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1. Hypothalamic deep brain stimulation augments walking after spinal cord injury

Author

Cho, Newton, Squair, Jordan W., Aureli, Viviana, James, Nicholas D., Bole-Feysot, Léa, Dewany, Inssia, Hankov, Nicolas, Baud, Laetitia, Leonhartsberger, Anna, Sveistyte, Kristina, Skinnider, Michael A., Gautier, Matthieu, Laskaratos, Achilleas, Galan, Katia, Goubran, Maged, Ravier, Jimmy, Merlos, Frederic, Batti, Laura, Pages, Stéphane, Berard, Nadia, Intering, Nadine, Varescon, Camille, Watrin, Anne, Duguet, Léa, Carda, Stefano, Bartholdi, Kay A., Hutson, Thomas H., Kathe, Claudia, Hodara, Michael, Anderson, Mark A., Draganski, Bogdan, Demesmaeker, Robin, Asboth, Leonie, Barraud, Quentin, Bloch, Jocelyne, and Courtine, Grégoire

Published
2024
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2. A spinal cord neuroprosthesis for locomotor deficits due to Parkinson’s disease

Author

Milekovic, Tomislav, Moraud, Eduardo Martin, Macellari, Nicolo, Moerman, Charlotte, Raschellà, Flavio, Sun, Shiqi, Perich, Matthew G., Varescon, Camille, Demesmaeker, Robin, Bruel, Alice, Bole-Feysot, Léa N., Schiavone, Giuseppe, Pirondini, Elvira, YunLong, Cheng, Hao, Li, Galvez, Andrea, Hernandez-Charpak, Sergio Daniel, Dumont, Gregory, Ravier, Jimmy, Le Goff-Mignardot, Camille G., Mignardot, Jean-Baptiste, Carparelli, Gaia, Harte, Cathal, Hankov, Nicolas, Aureli, Viviana, Watrin, Anne, Lambert, Hendrik, Borton, David, Laurens, Jean, Vollenweider, Isabelle, Borgognon, Simon, Bourre, François, Goillandeau, Michel, Ko, Wai Kin D., Petit, Laurent, Li, Qin, Buschman, Rik, Buse, Nicholas, Yaroshinsky, Maria, Ledoux, Jean-Baptiste, Becce, Fabio, Jimenez, Mayté Castro, Bally, Julien F., Denison, Timothy, Guehl, Dominique, Ijspeert, Auke, Capogrosso, Marco, Squair, Jordan W., Asboth, Leonie, Starr, Philip A., Wang, Doris D., Lacour, Stéphanie P., Micera, Silvestro, Qin, Chuan, Bloch, Jocelyne, Bezard, Erwan, and Courtine, G.

Published
2023
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3. Walking naturally after spinal cord injury using a brain–spine interface

Author

Lorach, Henri, Galvez, Andrea, Spagnolo, Valeria, Martel, Felix, Karakas, Serpil, Intering, Nadine, Vat, Molywan, Faivre, Olivier, Harte, Cathal, Komi, Salif, Ravier, Jimmy, Collin, Thibault, Coquoz, Laure, Sakr, Icare, Baaklini, Edeny, Hernandez-Charpak, Sergio Daniel, Dumont, Gregory, Buschman, Rik, Buse, Nicholas, Denison, Tim, van Nes, Ilse, Asboth, Leonie, Watrin, Anne, Struber, Lucas, Sauter-Starace, Fabien, Langar, Lilia, Auboiroux, Vincent, Carda, Stefano, Chabardes, Stephan, Aksenova, Tetiana, Demesmaeker, Robin, Charvet, Guillaume, Bloch, Jocelyne, and Courtine, Grégoire

Published
2023
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4. The neurons that restore walking after paralysis

Author

Kathe, Claudia, Skinnider, Michael A., Hutson, Thomas H., Regazzi, Nicola, Gautier, Matthieu, Demesmaeker, Robin, Komi, Salif, Ceto, Steven, James, Nicholas D., Cho, Newton, Baud, Laetitia, Galan, Katia, Matson, Kaya J. E., Rowald, Andreas, Kim, Kyungjin, Wang, Ruijia, Minassian, Karen, Prior, John O., Asboth, Leonie, Barraud, Quentin, Lacour, Stéphanie P., Levine, Ariel J., Wagner, Fabien, Bloch, Jocelyne, Squair, Jordan W., and Courtine, Grégoire

Published
2022
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5. Augmented Slepians: Bandlimited Functions that Counterbalance Energy in Selected Intervals

Author

Demesmaeker, Robin, Preti, Maria Giulia, and Van De Ville, Dimitri

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Slepian functions provide a solution to the optimization problem of joint time-frequency localization. Here, this concept is extended by using a generalized optimization criterion that favors energy concentration in one interval while penalizing energy in another interval, leading to the "augmented" Slepian functions. Mathematical foundations together with examples are presented in order to illustrate the most interesting properties that these generalized Slepian functions show. Also the relevance of this novel energy-concentration criterion is discussed along with some of its applications.

Published
2017
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6. Guiding Network Analysis using Graph Slepians: An Illustration for the C. Elegans Connectome

Author

Van De Ville, Dimitri, Demesmaeker, Robin, and Preti, Maria Giulia

Subjects
Computer Science - Learning, Quantitative Biology - Neurons and Cognition
Abstract

Spectral approaches of network analysis heavily rely upon the eigendecomposition of the graph Laplacian. For instance, in graph signal processing, the Laplacian eigendecomposition is used to define the graph Fourier transform and then transpose signal processing operations to graphs by implementing them in the spectral domain. Here, we build on recent work that generalized Slepian functions to the graph setting. In particular, graph Slepians are band-limited graph signals with maximal energy concentration in a given subgraph. We show how this approach can be used to guide network analysis; i.e., we propose a visualization that reveals network organization of a subgraph, but while striking a balance with global network structure. These developments are illustrated for the structural connectome of the C. Elegans., Comment: 7 pages, 2 figures, Proceedings of the SPIE Wavelets & Sparsity XVII (August 2017)

Published
2017

7. Activity-dependent spinal cord neuromodulation rapidly restores trunk and leg motor functions after complete paralysis

Author

Rowald, Andreas, Komi, Salif, Demesmaeker, Robin, Baaklini, Edeny, Hernandez-Charpak, Sergio Daniel, Paoles, Edoardo, Montanaro, Hazael, Cassara, Antonino, Becce, Fabio, Lloyd, Bryn, Newton, Taylor, Ravier, Jimmy, Kinany, Nawal, D’Ercole, Marina, Paley, Aurélie, Hankov, Nicolas, Varescon, Camille, McCracken, Laura, Vat, Molywan, Caban, Miroslav, Watrin, Anne, Jacquet, Charlotte, Bole-Feysot, Léa, Harte, Cathal, Lorach, Henri, Galvez, Andrea, Tschopp, Manon, Herrmann, Natacha, Wacker, Moïra, Geernaert, Lionel, Fodor, Isabelle, Radevich, Valentin, Van Den Keybus, Katrien, Eberle, Grégoire, Pralong, Etienne, Roulet, Maxime, Ledoux, Jean-Baptiste, Fornari, Eleonora, Mandija, Stefano, Mattera, Loan, Martuzzi, Roberto, Nazarian, Bruno, Benkler, Stefan, Callegari, Simone, Greiner, Nathan, Fuhrer, Benjamin, Froeling, Martijn, Buse, Nik, Denison, Tim, Buschman, Rik, Wende, Christian, Ganty, Damien, Bakker, Jurriaan, Delattre, Vincent, Lambert, Hendrik, Minassian, Karen, van den Berg, Cornelis A. T., Kavounoudias, Anne, Micera, Silvestro, Van De Ville, Dimitri, Barraud, Quentin, Kurt, Erkan, Kuster, Niels, Neufeld, Esra, Capogrosso, Marco, Asboth, Leonie, Wagner, Fabien B., Bloch, Jocelyne, and Courtine, Grégoire

Published
2022
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8. THE NEURONAL ARCHITECTURE OF AUTONOMIC DYSREFLEXIA

Author

Soriano, Jan Elaine, primary, Hudelle, Remi, additional, Mahe, Lois, additional, Gautier, Matthieu, additional, Teo, Yue Yang, additional, Skinnider, Michael A, additional, Laskaratos, Achilleas, additional, Ceto, Steven, additional, Kathe, Claudia, additional, Hutson, Thomas, additional, Charbonneau, Rebecca, additional, Girgis, Fady, additional, Casha, Steve, additional, Rimok, Julien, additional, Tso, Marcus, additional, Larkin-Kaiser, Kelly, additional, Hankov, Nicolas, additional, Gandhi, Aasta, additional, Amir, Suje, additional, Kang, Xiaoyang, additional, Vyza, Yashwanth, additional, Martin-Moraud, Eduardo, additional, Lacour, Stephanie, additional, Demesmaeker, Robin, additional, Asboth, Leonie, additional, Barraud, Quentin, additional, Anderson, Mark A, additional, Bloch, Jocelyne, additional, Squair, Jordan W, additional, Phillips, Aaron A, additional, and Courtine, Gregoire, additional

Published
2024
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9. When Slepian Meets Fiedler: Putting a Focus on the Graph Spectrum

Author

Van De Ville, Dimitri, Demesmaeker, Robin, and Preti, Maria Giulia

Subjects
Computer Science - Learning, Computer Science - Computer Vision and Pattern Recognition
Abstract

The study of complex systems benefits from graph models and their analysis. In particular, the eigendecomposition of the graph Laplacian lets emerge properties of global organization from local interactions; e.g., the Fiedler vector has the smallest non-zero eigenvalue and plays a key role for graph clustering. Graph signal processing focusses on the analysis of signals that are attributed to the graph nodes. The eigendecomposition of the graph Laplacian allows to define the graph Fourier transform and extend conventional signal-processing operations to graphs. Here, we introduce the design of Slepian graph signals, by maximizing energy concentration in a predefined subgraph for a graph spectral bandlimit. We establish a novel link with classical Laplacian embedding and graph clustering, which provides a meaning to localized graph frequencies., Comment: 4 pages, 5 figures, submitted to IEEE Signal Processing Letters

Published
2017
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10. Neuroprosthetic baroreflex controls haemodynamics after spinal cord injury

Author

Squair, Jordan W., Gautier, Matthieu, Mahe, Lois, Soriano, Jan Elaine, Rowald, Andreas, Bichat, Arnaud, Cho, Newton, Anderson, Mark A., James, Nicholas D., Gandar, Jerome, Incognito, Anthony V., Schiavone, Giuseppe, Sarafis, Zoe K., Laskaratos, Achilleas, Bartholdi, Kay, Demesmaeker, Robin, Komi, Salif, Moerman, Charlotte, Vaseghi, Bita, Scott, Berkeley, Rosentreter, Ryan, Kathe, Claudia, Ravier, Jimmy, McCracken, Laura, Kang, Xiaoyang, Vachicouras, Nicolas, Fallegger, Florian, Jelescu, Ileana, Cheng, YunLong, Li, Qin, Buschman, Rik, Buse, Nicolas, Denison, Tim, Dukelow, Sean, Charbonneau, Rebecca, Rigby, Ian, Boyd, Steven K., Millar, Philip J., Moraud, Eduardo Martin, Capogrosso, Marco, Wagner, Fabien B., Barraud, Quentin, Bezard, Erwan, Lacour, Stéphanie P., Bloch, Jocelyne, Courtine, Grégoire, and Phillips, Aaron A.

Published
2021
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11. Targeted neurotechnology restores walking in humans with spinal cord injury

Author

Wagner, Fabien B., Mignardot, Jean-Baptiste, Le Goff-Mignardot, Camille G., Demesmaeker, Robin, Komi, Salif, Capogrosso, Marco, Rowald, Andreas, Seáñez, Ismael, Caban, Miroslav, Pirondini, Elvira, Vat, Molywan, McCracken, Laura A., Heimgartner, Roman, Fodor, Isabelle, Watrin, Anne, Seguin, Perrine, Paoles, Edoardo, Van Den Keybus, Katrien, Eberle, Grégoire, Schurch, Brigitte, Pralong, Etienne, Becce, Fabio, Prior, John, Buse, Nicholas, Buschman, Rik, Neufeld, Esra, Kuster, Niels, Carda, Stefano, von Zitzewitz, Joachim, Delattre, Vincent, Denison, Tim, Lambert, Hendrik, Minassian, Karen, Bloch, Jocelyne, and Courtine, Grégoire

Published
2018
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13. Activity-dependent spinal cord neuromodulation rapidly restores trunk and leg motor functions after complete paralysis

Author

Computational Imaging, Cancer, Highfield Research Group, Brain, Circulatory Health, Rowald, Andreas, Komi, Salif, Demesmaeker, Robin, Baaklini, Edeny, Hernandez-Charpak, Sergio Daniel, Paoles, Edoardo, Montanaro, Hazael, Cassara, Antonino, Becce, Fabio, Lloyd, Bryn, Newton, Taylor, Ravier, Jimmy, Kinany, Nawal, D'Ercole, Marina, Paley, Aurélie, Hankov, Nicolas, Varescon, Camille, McCracken, Laura, Vat, Molywan, Caban, Miroslav, Watrin, Anne, Jacquet, Charlotte, Bole-Feysot, Léa, Harte, Cathal, Lorach, Henri, Galvez, Andrea, Tschopp, Manon, Herrmann, Natacha, Wacker, Moïra, Geernaert, Lionel, Fodor, Isabelle, Radevich, Valentin, Van Den Keybus, Katrien, Eberle, Grégoire, Pralong, Etienne, Roulet, Maxime, Ledoux, Jean-Baptiste, Fornari, Eleonora, Mandija, Stefano, Mattera, Loan, Martuzzi, Roberto, Nazarian, Bruno, Benkler, Stefan, Callegari, Simone, Greiner, Nathan, Fuhrer, Benjamin, Froeling, Martijn, Buse, Nik, Denison, Tim, Buschman, Rik, Wende, Christian, Ganty, Damien, Bakker, Jurriaan, Delattre, Vincent, Lambert, Hendrik, Minassian, Karen, van den Berg, Cornelis A T, Kavounoudias, Anne, Micera, Silvestro, Van De Ville, Dimitri, Barraud, Quentin, Kurt, Erkan, Kuster, Niels, Neufeld, Esra, Capogrosso, Marco, Asboth, Leonie, Wagner, Fabien B, Bloch, Jocelyne, Courtine, Grégoire, Computational Imaging, Cancer, Highfield Research Group, Brain, Circulatory Health, Rowald, Andreas, Komi, Salif, Demesmaeker, Robin, Baaklini, Edeny, Hernandez-Charpak, Sergio Daniel, Paoles, Edoardo, Montanaro, Hazael, Cassara, Antonino, Becce, Fabio, Lloyd, Bryn, Newton, Taylor, Ravier, Jimmy, Kinany, Nawal, D'Ercole, Marina, Paley, Aurélie, Hankov, Nicolas, Varescon, Camille, McCracken, Laura, Vat, Molywan, Caban, Miroslav, Watrin, Anne, Jacquet, Charlotte, Bole-Feysot, Léa, Harte, Cathal, Lorach, Henri, Galvez, Andrea, Tschopp, Manon, Herrmann, Natacha, Wacker, Moïra, Geernaert, Lionel, Fodor, Isabelle, Radevich, Valentin, Van Den Keybus, Katrien, Eberle, Grégoire, Pralong, Etienne, Roulet, Maxime, Ledoux, Jean-Baptiste, Fornari, Eleonora, Mandija, Stefano, Mattera, Loan, Martuzzi, Roberto, Nazarian, Bruno, Benkler, Stefan, Callegari, Simone, Greiner, Nathan, Fuhrer, Benjamin, Froeling, Martijn, Buse, Nik, Denison, Tim, Buschman, Rik, Wende, Christian, Ganty, Damien, Bakker, Jurriaan, Delattre, Vincent, Lambert, Hendrik, Minassian, Karen, van den Berg, Cornelis A T, Kavounoudias, Anne, Micera, Silvestro, Van De Ville, Dimitri, Barraud, Quentin, Kurt, Erkan, Kuster, Niels, Neufeld, Esra, Capogrosso, Marco, Asboth, Leonie, Wagner, Fabien B, Bloch, Jocelyne, and Courtine, Grégoire

Published
2022

14. Implanted System for Orthostatic Hypotension in Multiple-System Atrophy

Author

Squair, Jordan W., primary, Berney, Maxime, additional, Castro Jimenez, Mayte, additional, Hankov, Nicolas, additional, Demesmaeker, Robin, additional, Amir, Suje, additional, Paley, Aurelie, additional, Hernandez-Charpak, Sergio, additional, Dumont, Gregory, additional, Asboth, Leonie, additional, Allenbach, Gilles, additional, Becce, Fabio, additional, Schoettker, Patrick, additional, Wuerzner, Gregoire, additional, Bally, Julien F., additional, Courtine, Grégoire, additional, and Bloch, Jocelyne, additional

Published
2022
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20. Devices and systems for electrical stimulation and methods of use

Author

Ganty, Damien, Paoles, Edoardo, Bloch, Jocelyne, Courtine, Grégoire, Asboth, Leonie, Demesmaeker, Robin, Lorach, Henri, Squair, Jordan, Milekovic, Tomislav, and Rowald, Andreas

Subjects
TTO:6.1365.16
Abstract

The present disclosure provides devices, systems, and methods for spinal cord stimulation. In some exemplary embodiments, a lead is provided. In one exemplary embodiment, the lead includes a paddle and an electrode array distributed in the paddle. The electrode array includes a first column of electrodes and a second column of electrodes. The first column of electrodes and the second column of electrodes are symmetric about the midline of the paddle. The first column of electrodes includes a first electrode, a second electrode, and a third electrode. The second column of electrodes includes a fourth electrode corresponding to the first electrode, a fifth electrode corresponding to the second electrode, and a sixth electrode corresponding to the third electrode. A vertical inter-electrode distance between the first electrode and the second electrode is larger than that between the second electrode and the third electrode.

21. Walking naturally after spinal cord injury using a brain-spine interface

Author

Lorach, Henri, Galvez, Andrea, Spagnolo, Valeria, Martel, Felix, Karakas, Serpil, Intering, Nadine, Vat, Molywan, Faivre, Olivier, Harte, Cathal, Komi, Salif, Ravier, Jimmy, Collin, Thibault, Coquoz, Laure, Sakr, Icare, Baaklini, Edeny, Hernandez-Charpak, Sergio Daniel, Dumont, Gregory, Buschman, Rik, Buse, Nicholas, Denison, Tim, van Nes, Ilse, Asboth, Leonie, Watrin, Anne, Struber, Lucas, Sauter-Starace, Fabien, Langar, Lilia, Auboiroux, Vincent, Carda, Stefano, Chabardes, Stephan, Aksenova, Tetiana, Demesmaeker, Robin, Charvet, Guillaume, Bloch, Jocelyne, and Courtine, Gregoire

Subjects
deficits, circuits, neuromodulation, movement, gait, stimulation
Abstract

A spinal cord injury interrupts the communication between the brain and the region of the spinal cord that produces walking, leading to paralysis(1,2). Here, we restored this communication with a digital bridge between the brain and spinal cord that enabled an individual with chronic tetraplegia to stand and walk naturally in community settings. This brain-spine interface (BSI) consists of fully implanted recording and stimulation systems that establish a direct link between cortical signals(3) and the analogue modulation of epidural electrical stimulation targeting the spinal cord regions involved in the production of walking(4-6). A highly reliable BSI is calibrated within a few minutes. This reliability has remained stable over one year, including during independent use at home. The participant reports that the BSI enables natural control over the movements of his legs to stand, walk, climb stairs and even traverse complex terrains. Moreover, neurorehabilitation supported by the BSI improved neurological recovery. The participant regained the ability to walk with crutches overground even when the BSI was switched off. This digital bridge establishes a framework to restore natural control of movement after paralysis.

22. Electrical spinal cord stimulation protocols to regulate motor and autonomic functions in people with neurological disorders

Author

Demesmaeker, Robin Jonathan, Courtine, Grégoire, and Wagner, Fabien Bertrand Paul

Subjects
haemodynamic instability, translational research, first-in-human, neuromodulation, epidural electrical stimulation, motor control, neuroprosthetics, Neurological disorders, spinal cord injury, clinical translation
Abstract

Neurological disorders such as spinal cord injury (SCI) massively reduce independence and quality of life. Most often, the majority of the nervous system is still fully or partially spared, but dysfunctional due to aberrant or absent descending input from the brain. Neuromodulation techniques restore function by artificially engaging these neuronal circuits. Given its central position and multi- functional role, the spinal cord provides an excellent gateway for such therapies. Epidural Electrical Stimulation (EES) of the spinal cord has been put forward as a potential therapy to restore motor and autonomic function after SCI. Throughout the last decade, our laboratory developed the concept of biomimetic EES. Spatiotemporal stimulation parameters are optimized to re-establish the natural dynamics of the underlying spinal circuitry. Strong evidence in rodent and non- human primate models suggests that biomimetic EES could promote locomotion and haemodynamic stability after severe SCI, leading to a push for rapid clinical translation of this potentially game-changing therapy. This clinical translation is the pivot of my thesis. The first part focuses on the recovery of leg motor control after SCI. The results of a first-in-human clinical trial in 9 participants with chronic SCI are presented. We developed a set of targeted neurotechnologies that include a new epidurally implanted electrode array, real-time communication and tailormade software systems that enable the precise delivery of biomimetic EES. We demon- strate that biomimetic EES can be optimized to immediately restore a vast number of leg motor functions such as walking and cycling, as well as trunk posture. Furthermore, after 5 months of intensive EES-enabled volitional training, participants did not only all improve their motor performance while using EES, they moreover regained volitional control over previously paralyzed muscles. This neuro- logical recovery correlated with a reduced metabolic activity in the spinal cord, suggesting spinal remodeling. A systematic pre-clinical approach identified a specific neuronal population mediating these effects. The second part of my thesis considers another critically important body function: haemodynamic management. Orthostatic hypo- tension is a major health issue after severe SCI and stems from a disconnection between the vasomotor regulatory centres in the brainstem and the sympathetic circuitry that adjusts peripheral vascular resistance. Preclinical work in rodents showed that EES ap- plied to the low-thoracic spinal cord could restore haemodynamic stability after SCI. On the path towards clinical translation, we implemented closed-loop control of EES in a non-human primate model of SCI to maintain haemodynamic stability during orthostatic challenge. I moreover present a case-study that demonstrates the transferability of thoracic EES to improve haemodynamic manage- ment in a patient with Multiple System Atrophy (MSA). A marked reduction of orthostatic hypotension led to a clinically relevant decrease in fainting episodes and considerably improved quality of life. My thesis demonstrates the prosthetic and therapeutic effects of biomimetic EES and highlights its ability to immediately restore body functions and boost neurological recovery after SCI and in MSA. These results strengthen the belief that EES holds the potential to evolve into a relevant and efficient therapeutic intervention in a plentitude of neurological disorders.

24. Canadian Spine Society: 24th Annual Scientific Conference, Wednesday, February 28 - Saturday, March 2, Fairmont Chateau Whistler, Whistler, B.C., Canada.

Author

Dionne A, Al-Zakri M, Labelle H, Joncas J, Parent S, Mac-Thiong JM, Miyanji F, Lonner B, Eren A, Cahill P, Parent S, Newton P, Dermott JA, Jaakkimainen L, To T, Bouchard M, Howard A, Lebel DE, Hardy S, Malhotra AK, Dermott J, Thevarajah D, Mathias KDA, Yoon S, Sakhrekar R, Lebel DE, Kim DJ, Hadi A, Doria A, Mitani A, Dermott J, Howard A, Lebel D, Yoon S, Mathias K, Dermott J, Lebel D, Miyanji F, Newton P, Lonner B, Bastrom T, Samdani A, Roy-Beaudry M, Beauséjour M, Imbeault R, Dufresne J, Parent S, Romeo J, Livock H, Smit K, Jarvis J, Tice A, Chan VK, Cho R, Poon S, Skaggs DL, Shumilak GK, Rocos B, Sardi JP, Charalampidis A, Gum J, Lewis SJ, Tretiakov PS, Onafowokan O, Mir J, Das A, Williamson T, Dave P, Imbo B, Lebovic J, Jankowski P, Passias PG, Lewis S, Aljamaan Y, Lenke LG, Smith J, Varshney VP, Sahjpaul R, Paquette S, Osborn J, Pelletier-Roy R, Asmussen M, Birk M, Ludwig T, Nicholls F, Zohar A, Loomans J, Pellise F, Smith JS, Kato S, Sardar Z, Lenke L, Lewis SJ, Abbas A, Toor J, Sahi G, Kovacevic D, Lex J, Miyanji F, Rampersaud R, Perruccio AV, Mahomed N, Canizares M, Rizkallah M, Lebreton MA, Boubez G, Shen J, AlShakfa F, Kamel Y, Osman G, Wang Z, Koegl N, Herrington B, Fernandes RR, Urquhart JC, Rampersaud YR, Bailey CS, Hakimjavadi R, Zhang T, DeVries Z, Wai EK, Kingwell SP, Stratton A, Tsai E, Wang Z, Phan P, Rampersaud R, Fine N, Stone L, Kapoor M, Chênevert A, Bédard S, McIntosh G, Goulet J, Couture J, Investigators C, LaRue B, Rosenstein B, Rye M, Roussac A, Naghdi N, Macedo LG, Elliott J, DeMont R, Weber MH, Pepin V, Dover G, Fortin M, Wang Z, Rizkallah M, Shen J, Lebreton MA, Florial E, AlShakfa F, Boubez G, Raj A, Amin P, McIntosh G, Rampersaud YR, AlDuwaisan AASM, Hakimjavadi R, Zhang T, Phan K, Stratton A, Tsai E, Kingwell S, Wai E, Phan P, Hebert J, Nowell S, Wedderkopp N, Vandewint A, Manson N, Abraham E, Small C, Attabib N, Bigney E, Koegl N, Craig M, Al-Shawwa A, Ost K, Tripathy S, Evaniew N, Jacobs B, Cadotte D, Malhotra AK, Evaniew N, Dea N, Investigators C, McIntosh G, Wilson JR, Evaniew N, Bailey CS, Rampersaud YR, Jacobs WB, Phan PP, Nataraj A, Cadotte DW, Weber MH, Thomas KC, Manson N, Attabib N, Paquet J, Christie SD, Wilson JR, Hall H, Fisher CG, McIntosh G, Dea N, Liu EY, Persad ARL, Baron N, Fourney D, Shakil H, Investigators C, Evaniew N, Wilson JR, Dea N, Phan P, Huang J, Fallah N, Dandurand C, Alfawaz T, Zhang T, Stratton A, Tsai E, Wai E, Kingwell S, Wang Z, Phan P, Investigators C, Zaldivar-Jolissaint JF, Charest-Morin R, McIntosh G, Fehlings MG, Pedro KM, Alvi MA, Wang JCW, Charest-Morin R, Dea N, Fisher C, Dvorak M, Kwon B, Ailon T, Paquette S, Street J, Dandurand C, Mumtaz R, Skaik K, Wai EK, Kingwell S, Stratton A, Tsai E, Phan PTN, Wang Z, Investigators C, Manoharan R, McIntosh G, Rampersaud YR, Smith-Forrester J, Douglas JE, Nemeth E, Alant J, Barry S, Glennie A, Oxner W, Weise L, Christie S, Liu EY, Persad ARL, Saeed S, Toyota P, Su J, Newton B, Coote N, Fourney D, Rachevits MS, Razmjou H, Robarts S, Yee A, Finkelstein J, Almojuela A, Zeiler F, Logsetty S, Dhaliwal P, Abdelnour M, Zhang Y, Wai E, Kingwell SP, Stratton A, Tsai E, Phan PT, Investigators C, Smith TA, Small C, Bigney E, Richardson E, Kearney J, Manson N, Abraham E, Attabib N, Bond M, Dombrowski S, Price G, García-Moreno JM, Hebert J, Qiu S, Surendran V, Cheung VSE, Ngana S, Qureshi MA, Sharma SV, Pahuta M, Guha D, Essa A, Shakil H, Malhotra A, Byrne J, Badhiwala J, Yuan E, He Y, Jack A, Mathieu F, Wilson JR, Witiw CD, Shakil H, Malhotra AK, Yuan E, Smith CW, Harrington EM, Jaffe RH, Wang AP, Ladha K, Nathens AB, Wilson JR, Witiw CD, Sandarage RV, Galuta A, Tsai EC, Rotem-Kohavi N, Dvorak MF, Xu J, Fallah N, Waheed Z, Chen M, Dea N, Evaniew N, Noonan V, Kwon B, Kwon BK, Malomo T, Charest-Morin R, Paquette S, Ailon T, Dandurand C, Street J, Fisher CG, Dea N, Heran M, Dvorak M, Jaffe R, Coyte P, Chan B, Malhotra A, Hancock-Howard R, Wilson J, Witiw C, Cho N, Squair J, Aureli V, James N, Bole-Feysot L, Dewany I, Hankov N, Baud L, Leonhartsberger A, Sveistyte K, Skinnider M, Gautier M, Galan K, Goubran M, Ravier J, Merlos F, Batti L, Pagès S, Bérard N, Intering N, Varescon C, Carda S, Bartholdi K, Hutson T, Kathe C, Hodara M, Anderson M, Draganski B, Demesmaeker R, Asboth L, Barraud Q, Bloch J, Courtine G, Christie SD, Greene R, Nadi M, Alant J, Barry S, Glennie A, Oxner B, Weise L, Julien L, Lownie C, Dvorak MF, Öner CFC, Dandurand C, Joeris A, Schnake K, Phillips M, Vaccaro AR, Bransford R, Popescu EC, El-Sharkawi M, Rajasekaran S, Benneker LM, Schroeder GD, Tee JW, France J, Paquet J, Allen R, Lavelle WF, Vialle E, Dea N, Dionne A, Magnuson D, Richard-Denis A, Petit Y, Bernard F, Barthélémy D, Mac-Thiong JM, Grassner L, Garcia-Ovejero D, Beyerer E, Mach O, Leister I, Maier D, Aigner L, Arevalo-Martin A, MacLean MA, Charles A, Georgiopoulos M, Charest-Morin R, Goodwin R, Weber M, Brouillard E, Richard-Denis A, Dionne A, Laassassy I, Khoueir P, Bourassa-Moreau É, Maurais G, Mac-Thiong JM, Zaldivar-Jolissaint JF, Dea N, Brown AA, So K, Manouchehri N, Webster M, Ethridge J, Warner A, Billingsley A, Newsome R, Bale K, Yung A, Seneviratne M, Cheng J, Wang J, Basnayake S, Streijger F, Heran M, Kozlowski P, Kwon BK, Golan JD, Elkaim LM, Alrashidi Q, Georgiopoulos M, Lasry OJ, Bednar DA, Love A, Nedaie S, Gandhi P, Amin PC, Raj A, McIntosh G, Neilsen CJ, Swamy G, Rampersaud R (On behalf of CSORN investigators), Vandewint A, Rampersaud YR, Hebert J, Bigney E, Manson N, Attabib N, Small C, Richardson E, Kearney J, Abraham E, Rampersaud R, Raj A, Marathe N, McIntosh G, Dhiman M, Bader TJ, Hart D, Swamy G, Duncan N, Dhiman M, Bader TJ, Ponjevic D, Matyas JR, Hart D, Swamy G, Duncan N, O'Brien CP, Hebert J, Bigney E, Kearney J, Richardson E, Abraham E, Manson N, Attabib N, Small C, LaRochelle L, Rivas G, Lawrence J, Ravinsky R, Kim D, Dermott J, Mitani A, Doria A, Howard A, Lebel D, Dermott JA, Switzer LS, Kim DJ, Lebel DE, Montpetit C, Vaillancourt N, Rosenstein B, Fortin M, Nadler E, Dermott J, Kim D, Lebel DE, Wolfe D, Rosenstein B, Fortin M, Wolfe D, Dover G, Boily M, Fortin M, Shakil H, Malhotra AK, Badhiwala JH, Karthikeyan V, He Y, Fehlings MG, Sahgal A, Dea N, Kiss A, Witiw CD, Redelmeier DR, Wilson JR, Caceres MP, Freire V, Shen J, Al-Shakfa F, Ahmed O, Wang Z, Kwan WC, Zuckerman SL, Fisher CG, Laufer I, Chou D, O'Toole JE, Schultheiss M, Weber MH, Sciubba DM, Pahuta M, Shin JH, Fehlings MG, Versteeg A, Goodwin ML, Boriani S, Bettegowda C, Lazary A, Gasbarrini A, Reynolds JJ, Verlaan JJ, Sahgal A, Gokaslan ZL, Rhines LD, Dea N, Truong VT, Dang TK, Osman G, Al-Shakfa F, Boule D, Shen J, Wang Z, Rizkallah M, Boubez G, Shen J, Phan P, Alshakfa F, Boule D, Belguendouz C, Kafi R, Yuh SJ, Shedid D, Wang Z, Wang Z, Shen J, Boubez G, Alshakfa F, Boulé D, Belguendouz C, Kafi R, Phan P, Shedid D, Yuh SJ, Rizkallah M, Silva YGMD, Weber L, Leão F, Essa A, Malhotra AK, Shakil H, Byrne J, Badhiwala J, Nathens AB, Azad TD, Yuan E, He Y, Jack AS, Mathieu F, Wilson JR, Witiw CD, Craig M, Guenther N, Valosek J, Bouthillier M, Enamundram NK, Rotem-Kohavi N, Humphreys S, Christie S, Fehlings M, Kwon B, Mac-Thiong JM, Phan P, Paquet J, Guay-Paquet M, Cohen-Adad J, Cadotte D, Dionne A, Mac-Thiong JM, Hong H, Kurban D, Xu J, Barthélémy D, Christie S, Fourney D, Linassi G, Sanchez AL, Paquet J, Sreenivasan V, Townson A, Tsai EC, Richard-Denis A, Kwan WC, Laghaei P, Kahlon H, Ailon T, Charest-Morin R, Dandurand C, Paquette S, Dea N, Street J, Fisher CG, Dvorak MF, Kwon BK, Thibault J, Dionne A, Al-Sofyani M, Pelletier-Roy R, Richard-Denis A, Bourassa-Moreau É, Mac-Thiong JM, Bouthillier M, Valošek J, Enamundram NK, Guay-Paquet M, Guenther N, Rotem-Kohavi N, Humphreys S, Christie S, Fehlings M, Kwon BK, Mac-Thiong JM, Phan P, Cadotte D, Cohen-Adad J, Reda L, Kennedy C, Stefaniuk S, Eftekhar P, Robinson L, Craven C, Dengler J, Kennedy C, Reda L, Stefaniuk S, Eftekhar P, Robinson L, Craven C, Dengler J, Roukerd MR, Patel M, Tsai E, Galuta A, Jagadeesan S, Sandarage RV, Phan P, Michalowski W, Van Woensel W, Vig K, Kazley J, Arain A, Rivas G, Ravinsky R, Lawrence J, Gupta S, Patel J, Turkstra I, Pustovetov K, Yang V, Jacobs WB, Mariscal G, Witiw CD, Harrop JS, Essa A, Witiw CD, Mariscal G, Jacobs WB, Harrop JS, Essa A, Du JT, Cherry A, Kumar R, Jaber N, Fehlings M, Yee A, Dukkipati ST, Driscoll M, Byers E, Brown JL, Gallagher M, Sugar J, Rockall S, Hektner J, Donia S, Chernesky J, Noonan VK, Varga AA, Slomp F, Thiessen E, Lastivnyak N, Maclean LS, Ritchie V, Hockley A, Weise LM, Potvin C, Flynn P, Christie S, Turkstra I, Oppermann B, Oppermann M, Gupta S, Patel J, Pustovetov K, Lee K, Chen C, Rastgarjazi M, Yang V, Hardy S, Strantzas S, Anthony A, Dermott J, Vandenberk M, Hassan S, Lebel D, Silva YGMD, LaRue B, Couture J, Pimenta N, Blanchard J, Chenevert A, Goulet J, Greene R, Christie SD, Hall A, Etchegary H, Althagafi A, Han J, Greene R, Christie S, Pickett G, Witiw C, Harrop J, Jacobs WB, Mariscal G, Essa A, Jacobs WB, Mariscal G, Witiw C, Harrop JS, Essa A, Lasswell T, Rasoulinejad P, Hu R, Bailey C, Siddiqi F, Hamdoon A, Soliman MA, Maraj J, Jhawar D, Jhawar B, Schuler KA, Orosz LD, Yamout T, Allen BJ, Lerebo WT, Roy RT, Schuler TC, Good CR, Haines CM, Jazini E, Ost KJ, Al-Shawwa A, Anderson D, Evaniew N, Jacobs BW, Lewkonia P, Nicholls F, Salo PT, Thomas KC, Yang M, Cadotte D, Sarraj M, Rajapaksege N, Dea N, Evaniew N, McIntosh G, Pahuta M, Alharbi HN, Skaik K, Wai EK, Kingwell S, Stratton A, Tsai E, Phan PTN, Wang Z, Investigators C, Zaldivar-Jolissaint JF, Gustafson S, Polyzois I, Gascoyne T, Goytan M, Bednar DA, Sarra M, Rocos B, Sardi JP, Charalampidis A, Gum J, Lewis SJ, Ghag R, Kirk S, Shirley O, Bone J, Morrison A, Miyanji F, Parekh A, Sanders E, Birk M, Nicholls F, Smit K, Livock H, Romeo J, Jarvis J, Tice A, Frank S, Labelle H, Parent S, Barchi S, Joncas J, Mac-Thiong JM, Thibault J, Joncas J, Barchi S, Parent S, Beausejour M, Mac-Thiong JM, Dionne A, Mac-Thiong JM, Parent S, Shen J, Joncas J, Barchi S, Labelle H, Birk MS, Nicholls F, Pelletier-Roy R, Sanders E, Lewis S, Aljamaan Y, Lenke LG, Smith J, Sardar Z, Mullaj E, Lebel D, Dermott J, Bath N, Mathias K, Kattail D, Zohar A, Loomans J, Pellise F, Smith JS, Kato S, Sardar Z, Lenke L, Lewis SJ, Bader TJ, Dhiman M, Hart D, Duncan N, Salo P, Swamy G, Lewis SJ, Lawrence PL, Smith J, Pellise F, Sardar Z, Lawrence PL, Lewis SJ, Smith J, Pellise F, Sardar Z, Levett JJ, Alnasser A, Barak U, Elkaim LM, Hoang TS, Alotaibi NM, Guha D, Moss IL, Weil AG, Weber MH, de Muelenaere P, Parvez K, Sun J, Iorio OC, Rosenstein B, Naghdi N, Fortin M, Manocchio F, Ankory R, Stallwood L, Ahn H, Mahdi H, Naeem A, Jhawar D, Moradi M, Jhawar B, Qiu S, Surendran V, Shi V, Cheung E, Ngana S, Qureshi MA, Sharma SV, Pahuta M, and Guha D

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2024
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