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1. Regenerative vectorial breathers in a delay-coupled neuromorphic microlaser with integrated saturable absorber

Author

Ruschel, Stefan, Pammi, Venkata A., Braive, Rémy, Sagnes, Isabelle, Beaudoin, Grégoire, Broderick, Neil G. R., Krauskopf, Bernd, and Barbay, Sylvain

Subjects
Physics - Optics, 78A60, 34K23
Abstract

We report on the polarization dynamics of regenerative light pulses in a micropillar laser with integrated saturable absorber coupled to an external feedback mirror. The delayed self-coupled microlaser is operated in the excitable regime, where it regenerates incident pulses with a supra-threshold intensity -- resulting in a pulse train with inter-pulse period approximately given by the feedback delay time, in analogy with a self-coupled biological neuron. We report the experimental observation of vectorial breathers in polarization angle, manifesting themselves as a modulation of the linear polarized intensity components without significant modulation of the total intensity. Numerical analysis of a suitable model reveals that the observed polarization mode competition is a consequence of symmetry-breaking bifurcations induced by polarization anisotropy. Our model reproduces well the observed experimental results and predicts different regimes as a function of the polarization anisotropy parameters and the pump parameter. We believe that these findings are relevant for the fabrication of flexible sources of polarized pulses with controlled properties, as well as for neuroinspired on-chip computing applications, where the polarization may be used to encode or process information in novel ways., Comment: 5 pages, 4 figures

Published
2024

2. Harnessing coupled nanolasers near exceptional points for directional emission

Author

Madiot, Guilhem, Chateiller, Quentin, Bazin, Alexandre, Loren, Patricia, Pantzas, Konstantinos, Beaudoin, Grégoire, Sagnes, Isabelle, and Raineri, Fabrice

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

Tailoring the losses of optical systems within the frame of non-Hermitian physics has appeared very fruitful in the last few years. In particular, the description of exceptional points (EPs) with coupled resonators have become widespread. The on-chip realization of these functionalities is highly significant for integrated nanophotonics, but requires fine control techniques of the nanodevice properties. Here, we demonstrate pump-controlled directional emission of two coupled nanolasers that distantly interact via an integrated waveguide. This coupling scheme unusually enables both frequency- and loss-couplings between two cavities, which can be advantageously exploited to reach EPs by either detuning the cavities or controlling the gain of nanolasers. The system can be readily reconfigured from bidirectional to unidirectional emission by adjusting the pump power.

Published
2024

3. Structural Design Through Reinforcement Learning

Author

Rochefort-Beaudoin, Thomas, Vadean, Aurelian, Aage, Niels, and Achiche, Sofiane

Subjects
Computer Science - Artificial Intelligence, 68T07 (Primary), 74P05 (Secondary), J.2, J.6, I.2
Abstract

This paper introduces the Structural Optimization gym (SOgym), a novel open-source Reinforcement Learning (RL) environment designed to advance machine learning in Topology Optimization (TO). SOgym enables RL agents to generate physically viable and structurally robust designs by integrating the physics of TO into the reward function. To enhance scalability, SOgym leverages feature-mapping methods as a mesh-independent interface between the environment and the agent, allowing efficient interaction with the design variables regardless of mesh resolution. Baseline results use a model-free Proximal Policy Optimization agent and a model-based DreamerV3 agent. Three observation space configurations were tested. The TopOpt game-inspired configuration, an interactive educational tool that improves students' intuition in designing structures to minimize compliance under volume constraints, performed best in terms of performance and sample efficiency. The 100M parameter version of DreamerV3 produced structures within 54% of the baseline compliance achieved by traditional optimization methods and a 0% disconnection rate, an improvement over supervised learning approaches that often struggle with disconnected load paths. When comparing the learning rates of the agents to those of engineering students from the TopOpt game experiment, the DreamerV3-100M model shows a learning rate approximately four orders of magnitude lower, an impressive feat for a policy trained from scratch through trial and error. These results suggest RL's potential to solve continuous TO problems and its capacity to explore and learn from diverse design solutions. SOgym provides a platform for developing RL agents for complex structural design challenges and is publicly available to support further research in the field.

Published
2024

4. From Density to Geometry: YOLOv8 Instance Segmentation for Reverse Engineering of Optimized Structures

Author

Rochefort-Beaudoin, Thomas, Vadean, Aurelian, Achiche, Sofiane, and Aage, Niels

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computational Engineering, Finance, and Science, 68T10 (Secondary), 74P05 (Secondary), J.2, J.6, I.4.6, I.5.4
Abstract

This paper introduces YOLOv8-TO, a novel approach for reverse engineering of topology-optimized structures into interpretable geometric parameters using the YOLOv8 instance segmentation model. Density-based topology optimization methods require post-processing to convert the optimal density distribution into a parametric representation for design exploration and integration with CAD tools. Traditional methods such as skeletonization struggle with complex geometries and require manual intervention. YOLOv8-TO addresses these challenges by training a custom YOLOv8 model to automatically detect and reconstruct structural components from binary density distributions. The model is trained on a diverse dataset of both optimized and random structures generated using the Moving Morphable Components method. A custom reconstruction loss function based on the dice coefficient of the predicted geometry is used to train the new regression head of the model via self-supervised learning. The method is evaluated on test sets generated from different topology optimization methods, including out-of-distribution samples, and compared against a skeletonization approach. Results show that YOLOv8-TO significantly outperforms skeletonization in reconstructing visually and structurally similar designs. The method showcases an average improvement of 13.84% in the Dice coefficient, with peak enhancements reaching 20.78%. The method demonstrates good generalization to complex geometries and fast inference times, making it suitable for integration into design workflows using regular workstations. Limitations include the sensitivity to non-max suppression thresholds. YOLOv8-TO represents a significant advancement in topology optimization post-processing, enabling efficient and accurate reverse engineering of optimized structures for design exploration and manufacturing.

Published
2024

5. Counting statistics of ultra-broadband microwave photons

Author

Beaudoin, Simon Bolduc, Pinsolle, Edouard, and Reulet, Bertrand

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

We report measurements of counting statistics, average and variance, of microwave photons of ill-defined frequency : bichromatic photons, i.e. photons involving two well separated frequencies, and "white" broadband photons. Our setup allows for the analysis of single photonic modes of arbitrary waveform over the 1-10 GHz frequency range. The photon statistics is obtained by on-the-fly numerical calculation from the sampled time-dependent voltage. Using an ac+dc biased tunnel junction as a source of quantum microwave, we report an ultra-wide squeezing spectrum representing a competitive source for entanglement generation (up to 0.9 billion measured entangled bits per second) easily achievable experimentally. We also report the observation of quantum steering by the tunnel junction, and show how the presence of squeezing of a broadband mode implies the existence of entanglement between two modes it encompasses., Comment: 14 pages, 13 figures, on going peer review

Published
2024

6. Generating Synthetic Computed Tomography for Radiotherapy: SynthRAD2023 Challenge Report

Author

Huijben, Evi M. C., Terpstra, Maarten L., Galapon, Arthur Jr., Pai, Suraj, Thummerer, Adrian, Koopmans, Peter, Afonso, Manya, van Eijnatten, Maureen, Gurney-Champion, Oliver, Chen, Zeli, Zhang, Yiwen, Zheng, Kaiyi, Li, Chuanpu, Pang, Haowen, Ye, Chuyang, Wang, Runqi, Song, Tao, Fan, Fuxin, Qiu, Jingna, Huang, Yixing, Ha, Juhyung, Park, Jong Sung, Alain-Beaudoin, Alexandra, Bériault, Silvain, Yu, Pengxin, Guo, Hongbin, Huang, Zhanyao, Li, Gengwan, Zhang, Xueru, Fan, Yubo, Liu, Han, Xin, Bowen, Nicolson, Aaron, Zhong, Lujia, Deng, Zhiwei, Müller-Franzes, Gustav, Khader, Firas, Li, Xia, Zhang, Ye, Hémon, Cédric, Boussot, Valentin, Zhang, Zhihao, Wang, Long, Bai, Lu, Wang, Shaobin, Mus, Derk, Kooiman, Bram, Sargeant, Chelsea A. H., Henderson, Edward G. A., Kondo, Satoshi, Kasai, Satoshi, Karimzadeh, Reza, Ibragimov, Bulat, Helfer, Thomas, Dafflon, Jessica, Chen, Zijie, Wang, Enpei, Perko, Zoltan, and Maspero, Matteo

Subjects
Physics - Medical Physics
Abstract

Radiation therapy plays a crucial role in cancer treatment, necessitating precise delivery of radiation to tumors while sparing healthy tissues over multiple days. Computed tomography (CT) is integral for treatment planning, offering electron density data crucial for accurate dose calculations. However, accurately representing patient anatomy is challenging, especially in adaptive radiotherapy, where CT is not acquired daily. Magnetic resonance imaging (MRI) provides superior soft-tissue contrast. Still, it lacks electron density information while cone beam CT (CBCT) lacks direct electron density calibration and is mainly used for patient positioning. Adopting MRI-only or CBCT-based adaptive radiotherapy eliminates the need for CT planning but presents challenges. Synthetic CT (sCT) generation techniques aim to address these challenges by using image synthesis to bridge the gap between MRI, CBCT, and CT. The SynthRAD2023 challenge was organized to compare synthetic CT generation methods using multi-center ground truth data from 1080 patients, divided into two tasks: 1) MRI-to-CT and 2) CBCT-to-CT. The evaluation included image similarity and dose-based metrics from proton and photon plans. The challenge attracted significant participation, with 617 registrations and 22/17 valid submissions for tasks 1/2. Top-performing teams achieved high structural similarity indices (>0.87/0.90) and gamma pass rates for photon (>98.1%/99.0%) and proton (>97.3%/97.0%) plans. However, no significant correlation was found between image similarity metrics and dose accuracy, emphasizing the need for dose evaluation when assessing the clinical applicability of sCT. SynthRAD2023 facilitated the investigation and benchmarking of sCT generation techniques, providing insights for developing MRI-only and CBCT-based adaptive radiotherapy., Comment: Preprint submitted to Medical Image Analysis

Published
2024

7. AltGraph: Redesigning Quantum Circuits Using Generative Graph Models for Efficient Optimization

Author

Beaudoin, Collin, Phalak, Koustubh, and Ghosh, Swaroop

Subjects
Quantum Physics, Computer Science - Emerging Technologies, Computer Science - Machine Learning
Abstract

Quantum circuit transformation aims to produce equivalent circuits while optimizing for various aspects such as circuit depth, gate count, and compatibility with modern Noisy Intermediate Scale Quantum (NISQ) devices. There are two techniques for circuit transformation. The first is a rule-based approach that greedily cancels out pairs of gates that equate to the identity unitary operation. Rule-based approaches are used in quantum compilers such as Qiskit, tket, and Quilc. The second is a search-based approach that tries to find an equivalent quantum circuit by exploring the quantum circuits search space. Search-based approaches typically rely on machine learning techniques such as generative models and Reinforcement Learning (RL). In this work, we propose AltGraph, a novel search-based circuit transformation approach that generates equivalent quantum circuits using existing generative graph models. We use three main graph models: DAG Variational Autoencoder (D-VAE) with two variants: Gated Recurrent Unit (GRU) and Graph Convolutional Network (GCN), and Deep Generative Model for Graphs (DeepGMG) that take a Direct Acyclic Graph (DAG) of the quantum circuit as input and output a new DAG from which we reconstruct the equivalent quantum circuit. Next, we perturb the latent space to generate equivalent quantum circuits some of which may be more compatible with the hardware coupling map and/or enable better optimization leading to reduced gate count and circuit depth. AltGraph achieves on average a 37.55% reduction in the number of gates and a 37.75% reduction in the circuit depth post-transpiling compared to the original transpiled circuit with only 0.0074 Mean Squared Error (MSE) in the density matrix.

Published
2024

8. Origin of optical nonlinearity in plasmonic semiconductor nanostructures

Author

Rossetti, Andrea, Hu, Huatian, Venanzi, Tommaso, Bousseksou, Adel, De Luca, Federico, Deckert, Thomas, Giliberti, Valeria, Pea, Marialilia, Sagnes, Isabelle, Beaudoin, Gregoire, Biagioni, Paolo, Baù, Enrico, Maier, Stefan A., Tittl, Andreas, Brida, Daniele, Colombelli, Raffaele, Ortolani, Michele, and Ciracì, Cristian

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

The development of nanoscale nonlinear elements in photonic integrated circuits is hindered by the physical limits to the nonlinear optical response of dielectrics, which requires that the interacting waves propagate in transparent volumes for distances much longer than their wavelength. Here we present experimental evidence that optical nonlinearities in doped semiconductors are due to free-electron and their efficiency could exceed by several orders of magnitude that of conventional dielectric nonlinearities. Our experimental findings are supported by comprehensive computational results based on the hydrodynamic modeling, which naturally includes nonlocal effects, of the free-electron dynamics in heavily doped semiconductors. By studying third-harmonic generation from plasmonic nanoantenna arrays made out of heavily n-doped InGaAs with increasing levels of free-carrier density, we discriminate between hydrodynamic and dielectric nonlinearities. As a result, the value of maximum nonlinear efficiency as well as its spectral location can now be controlled by tuning the doping level. Having employed the common material platform InGaAs/InP that supports integrated waveguides, our findings pave the way for future exploitation of plasmonic nonlinearities in all-semiconductor photonic integrated circuits.

Published
2024

13. Time Localized Tilted Beams in Nearly-Degenerate Laser Cavities

Author

Bartolo, A., Vigne, N., Marconi, M., Beaudoin, G., Pantzas, K., Sagnes, I., Garnache, A., and Giudici, M.

Subjects
Physics - Optics
Abstract

We show that nearly degenerate Vertical External-Cavity Surface-Emitting Lasers emit tilted beams of time localized structures, i.e. mode-locked light pulses which can be individually addressed. These beams feature a Gaussian profile and they are emitted in pairs with opposite transverse k-vector. Because they are phase locked, their interference leads to a non homotetic pattern in the near-field emission of the laser. When a single pair is emitted this is a stripe pattern. Our analysis discloses the role of spherical aberrations of the cavity in stabilizing this spatio-temporal mode-locked regime and in selecting the value of the transverse wavevector.

Published
2024

14. Imaging High Jitter, Very Fast Phenomena: A Remedy for Shutter Lag

Author

Hoppis, Noah, Sturge, Kathryn M., Barney, Jonathan E., Beaudoin, Brian L., Bussio, Ariana M., Hammell, Ashley E., Henderson, Samuel L., Krutzler, James E., Lichthardt, Joseph P., Mueller, Alexander H., Smith, Karl, Tappan, Bryce C., and Koeth, Timothy W.

Subjects
Physics - Optics, Physics - Applied Physics, Physics - Instrumentation and Detectors
Abstract

Dielectric breakdown is an example of a natural phenomenon that occurs on very short time scales, making it incredibly difficult to capture optical images of the process. Event initiation jitter is one of the primary challenges, as even a microsecond of jitter time can cause the imaging attempt to fail. Initial attempts to capture images of dielectric breakdown with a gigahertz frame rate camera and an exploding bridge wire initiation were stymied by high initiation jitter. Subsequently, a novel optical delay line apparatus was developed in order to effectively circumvent the jitter and reliably image dielectric breakdown. The design and performance of the optical delay line apparatus are presented. The optical delay line increased the image capture success rate from 25% to 94% while also permitting enhanced temporal resolution and has applications for use in imaging other high-jitter, extremely fast phenomena., Comment: 11 pages, 6 figures, accepted manuscript

Published
2023
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15. Hybrid III-V/Silicon photonic circuits embedding generation and routing of entangled photon pairs

Author

Schuhmann, J., Lazzari, L., Morassi, M., Lemaitre, A., Sagnes, I., Beaudoin, G., Amanti, M. I., Boeuf, F., Raineri, F., Baboux, F., and Ducci, S.

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

The demand for integrated photonic chips combining the generation and manipulation of quantum states of light is steadily increasing, driven by the need for compact and scalable platforms for quantum information technologies. While photonic circuits with diverse functionalities are being developed in different single material platforms, it has become crucial to realize hybrid photonic circuits that harness the advantages of multiple materials while mitigating their respective weaknesses, resulting in enhanced capabilities. Here, we demonstrate a hybrid III-V/Silicon quantum photonic device combining the strong second-order nonlinearity and compliance with electrical pumping of the III-V semiconductor platform with the high maturity and CMOS compatibility of the silicon photonic platform. Our device embeds the spontaneous parametric down-conversion (SPDC) of photon pairs into an AlGaAs source and their subsequent routing to a silicon-on-insulator circuitry, within an evanescent coupling scheme managing both polarization states. This enables the on-chip generation of broadband telecom photons by type 0 and type 2 SPDC from the hybrid device, at room temperature and with internal pair generation rates exceeding $10^5$ $s^{-1}$ for both types, while the pump beam is strongly rejected. Two-photon interference with 92% visibility (and up to 99% upon 5 nm spectral filtering) proves the high energy-time entanglement quality characterizing the produced quantum state, thereby enabling a wide range of quantum information applications on-chip, within an hybrid architecture merging the assets of two mature and highly complementary platforms in view of out-of-the-lab deployment of quantum technologies.

Published
2023

16. Defining the r factor for post-trauma resilience and its neural predictors

Author

van Rooij, Sanne J. H., Santos, Justin L., Hinojosa, Cecilia A., Ely, Timothy D., Harnett, Nathaniel G., Murty, Vishnu P., Lebois, Lauren A. M., Jovanovic, Tanja, House, Stacey L., Bruce, Steven E., Beaudoin, Francesca L., An, Xinming, Neylan, Thomas C., Clifford, Gari D., Linnstaedt, Sarah D., Germine, Laura T., Bollen, Kenneth A., Rauch, Scott L., Haran, John P., Storrow, Alan B., Lewandowski, Christopher, Musey, Jr., Paul I., Hendry, Phyllis L., Sheikh, Sophia, Jones, Christopher W., Punches, Brittany E., Swor, Robert A., Pascual, Jose L., Seamon, Mark J., Harris, Erica, Pearson, Claire, Peak, David A., Merchant, Roland C., Domeier, Robert M., Rathlev, Niels K., O’Neil, Brian J., Sanchez, Leon D., Joormann, Jutta, Pizzagalli, Diego A., Sheridan, John F., Harte, Steven E., Kessler, Ronald C., Koenen, Karestan C., McLean, Samuel A., Ressler, Kerry J., and Stevens, Jennifer S.

Published
2024
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19. Disentangling sex differences in PTSD risk factors

Author

Haering, Stephanie, Seligowski, Antonia V., Linnstaedt, Sarah D., Michopoulos, Vasiliki, House, Stacey L., Beaudoin, Francesca L., An, Xinming, Neylan, Thomas C., Clifford, Gari D., Germine, Laura T., Rauch, Scott L., Haran, John P., Storrow, Alan B., Lewandowski, Christopher, Musey, Jr, Paul I., Hendry, Phyllis L., Sheikh, Sophia, Jones, Christopher W., Punches, Brittany E., Swor, Robert A., Gentile, Nina T., Hudak, Lauren A., Pascual, Jose L., Seamon, Mark J., Pearson, Claire, Peak, David A., Merchant, Roland C., Domeier, Robert M., Rathlev, Niels K., O’Neil, Brian J., Sanchez, Leon D., Bruce, Steven E., Harte, Steven E., McLean, Samuel A., Kessler, Ronald C., Koenen, Karestan C., Powers, Abigail, and Stevens, Jennifer S.

Published
2024
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20. Impact of heterozygous ALK1 mutations on the transcriptomic response to BMP9 and BMP10 in endothelial cells from hereditary hemorrhagic telangiectasia and pulmonary arterial hypertension donors

Author

Al Tabosh, T., Liu, H., Koça, D., Al Tarrass, M., Tu, L., Giraud, S., Delagrange, L., Beaudoin, M., Rivière, S., Grobost, V., Rondeau-Lutz, M., Dupuis, O., Ricard, N., Tillet, E., Machillot, P., Salomon, A., Picart, C., Battail, C., Dupuis-Girod, S., Guignabert, C., Desroches-Castan, A., and Bailly, S.

Published
2024
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21. Post-traumatic stress and future substance use outcomes: leveraging antecedent factors to stratify risk.

Author

Garrison-Desany, Henri, Meyers, Jacquelyn, Linnstaedt, Sarah, House, Stacey, Beaudoin, Francesca, An, Xinming, Zeng, Donglin, Neylan, Thomas, Clifford, Gari, Jovanovic, Tanja, Germine, Laura, Bollen, Kenneth, Rauch, Scott, Haran, John, Storrow, Alan, Lewandowski, Christopher, Musey, Paul, Hendry, Phyllis, Sheikh, Sophia, Jones, Christopher, Punches, Brittany, Swor, Robert, Gentile, Nina, Hudak, Lauren, Pascual, Jose, Seamon, Mark, Harris, Erica, Pearson, Claire, Peak, David, Domeier, Robert, Rathlev, Niels, ONeil, Brian, Sergot, Paulina, Sanchez, Leon, Bruce, Steven, Joormann, Jutta, Harte, Steven, McLean, Samuel, Koenen, Karestan, and Denckla, Christy

Subjects
alcohol, cannabis, causal forest, effect modification, post-traumatic stress disorder, socioenvironmental factors, substance use, tobacco
Abstract

BACKGROUND: Post-traumatic stress disorder (PTSD) and substance use (tobacco, alcohol, and cannabis) are highly comorbid. Many factors affect this relationship, including sociodemographic and psychosocial characteristics, other prior traumas, and physical health. However, few prior studies have investigated this prospectively, examining new substance use and the extent to which a wide range of factors may modify the relationship to PTSD. METHODS: The Advancing Understanding of RecOvery afteR traumA (AURORA) study is a prospective cohort of adults presenting at emergency departments (N = 2,943). Participants self-reported PTSD symptoms and the frequency and quantity of tobacco, alcohol, and cannabis use at six total timepoints. We assessed the associations of PTSD and future substance use, lagged by one timepoint, using the Poisson generalized estimating equations. We also stratified by incident and prevalent substance use and generated causal forests to identify the most important effect modifiers of this relationship out of 128 potential variables. RESULTS: At baseline, 37.3% (N = 1,099) of participants reported likely PTSD. PTSD was associated with tobacco frequency (incidence rate ratio (IRR): 1.003, 95% CI: 1.00, 1.01, p = 0.02) and quantity (IRR: 1.01, 95% CI: 1.001, 1.01, p = 0.01), and alcohol frequency (IRR: 1.002, 95% CI: 1.00, 1.004, p = 0.03) and quantity (IRR: 1.003, 95% CI: 1.001, 1.01, p = 0.001), but not with cannabis use. There were slight differences in incident compared to prevalent tobacco frequency and quantity of use; prevalent tobacco frequency and quantity were associated with PTSD symptoms, while incident tobacco frequency and quantity were not. Using causal forests, lifetime worst use of cigarettes, overall self-rated physical health, and prior childhood trauma were major moderators of the relationship between PTSD symptoms and the three substances investigated. CONCLUSION: PTSD symptoms were highly associated with tobacco and alcohol use, while the association with prospective cannabis use is not clear. Findings suggest that understanding the different risk stratification that occurs can aid in tailoring interventions to populations at greatest risk to best mitigate the comorbidity between PTSD symptoms and future substance use outcomes. We demonstrate that this is particularly salient for tobacco use and, to some extent, alcohol use, while cannabis is less likely to be impacted by PTSD symptoms across the strata.

Published
2024

22. Internal capsule microstructure mediates the relationship between childhood maltreatment and PTSD following adulthood trauma exposure.

Author

Wong, Samantha, Lebois, Lauren, Ely, Timothy, van Rooij, Sanne, Bruce, Steven, Murty, Vishnu, Jovanovic, Tanja, House, Stacey, Beaudoin, Francesca, An, Xinming, Zeng, Donglin, Neylan, Thomas, Clifford, Gari, Linnstaedt, Sarah, Germine, Laura, Bollen, Kenneth, Rauch, Scott, Haran, John, Storrow, Alan, Lewandowski, Christopher, Musey, Paul, Hendry, Phyllis, Sheikh, Sophia, Jones, Christopher, Punches, Brittany, Kurz, Michael, Swor, Robert, Hudak, Lauren, Pascual, Jose, Seamon, Mark, Pearson, Claire, Peak, David, Merchant, Roland, Domeier, Robert, Rathlev, Niels, ONeil, Brian, Sergot, Paulina, Sanchez, Leon, Miller, Mark, Pietrzak, Robert, Joormann, Jutta, Barch, Deanna, Pizzagalli, Diego, Harte, Steven, Elliott, James, Kessler, Ronald, Koenen, Karestan, McLean, Samuel, Ressler, Kerry, Stevens, Jennifer, and Harnett, Nathaniel

Subjects
Humans, Stress Disorders, Post-Traumatic, Male, Female, Adult, Diffusion Tensor Imaging, White Matter, Internal Capsule, Child Abuse, Adult Survivors of Child Abuse, Middle Aged, Anisotropy, Brain, Depression, Anxiety, Self Report, Young Adult
Abstract

Childhood trauma is a known risk factor for trauma and stress-related disorders in adulthood. However, limited research has investigated the impact of childhood trauma on brain structure linked to later posttraumatic dysfunction. We investigated the effect of childhood trauma on white matter microstructure after recent trauma and its relationship with future posttraumatic dysfunction among trauma-exposed adult participants (n = 202) recruited from emergency departments as part of the AURORA Study. Participants completed self-report scales assessing prior childhood maltreatment within 2-weeks in addition to assessments of PTSD, depression, anxiety, and dissociation symptoms within 6-months of their traumatic event. Fractional anisotropy (FA) obtained from diffusion tensor imaging (DTI) collected at 2-weeks and 6-months was used to index white matter microstructure. Childhood maltreatment load predicted 6-month PTSD symptoms (b = 1.75, SE = 0.78, 95% CI = [0.20, 3.29]) and inversely varied with FA in the bilateral internal capsule (IC) at 2-weeks (p = 0.0294, FDR corrected) and 6-months (p = 0.0238, FDR corrected). We observed a significant indirect effect of childhood maltreatment load on 6-month PTSD symptoms through 2-week IC microstructure (b = 0.37, Boot SE = 0.18, 95% CI = [0.05, 0.76]) that fully mediated the effect of childhood maltreatment load on PCL-5 scores (b = 1.37, SE = 0.79, 95% CI = [-0.18, 2.93]). IC microstructure did not mediate relationships between childhood maltreatment and depressive, anxiety, or dissociative symptomatology. Our findings suggest a unique role for IC microstructure as a stable neural pathway between childhood trauma and future PTSD symptoms following recent trauma. Notably, our work did not support roles of white matter tracts previously found to vary with PTSD symptoms and childhood trauma exposure, including the cingulum bundle, uncinate fasciculus, and corpus callosum. Given the IC contains sensory fibers linked to perception and motor control, childhood maltreatment might impact the neural circuits that relay and process threat-related inputs and responses to trauma.

Published
2023

23. Association between microbiome and the development of adverse posttraumatic neuropsychiatric sequelae after traumatic stress exposure.

Author

Zeamer, Abigail, Salive, Marie-Claire, An, Xinming, Beaudoin, Francesca, House, Stacey, Stevens, Jennifer, Zeng, Donglin, Neylan, Thomas, Clifford, Gari, Linnstaedt, Sarah, Rauch, Scott, Storrow, Alan, Lewandowski, Christopher, Musey, Paul, Hendry, Phyllis, Sheikh, Sophia, Jones, Christopher, Punches, Brittany, Swor, Robert, Hudak, Lauren, Pascual, Jose, Seamon, Mark, Harris, Erica, Pearson, Claire, Peak, David, Merchant, Roland, Domeier, Robert, Rathlev, Niels, ONeil, Brian, Sergot, Paulina, Sanchez, Leon, Bruce, Steven, Kessler, Ronald, Koenen, Karestan, McLean, Samuel, Bucci, Vanni, and Haran, John

Subjects
Adult, Humans, Microbiota, Stress Disorders, Post-Traumatic, Gastrointestinal Microbiome, Feces, Biological Availability
Abstract

Patients exposed to trauma often experience high rates of adverse post-traumatic neuropsychiatric sequelae (APNS). The biological mechanisms promoting APNS are currently unknown, but the microbiota-gut-brain axis offers an avenue to understanding mechanisms as well as possibilities for intervention. Microbiome composition after trauma exposure has been poorly examined regarding neuropsychiatric outcomes. We aimed to determine whether the gut microbiomes of trauma-exposed emergency department patients who develop APNS have dysfunctional gut microbiome profiles and discover potential associated mechanisms. We performed metagenomic analysis on stool samples (n = 51) from a subset of adults enrolled in the Advancing Understanding of RecOvery afteR traumA (AURORA) study. Two-, eight- and twelve-week post-trauma outcomes for post-traumatic stress disorder (PTSD) (PTSD checklist for DSM-5), normalized depression scores (PROMIS Depression Short Form 8b) and somatic symptom counts were collected. Generalized linear models were created for each outcome using microbial abundances and relevant demographics. Mixed-effect random forest machine learning models were used to identify associations between APNS outcomes and microbial features and encoded metabolic pathways from stool metagenomics. Microbial species, including Flavonifractor plautii, Ruminococcus gnavus and, Bifidobacterium species, which are prevalent commensal gut microbes, were found to be important in predicting worse APNS outcomes from microbial abundance data. Notably, through APNS outcome modeling using microbial metabolic pathways, worse APNS outcomes were highly predicted by decreased L-arginine related pathway genes and increased citrulline and ornithine pathways. Common commensal microbial species are enriched in individuals who develop APNS. More notably, we identified a biological mechanism through which the gut microbiome reduces global arginine bioavailability, a metabolic change that has also been demonstrated in the plasma of patients with PTSD.

Published
2023

24. Trends in COPD severe exacerbations, and all-cause and respiratory mortality, before and after implementation of newer long-acting bronchodilators in a large population-based cohort

Author

Charles-Antoine Guay, François Maltais, Claudia Beaudoin, Pierre-Hugues Carmichael, Elhadji Anassour Laouan Sidi, Laurie Perreault, Caroline Sirois, and Steeve Provencher

Subjects
COPD exacerbations, Fixed-dose combination, Interrupted time series, Diseases of the respiratory system, RC705-779
Abstract

Abstract Background Little is known about the trends in morbidity and mortality at the population level that followed the introduction of newer once-daily long-acting bronchodilators for COPD. The purpose of the study was to evaluate whether the availability of new bronchodilators was associated with changes in the temporal trends in severe COPD exacerbations and mortality between 2007 and 2018 in the older population with COPD; and whether this association was homogeneous across sex and socioeconomic status classes. Methods We used an interrupted time-series and three segments multivariate autoregressive models to evaluate the adjusted changes in slopes (i.e., trend effect) in monthly severe exacerbation and mortality rates after 03/2013 and 02/2015 compared to the tiotropium period (04/2007 to 02/2013). Cohorts of individuals > 65 years with COPD were created from the nationally representative database of the Quebec Integrated Chronic Disease Surveillance System in the province of Quebec, Canada. Whether these trends were similar for men and women and across different socioeconomic status classes was also assessed. Results There were 130,750 hospitalizations for severe exacerbation and 104,460 deaths, including 24,457 (23.4%) respiratory-related deaths, over the study period (928,934 person-years). Significant changes in trends were seen after 03/2013 for all-cause mortality (-1.14%/month;95%CI -1.90% to -0.38%), which further decreased after 02/2015 (-1.78%/month;95%CI -2.70% to -0.38%). Decreases in respiratory-related mortality (-2.45%/month;95%CI -4.38% to -0.47%) and severe exacerbation (-1,90%/month;95%CI -3.04% to -0.75%) rates were only observed after 02/2015. These observations tended to be more pronounced in women than in men and in higher socioeconomic status groups (less deprived) than in lower socioeconomic status groups (more deprived). Conclusions The arrival of newer bronchodilators was chronologically associated with reduced trends in severe exacerbation, all-cause and respiratory-related mortality rates among people with COPD > 65 years. Our findings document population benefits on key patient-relevant outcomes in the years following the introduction of newer once-daily long-acting bronchodilators and their combinations, which were likely multifactorial. Public health efforts should focus on closing the gap between lower and higher socioeconomic status groups.

Published
2024
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25. Deep subseafloor sediments in Guaymas Basin harbor cosmopolitan microbiota and traces of hydrothermal populations

Author

Paraskevi Mara, David Beaudoin, Ivano Aiello, Yuki Morono, David Geller-McGrath, Virginia P. Edgcomb, and Andreas Teske

Subjects
Geology, QE1-996.5, Environmental sciences, GE1-350
Abstract

Abstract Environmental factors shape subsurface microbial ecosystems, and well-characterized sites are ideal for determining how environmental parameters shape sediment communities. Sediments from eight geologically and thermally distinct sites were drilled during International Ocean Discovery Program Expedition 385 in Guaymas Basin, an expedition focused on the hydrothermal deep biosphere. Using high-throughput 16S ribosomal nucleic acid sequencing, cell counts, phylogenetics, metatranscriptomics, and mineralogical/elemental X-ray spectroscopy, we examine linkages and feedbacks between mineral composition, temperature, geochemistry, and microbial populations. We show subsurface life is dominated by heterotrophic, cosmopolitan prokaryotes that thrive within a range of sediments and temperature conditions across Guaymas Basin. Hydrothermally-affiliated lineages are detected in low numbers at sites with steepest temperature gradients, within communities of mesophilic taxa that occur throughout Guaymas Basin and in other marine subsurface habitats. Thus, hydrothermal lineages do not replace the cosmopolitan, mesophilic subsurface community, but remain specific to sites where volcanic intrusions drive hydrothermal circulation.

Published
2024
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26. A hierarchical, multi‐sensor framework for peatland sub‐class and vegetation mapping throughout the Canadian boreal forest

Author

Nicholas Pontone, Koreen Millard, Dan K. Thompson, Luc Guindon, and André Beaudoin

Subjects
Canadian boreal forest, ICESat‐2, image classification, mapping framework, peatlands, vegetation characterization, Technology, Ecology, QH540-549.5
Abstract

Abstract Peatlands in the Canadian boreal forest are being negatively impacted by anthropogenic climate change, the effects of which are expected to worsen. Peatland types and sub‐classes vary in their ecohydrological characteristics and are expected to have different responses to climate change. Large‐scale modelling frameworks such as the Canadian Model for Peatlands, the Canadian Fire Behaviour Prediction System and the Canadian Land Data Assimilation System require peatland maps including information on sub‐types and vegetation as critical inputs. Additionally, peatland class and vegetation height are critical variables for wildlife habitat management and are related to the carbon cycle and wildfire fuel loading. This research aimed to create a map of peatland sub‐classes (bog, poor fen, rich fen permafrost peat complex) for the Canadian boreal forest and create an inventory of peatland vegetation height characteristics using ICESat‐2. A three‐stage hierarchical classification framework was developed to map peatland sub‐classes within the Canadian boreal forest circa 2020. Training and validation data consisted of peatland locations derived from various sources (field data, aerial photo interpretation, measurements documented in literature). A combination of multispectral data, L‐band SAR backscatter and C‐Band interferometric SAR coherence, forest structure and ancillary variables was used as model predictors. Ancillary data were used to mask agricultural areas and urban regions and account for regions that may exhibit permafrost. In the first stage of the classification, wetlands, uplands and water were classified with 86.5% accuracy. In the second stage, within the wetland areas only, peatland and mineral wetlands were differentiated with 93.3% accuracy. In the third stage, constrained to only the peatland areas, bogs, rich fens, poor fens and permafrost peat complexes were classified with 71.5% accuracy. Then, ICESat‐2 ATL08 spaceborne lidar data were used to describe regional variations in peatland vegetation height characteristics and regional and class‐wise variations based on a boreal forest wide sample. This research introduced a comprehensive large‐scale peatland sub‐class mapping framework for the Canadian boreal forest, presenting the first moderate resolution map of its kind.

Published
2024
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27. Understanding Middle and High School Student Preferences for Acknowledgements in the Context of Schoolwide PBIS

Author

Ashli Tyre, K. Kawena Begay, Kathleen Beaudoin, and Laura Feuerborn

Abstract

When implementing schoolwide PBIS in secondary schools, creating effective acknowledgment systems for expected student behavior can be challenging. To overcome this challenge, it is helpful to understand acknowledgement preferences from the student point of view. In this study, we surveyed students in three middle, two traditional, and two alternative high schools to understand their preferences. When presented a list of options, most students endorsed positive notes sent home, free time/fun activity, and snacks. Few students endorsed eating lunch with an adult, wearing something fun, earning a special job in class, and public recognition. School leaders are encouraged to engage students directly by asking them their acknowledgement preferences and adjusting their practices to fit the preferences of their students.

Published
2024
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28. Student Perceptions of Behavior and Discipline: A PBIS Survey for Student Voice

Author

Laura L. Feuerborn, Ashli D. Tyre, Kathleen Beaudoin, and Mladen Zecevic

Abstract

Student voice is essential for PBIS, but a tool for gathering students' perspectives of PBIS is not available in the literature. The purpose of this study was to develop and validate a universal-level PBIS survey for students, the Student Perceptions of Behavior and Discipline (StPBD). This survey was designed to mobilize student engagement and guide implementation with cultural and contextual fit. Survey development was informed by literature review, feedback from users and researchers, pilot tests, and exploratory and confirmatory factor analysis. Analyses of items designed to measure aspects of school climate, student-staff relationships, and family connections confirmed these three distinct factors. Linear mixed-effect analyses revealed significant relationships between the survey, student perceptions of PBIS practices in the school, school level, discipline, and gender identity.

Published
2024
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29. OSSOS. XXIX. The Population and Perihelion Distribution of the Detached Kuiper Belt

Author

Beaudoin, Matthew, Gladman, Brett, Huang, Yukun, Bannister, Michele, Kavelaars, J. J., Petit, Jean-Marc, and Volk, Kathryn

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

The detached transneptunian objects (TNOs) are those with semimajor axes beyond the 2:1 resonance with Neptune, which are neither resonant nor scattering. Using the detached sample from the OSSOS telescopic survey, we produce the first studies of their orbital distribution based on matching the orbits and numbers of the known TNOs after accounting for survey biases. We show that the detached TNO perihelion ($q$) distribution cannot be uniform, but is instead better matched by two uniform components with a break near $q\approx40$ au. We produce parametric two-component models that are not rejectable by the OSSOS data set, and estimate that there are $36,\!000^{+12,000}_{-9,000}$ detached TNOs with absolute magnitudes $H_r < 8.66$ ($D \gtrsim 100$ km) and semimajor axes $48 < a < 250$ au (95% confidence limits). Although we believe these heuristic two-parameter models yield a correct population estimate, we then use the same methods to show that the perihelion distribution of a detached disk created by a simulated rogue planet matches the $q$ distribution even better, suggesting that the temporary presence of other planets in the early Solar System is a promising model to create today's large semimajor axis TNO population. This numerical model results in a detached TNO population estimate of $48,\!000^{+15,000}_{-12,000}$. Because this illustrates how difficult-to-detect $q>50$ au objects are likely present, we conclude that there are $(5 \pm 2)\times10^4$ dynamically detached TNOs, which are thus roughly twice as numerous as the entire transneptunian hot main belt., Comment: Accepted for publication in The Planetary Science Journal. 16 pages, 8 figures

Published
2023
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30. Predicting Side Effect of Drug Molecules using Recurrent Neural Networks

Author

Beaudoin, Collin, Phalak, Koustubh, and Ghosh, Swaroop

Subjects
Quantitative Biology - Quantitative Methods, Computer Science - Machine Learning
Abstract

Identification and verification of molecular properties such as side effects is one of the most important and time-consuming steps in the process of molecule synthesis. For example, failure to identify side effects before submission to regulatory groups can cost millions of dollars and months of additional research to the companies. Failure to identify side effects during the regulatory review can also cost lives. The complexity and expense of this task have made it a candidate for a machine learning-based solution. Prior approaches rely on complex model designs and excessive parameter counts for side effect predictions. We believe reliance on complex models only shifts the difficulty away from chemists rather than alleviating the issue. Implementing large models is also expensive without prior access to high-performance computers. We propose a heuristic approach that allows for the utilization of simple neural networks, specifically the recurrent neural network, with a 98+% reduction in the number of required parameters compared to available large language models while still obtaining near identical results as top-performing models., Comment: 6 pages, 4 figures, 2 tables

Published
2023

31. Prevalence of antibiotic use for dogs and cats in United States veterinary teaching hospitals, August 2020.

Author

Beaudoin, Amanda L, Bollig, Emma R, Burgess, Brandy A, Cohn, Leah A, Cole, Stephen D, Dear, Jonathan D, Fellman, Claire L, Frey, Erin, Goggs, Robert, Johnston, Andrea, Kreuder, Amanda J, KuKanich, Kate S, LeCuyer, Tessa E, Menard, Julie, Reagan, Krystle L, Sykes, Jane E, Veir, Julia K, Viviano, Katrina, Wayne, Annie, and Granick, Jennifer L

Subjects
antibiotic indication, antibiotic measurement, antibiotic prophylaxis, antibiotic resistance, antibiotic stewardship, cats, dogs, Infectious Diseases, Infection, Veterinary Sciences
Abstract

BackgroundAwareness of prescribing practices helps identify opportunities to improve antibiotic use (AU).ObjectivesTo estimate AU prevalence in dogs and cats in U.S. veterinary teaching hospitals (VTHs) and identify antibiotic drugs commonly prescribed, indications for use, and evidence of bacterial infection.AnimalsMedical record data were collected from dogs and cats examined at 14 VTHs.MethodsData were collected from VTH medical records of dogs and cats examined by primary care, urgent care, emergency and critical care, internal medicine, and surgery services on a single day during August 13-September 3, 2020. Data included signalment; clinical service; inpatient or outpatient status; clinical conditions; diagnostic tests; evidence of bacterial infection; intended reason for AU; name and route of antibiotics prescribed.ResultsOf 883 dogs and cats, 322 (36.5%) were prescribed at least 1 antibiotic. Among 285 antibiotics administered systemically intended for treatment of infection, 10.9% were prescribed without evidence of infection. The most common class of antibiotics presribed for systemic administration was potentiated penicillin for dogs (115/346, 33.3%) and cats (27/80, 33.8%). For dogs and cats, first-generation cephalosporins (93/346, 26.9% and 11/80, 13.8%, respectively) and fluoroquinolones (51/346, 14.7% and 19/80, 23.8%, respectively) was second or third most-prescribed. Common AU indications included skin, respiratory, and urinary conditions, and perioperative use.Conclusions and clinical importanceCollaborative data collection provides a sustainable methodology to generate national AU prevalence estimates and bring attention to areas requiring additional research and detailed data collection. These efforts can also identify practice improvement opportunities in settings where future veterinarians are trained.

Published
2023

37. A phase IIb randomized placebo-controlled trial testing the effect of MAG-EPA long-chain omega-3 fatty acid dietary supplement on prostate cancer proliferation

Author

Robitaille, Karine, Guertin, Marie-Hélène, Jamshidi, Afshin, Xu, Hui Wen, Hovington, Hélène, Pelletier, Jean-François, Beaudoin, Lisanne, Gevariya, Nikunj, Lacombe, Louis, Tiguert, Rabi, Caumartin, Yves, Dujardin, Thierry, Toren, Paul, Lodde, Michele, Racine, Étienne, Trudel, Dominique, Perigny, Martine, Duchesne, Thierry, Savard, Josée, Julien, Pierre, Fradet, Yves, and Fradet, Vincent

Published
2024
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40. High-Degree Splines from Discrete Fourier Transforms: Robust Methods to Obtain the Boundary Conditions

Author

Pepin, A., Léger, S., and Beaudoin, N.

Subjects
Mathematics - Numerical Analysis
Abstract

Computing accurate splines of degree greater than three is still a challenging task in today's applications. In this type of interpolation, high-order derivatives are needed on the given mesh. As these derivatives are rarely known and are often not easy to approximate accurately, high-degree splines are difficult to obtain using standard approaches. In Beaudoin (1998), Beaudoin and Beauchemin (2003), and Pepin et al. (2019), a new method to compute spline approximations of low or high degree from equidistant interpolation nodes based on the discrete Fourier transform is analyzed. The accuracy of this method greatly depends on the accuracy of the boundary conditions. An algorithm for the computation of the boundary conditions can be found in Beaudoin (1998), and Beaudoin and Beauchemin (2003). However, this algorithm lacks robustness since the approximation of the boundary conditions is strongly dependant on the choice of $\theta$ arbitrary parameters, $\theta$ being the degree of the spline. The goal of this paper is therefore to propose two new robust algorithms, independent of arbitrary parameters, for the computation of the boundary conditions in order to obtain accurate splines of any degree. Numerical results will be presented to show the efficiency of these new approaches.

Published
2023
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41. Local delivery of accutox® synergises with immune-checkpoint inhibitors at disrupting tumor growth

Author

Jean Pierre Bikorimana, Nehme El-Hachem, Jamilah Abusarah, Marina Pereira Gonçalves, Roudy Farah, Gabrielle A. Mandl, Sebastien Talbot, Simon Beaudoin, Daniela Stanga, Sebastien Plouffe, and Moutih Rafei

Subjects
AccuTOX®, Cancer immunotherapy, Immunogenic cell death, Reactive oxygen species, Endosomal escape, Antigen presentation, Medicine
Abstract

Abstract Background The Accum® platform was initially designed to accumulate biomedicines in target cells by inducing endosomal-to-cytosol escape. Interestingly however, the use of unconjugated Accum® was observed to trigger cell death in a variety of cancer cell lines; a property further exploited in the development of Accum®-based anti-cancer therapies. Despite the impressive pro-killing abilities of the parent molecule, some cancer cell lines exhibited resistance. This prompted us to test additional Accum® variants, which led to the identification of the AccuTOX® molecule. Methods A series of flow-cytometry and cell-based assays were used to assess the pro-killing properties of AccuTOX® along with its ability to trigger the production of reactive oxygen species (ROS), endosomal breaks and antigen presentation. RNA-seq was also conducted to pinpoint the most prominent processes modulated by AccuTOX® treatment in EL4 T-cell lymphoma. Finally, the therapeutic potency of intratumorally-injected AccuTOX® was evaluated in three different murine solid tumor models (EL4, E0771 and B16) both as a monotherapy or in combination with three immune-checkpoint inhibitors (ICI). Results In total, 7 Accum® variants were screened for their ability to induce complete cell death in 3 murine (EL4, B16 and E0771) and 3 human (MBA-MD-468, A549, and H460) cancer cell lines of different origins. The selected compound (hereafter refereed to as AccuTOX®) displayed an improved killing efficiency (~ 5.5 fold compared to the parental Accum®), while retaining its ability to trigger immunogenic cell death, ROS production, and endosomal breaks. Moreover, transcriptomic analysis revealed that low dose AccuTOX® enhances H2-Kb cell surface expression as well as antigen presentation in cancer cells. The net outcome culminates in impaired T-cell lymphoma, breast cancer and melanoma growth in vivo especially when combined with anti-CD47, anti-CTLA-4 or anti-PD-1 depending on the animal model. Conclusions AccuTOX® exhibits enhanced cancer killing properties, retains all the innate characteristics displayed by the parental Accum® molecule, and synergizes with various ICI in controlling tumor growth. These observations will certainly pave the path to continue the clinical development of this lead compound against multiple solid tumor indications. Graphical Abstract

Published
2024
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42. Patients as teachers: a within-subjects randomized pilot experiment of patient-led online learning modules for health professionals

Author

Ruth Ndjaboue, Caroline Beaudoin, Sandrine Comeau, Anne Dagnault, Maman Joyce Dogba, Sarah Numainville, Charles Racine, Sharon Straus, Marie-Claude Tremblay, and Holly O. Witteman

Subjects
Equity, Diversity, Inclusion, Patient partnership, Online learning, Special aspects of education, LC8-6691, Medicine
Abstract

Abstract Purpose Many health professions education programs involve people with lived experience as expert speakers. Such presentations may help learners better understand the realities of living with chronic illness or experiencing an acute health problem. However, lectures from only one or a small number of people may not adequately illustrate the perspectives and experiences of a diverse patient cohort. Additionally, logistical constraints such as public health restrictions or travel barriers may impede in-person presentations, particularly among people who have more restrictions on their time. Health professions education programs may benefit from understanding the potential effects of online patient-led presentations with a diverse set of speakers. We aimed to explore whether patient-led online learning modules about diabetes care would influence learners’ responses to clinical scenarios and to collect learners’ feedback about the modules. Method This within-subjects randomized experiment involved 26 third-year medical students at Université Laval in Quebec, Canada. Participation in the experiment was an optional component within a required course. Prior to the intervention, participating learners responded to three clinical scenarios randomly selected from a set of six such scenarios. Each participant responded to the other three scenarios after the intervention. The intervention consisted of patient-led online learning modules incorporating segments of narratives from 21 patient partners (11 racialized or Indigenous) describing why and how clinicians could provide patient-centered care. Working with clinical teachers and psychometric experts, we developed a scoring grid based on the biopsychosocial model and set 0.6 as a passing score. Independent evaluators, blinded to whether each response was collected before or after the intervention, then scored learners’ responses to scenarios using the grid. We used Fisher’s Exact test to compare proportions of passing scores before and after the intervention. Results Learners’ overall percentage of passing scores prior to the intervention was 66%. Following the intervention, the percentage of passing scores was 76% (p = 0.002). Overall, learners expressed appreciation and other positive feedback regarding the patient-led online learning modules. Discussion Findings from this experiment suggest that learners can learn to provide better patient-centered care by watching patient-led online learning modules created in collaboration with a diversity of patient partners.

Published
2024
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43. Structural inequities contribute to racial/ethnic differences in neurophysiological tone, but not threat reactivity, after trauma exposure.

Author

Harnett, Nathaniel, Fani, Negar, Carter, Sierra, Sanchez, Leon, Rowland, Grace, Davie, William, Guzman, Camilo, Lebois, Lauren, Ely, Timothy, van Rooij, Sanne, Seligowski, Antonia, Winters, Sterling, Grasser, Lana, Musey, Paul, Seamon, Mark, House, Stacey, Beaudoin, Francesca, An, Xinming, Zeng, Donglin, Neylan, Thomas, Clifford, Gari, Linnstaedt, Sarah, Germine, Laura, Bollen, Kenneth, Rauch, Scott, Haran, John, Storrow, Alan, Lewandowski, Christopher, Hendry, Phyllis, Sheikh, Sophia, Jones, Christopher, Punches, Brittany, Swor, Robert, Hudak, Lauren, Pascual, Jose, Harris, Erica, Chang, Anna, Pearson, Claire, Peak, David, Merchant, Roland, Domeier, Robert, Rathlev, Niels, Bruce, Steven, Miller, Mark, Pietrzak, Robert, Joormann, Jutta, Barch, Deanna, Pizzagalli, Diego, Harte, Steven, Elliott, James, Kessler, Ronald, Koenen, Karestan, McLean, Samuel, Jovanovic, Tanja, Stevens, Jennifer, and Ressler, Kerry

Subjects
Humans, Longitudinal Studies, Fear, Stress Disorders, Post-Traumatic, Amygdala, Gyrus Cinguli, Magnetic Resonance Imaging, Prefrontal Cortex
Abstract

Considerable racial/ethnic disparities persist in exposure to life stressors and socioeconomic resources that can directly affect threat neurocircuitry, particularly the amygdala, that partially mediates susceptibility to adverse posttraumatic outcomes. Limited work to date, however, has investigated potential racial/ethnic variability in amygdala reactivity or connectivity that may in turn be related to outcomes such as post-traumatic stress disorder (PTSD). Participants from the AURORA study (n = 283), a multisite longitudinal study of trauma outcomes, completed functional magnetic resonance imaging and psychophysiology within approximately two-weeks of trauma exposure. Seed-based amygdala connectivity and amygdala reactivity during passive viewing of fearful and neutral faces were assessed during fMRI. Physiological activity was assessed during Pavlovian threat conditioning. Participants also reported the severity of posttraumatic symptoms 3 and 6 months after trauma. Black individuals showed lower baseline skin conductance levels and startle compared to White individuals, but no differences were observed in physiological reactions to threat. Further, Hispanic and Black participants showed greater amygdala connectivity to regions including the dorsolateral prefrontal cortex (PFC), dorsal anterior cingulate cortex, insula, and cerebellum compared to White participants. No differences were observed in amygdala reactivity to threat. Amygdala connectivity was associated with 3-month PTSD symptoms, but the associations differed by racial/ethnic group and were partly driven by group differences in structural inequities. The present findings suggest variability in tonic neurophysiological arousal in the early aftermath of trauma between racial/ethnic groups, driven by structural inequality, impacts neural processes that mediate susceptibility to later PTSD symptoms.

Published
2023

45. Tracking exceptional points above laser threshold

Author

Ji, Kaiwen, Zhong, Qi, Ge, Li, Beaudoin, Gregoire, Sagnes, Isabelle, Raineri, Fabrice, El-Ganainy, Ramy, and Yacomotti, Alejandro M.

Subjects
Physics - Optics
Abstract

Recent studies on non-Hermitian optical systems having exceptional points (EPs) have revealed a host of unique characteristics associated with these singularities, including unidirectional invisibility, chiral mode switching and laser self-termination, to mention just a few examples. The vast majority of these works focused either on passive systems or active structures where the EPs were accessed below the lasing threshold, i.e. when the system description is inherently linear. In this work, we experimentally demonstrate that EP singularities in coupled semiconductor nanolasers can be accessed and tracked above the lasing threshold, where they become branch points of a nonlinear dynamical system. Contrary to the common belief that unavoidable cavity detuning will impede the formation of an EP, here we demonstrate that this same detuning is necessary for compensating the carrier-induced frequency shift, hence restoring the nonlinear EP in the lasing regime. Furthermore, unlike linear non-Hermitian systems, we find that the spectral location of EPs above laser threshold varies as a function of total pump power and can therefore be continuously tracked. Our work is a first step towards the realization of lasing EPs in more complex laser geometries, and enabling the enhancement of photonic local density of states through non-Hermitian symmetries combined with nonlinear interactions in coupled laser arrays.

Published
2022

46. Energy-based Generative Models for Target-specific Drug Discovery

Author

Li, Junde, Beaudoin, Collin, and Ghosh, Swaroop

Subjects
Computer Science - Machine Learning
Abstract

Drug targets are the main focus of drug discovery due to their key role in disease pathogenesis. Computational approaches are widely applied to drug development because of the increasing availability of biological molecular datasets. Popular generative approaches can create new drug molecules by learning the given molecule distributions. However, these approaches are mostly not for target-specific drug discovery. We developed an energy-based probabilistic model for computational target-specific drug discovery. Results show that our proposed TagMol can generate molecules with similar binding affinity scores as real molecules. GAT-based models showed faster and better learning relative to GCN baseline models.

Published
2022

47. Effect of aortic valve phenotype and sex on aorta dilation in patients with aortic stenosis

Author

Erwan Salaun, Philippe Pibarot, Mylène Shen, Romain Capoulade, Lionel Tastet, Élisabeth Bédard, Marie Arsenault, Philippe Chetaille, Jonathan Beaudoin, Mathieu Bernier, Nancy Côté, Jérémy Bernard, Marie-Ange Fleury, Kathia Abdoun, and Sébastien Hecht

Subjects
Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Background Bicuspid aortic valve (BAV) is often associated with a concomitant aortopathy. However, few studies have evaluated the effect of the aortic valve (AV) phenotype on the rate of dilation of the aorta. This study aimed to compare the progression rate of aorta dimensions according to AV phenotype (BAV vs tricuspid AV (TAV)), fusion type and sex in patients with aortic stenosis (AS).Methods 310 patients with AS (224 TAV and 86 BAV) recruited in the Metabolic Determinants of the Progression of Aortic Stenosis study (PROGRESSA, NCT01679431) were included in this analysis. Doppler echocardiography was performed annually to assess AS severity and measure ascending aorta (AA) dimensions. Baseline and last follow-up visit measurements were used to assess the annualised change.Results Median AA annualised change was larger in BAV versus TAV (0.33±0.65 mm/year vs 0.21±0.56 mm/year, p=0.04). In the whole cohort, BAV phenotype and higher low-density lipoprotein (LDL) levels were significantly associated with fast progression of AA dilation in univariate analysis (OR 1.80, 95% CI 1.08 to 2.98, p=0.02; 1.37, 95% CI 1.04 to 1.80, p=0.03, respectively). AA dilation rate did not vary according to the BAV subtype (p=0.142). Predictors of AA progression rate were different between valve phenotypes, with higher apolipoprotein B/apolipoprotein A-I ratio, higher baseline peak aortic jet velocity (Vpeak) and smaller baseline AA diameter in the TAV cohort (all p

Published
2024
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48. Proteomics fingerprinting reveals importance of iron and oxidative stress in Streptomyces scabies–Solanum tuberosum interactions

Author

Lauriane Giroux, Iauhenia Isayenka, Sylvain Lerat, Nathalie Beaudoin, and Carole Beaulieu

Subjects
common scab, iron, proteomics, oxidative stress, potato, Streptomyces scabies, Microbiology, QR1-502
Abstract

IntroductionThe Gram-positive actinobacterium Streptomyces scabies is the major causal agent of potato common scab. The main pathogenicity factor is thaxtomin A, a phytotoxin that causes atypical cell death, although other secondary metabolites have been described to play a role in S. scabies virulence. Despite this, many aspects of the interaction between S. scabies and its primary host Solanum tuberosum L. remain to be elucidated.MethodsIntracellular proteins of S. scabies EF-35 grown in the presence of in vitro produced tubers (microtubers) of the Russet Burbank and Yukon Gold potato cultivars were extracted and analysed by electrospray mass spectrometry (ES MS/MS). Based on the results of proteomic analysis, iron quantification by ICP-MS and nitrite quantification using Griess reagent in growth media as well as RT-qPCR analysis of the siderophore pyochelin gene expression were performed in the presence and absence of microtubers. Hydrogen peroxide accumulation was also determined in the nutrient medium used for co-cultivation of bacteria and potato microtubers.ResultsPotato microtubers caused an increase in the content of bacterial proteins involved in stress and defense, secondary metabolism, and cell differentiation, as well as secreted proteins. Co-cultivation with potato microtubers induced the accumulation of S. scabies proteins implicated in siderophore pyochelin biosynthesis, nitrite production and oxidative stress perception and response. The increase in the abundance of proteins related to pyochelin biosynthesis was consistent with a significant decrease in the iron content in the culture medium, as well as with induction of expression of pyochelin biosynthesis genes. Elevated nitrite/sulfite reductase protein levels were associated with increased nitrite excretion by S. scabies cells in the presence of host microtubers. The increase in the levels of proteins associated with signaling and oxidative stress response could have been caused by the accumulation of ROS, in particular hydrogen peroxide, detected in the studied system.DiscussionThese findings show that interactions of S. scabies with living potato microtubers induce the production of secondary metabolites, defense responses, and protection from oxidative stress. This study suggests the importance of iron during host - S. scabies interactions, resulting in competition between pathogen and its host.

Published
2024
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49. Endovascular treatment of an iatrogenic right subclavian artery pseudoaneurysm associated with an arteriovenous fistula

Author

Hubert Provost, MD, Xavier Hommery-Boucher, MD, Laura M. Drudi, MD, Nathalie Beaudoin, MD, Marie-Jo Plamondon, MD, and Philippe Charbonneau, MD

Subjects
Subclavian artery aneurysm, Arteriovenous fistula, Iatrogenic, Covered stent, Coiling, Surgery, RD1-811, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

This report describes the case of a frail 36-year-old patient who underwent an endovascular treatment of a right subclavian artery pseudoaneurysm (SAP) associated with an arteriovenous fistula secondary to a traumatic central venous catheter insertion. The deployment of a covered stent from the innominate to the right common carotid artery combined with coiling of the SAP and the internal mammary artery was performed. Two additional covered stents were deployed from the vertebral artery to the distal subclavian artery to preserve right upper extremity circulation. This case highlights the feasibility of an endovascular treatment of a complex SAP in a candidate unsuitable for open surgery.

Published
2024
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50. Derivation and Validation of a Brief Emergency Department-Based Prediction Tool for Posttraumatic Stress After Motor Vehicle Collision.

Author

Jones, Christopher, An, Xinming, Ji, Yinyao, Liu, Mochuan, Zeng, Donglin, House, Stacey, Beaudoin, Francesca, Stevens, Jennifer, Neylan, Thomas, Clifford, Gari, Jovanovic, Tanja, Linnstaedt, Sarah, Germine, Laura, Bollen, Kenneth, Rauch, Scott, Haran, John, Storrow, Alan, Lewandowski, Christopher, Musey, Paul, Hendry, Phyllis, Sheikh, Sophia, Punches, Brittany, Lyons, Michael, Kurz, Michael, Swor, Robert, McGrath, Meghan, Hudak, Lauren, Pascual, Jose, Seamon, Mark, Datner, Elizabeth, Harris, Erica, Chang, Anna, Pearson, Claire, Peak, David, Merchant, Roland, Domeier, Robert, Rathlev, Niels, ONeil, Brian, Sergot, Paulina, Sanchez, Leon, Bruce, Steven, Miller, Mark, Pietrzak, Robert, Joormann, Jutta, Barch, Deanna, Pizzagalli, Diego, Sheridan, John, Smoller, Jordan, Harte, Steven, Elliott, James, Koenen, Karestan, Ressler, Kerry, Kessler, Ronald, and McLean, Samuel

Subjects
Adult, Humans, Stress Disorders, Post-Traumatic, Emergency Service, Hospital, Accidents, Traffic, Motor Vehicles
Abstract

STUDY OBJECTIVE: To derive and initially validate a brief bedside clinical decision support tool that identifies emergency department (ED) patients at high risk of substantial, persistent posttraumatic stress symptoms after a motor vehicle collision. METHODS: Derivation (n=1,282, 19 ED sites) and validation (n=282, 11 separate ED sites) data were obtained from adults prospectively enrolled in the Advancing Understanding of RecOvery afteR traumA study who were discharged from the ED after motor vehicle collision-related trauma. The primary outcome was substantial posttraumatic stress symptoms at 3 months (Posttraumatic Stress Disorder Checklist for Diagnostic and Statistical Manual of Mental Disorders-5 ≥38). Logistic regression derivation models were evaluated for discriminative ability using the area under the curve and the accuracy of predicted risk probabilities (Brier score). Candidate posttraumatic stress predictors assessed in these models (n=265) spanned a range of sociodemographic, baseline health, peritraumatic, and mechanistic domains. The final model selection was based on performance and ease of administration. RESULTS: Significant 3-month posttraumatic stress symptoms were common in the derivation (27%) and validation (26%) cohort. The area under the curve and Brier score of the final 8-question tool were 0.82 and 0.14 in the derivation cohort and 0.76 and 0.17 in the validation cohort. CONCLUSION: This simple 8-question tool demonstrates promise to risk-stratify individuals with substantial posttraumatic stress symptoms who are discharged to home after a motor vehicle collision. Both external validation of this instrument, and work to further develop more accurate tools, are needed. Such tools might benefit public health by enabling the conduct of preventive intervention trials and assisting the growing number of EDs that provide services to trauma survivors aimed at promoting psychological recovery.

Published
2023

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