? The multivoxel encoding of the ‘human voice’ category that we observed in the temporal cortex of all sighted and blind groups is enhanced in occipital regions in blind groups , suggesting that the representation of vocal information is more similar between the occipital and temporal regions in blind compared to sighted individuals. We additionally show that blindness does not affect the encoding of the acoustic properties of our sounds (e.g. pitch, harmonicity) in occipital and in temporal regions but instead selectively alter the categorical coding of the voice category itself. These results suggest a functionally congruent interplay between the reorganization of occipital and temporal regions following visual deprivation, across the lifespan.

Published
2022
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47. Electronic band sculpted by oxygen vacancies and indispensable for dilute superconductivity

Author

Benoît Fauqué, Clément Collignon, Hyeok Yoon, Ravi, Xiao Lin, Igor I. Mazin, Harold Y. Hwang, and Kamran Behnia

Subjects
Physics, QC1-999
Abstract

Dilute superconductivity survives in bulk strontium titanate when the Fermi temperature falls well below the Debye temperature. Here, we show that the onset of the superconducting dome is dopant dependent. When mobile electrons are introduced by removing oxygen atoms, the superconducting transition survives down to 2×10^{17}cm^{−3}, but when they are brought by substituting Ti with Nb, the threshold density for superconductivity is an order of magnitude higher. Our study of quantum oscillations reveals a difference in the band dispersion between the dilute metals made by these doping routes and our band calculations demonstrate that the rigid band approximation does not hold when mobile electrons are introduced by oxygen vacancies. We identify the band sculpted by these vacancies as the exclusive locus of superconducting instability in the ultradilute limit.

Published
2023
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48. Molecular Mechanisms Driven by MT4-MMP in Cancer Progression

Author

Emma Muñoz-Sáez, Natalia Moracho, Ana I. R. Learte, Alice Collignon, Alicia G. Arroyo, Agnés Noel, Nor Eddine Sounni, and Cristina Sánchez-Camacho

Subjects
MT4-MMP, MMP-17, development, vasculature, tumor, cancer cell, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

MT4-MMP (or MMP-17) belongs to the membrane-type matrix metalloproteinases (MT-MMPs), a distinct subset of the MMP family that is anchored to the cell surface, in this case by a glycosylphosphatidylinositol (GPI) motif. Its expression in a variety of cancers is well documented. However, the molecular mechanisms by which MT4-MMP contributes to tumor development need further investigation. In this review, we aim to summarize the contribution of MT4-MMP in tumorigenesis, focusing on the molecular mechanisms triggered by the enzyme in tumor cell migration, invasiveness, and proliferation, in the tumor vasculature and microenvironment, as well as during metastasis. In particular, we highlight the putative substrates processed and signaling cascades activated by MT4-MMP that may underlie these malignancy processes and compare this with what is known about its role during embryonic development. Finally, MT4-MMP is a relevant biomarker of malignancy that can be used for monitoring cancer progression in patients as well as a potential target for future therapeutic drug development.

Published
2023
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50. Sclerostin Antibody-Loaded Dense Collagen Hydrogels Promote Critical-Size Bone Defect Repair

Author

Sicard, Ludovic, Maillard, Sophie, Mbita Akoa, Daline, Torrens, Coralie, Collignon, Anne-Margaux, Coradin, Thibaud, and Chaussain, Catherine

Abstract

The management of extensive bone loss remains a clinical challenge. Numerous studies are underway to develop a combination of biomaterials, biomolecules, and stem cells to address this challenge. In particular, the systemic administration of antibodies against sclerostin, a regulator of bone formation, was recently shown to enhance the bone repair efficiency of dense collagen hydrogels (DCHs) hosting murine dental pulp stem cells (mDPSCs). The aim of the present study was to assess whether these antibodies, encapsulated and released from DCHs, could promote craniofacial bone repair by the local inhibition of sclerostin. In vitro studies showed that antibody loading modified neither the hydrogel structure nor the viability of seeded mDPSCs. When implanted in a mouse calvaria critical-size bone defect, antibody-loaded DCHs showed repair capabilities similar to those of acellular unloaded DCHs combined with antibody injections. Importantly, the addition of mDPSCs provided no further benefit. Altogether, the local delivery of antisclerostin antibodies from acellular dense collagen scaffolds is highly effective for bone repair. The drastic reduction in the required amount of antibody compared to systemic injection should reduce the cost of the procedure, making the strategy proposed here a promising therapeutic approach for large bone defect repair.

Published
2024
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