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Documents publiés en "2023"

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Nombre de documents: 8

Département de génie informatique et génie logiciel

Caron, R., Séoud, L., Londono, I., & Villemure, I. (2023). Segmentation of trabecular bone microdamage in Xray microCT images using a two-step deep learning method. Journal of the Mechanical Behavior of Biomedical Materials, 137, 105540 (9 pages). Lien externe

Département de génie mécanique

Caron, R., Séoud, L., Londono, I., & Villemure, I. (2023). Segmentation of trabecular bone microdamage in Xray microCT images using a two-step deep learning method. Journal of the Mechanical Behavior of Biomedical Materials, 137, 105540 (9 pages). Lien externe

Hassan, A., Bagu, E. T., Patten, S. A., Molidperee, S., Parent, S., Barchi, S., Villemure, I., Tremblay, A., & Moldovan, F. (2023). Differential Regulation of POC5 by ER alpha in Human Normal and Scoliotic Cells. Genes, 14(5), 1111 (21 pages). Lien externe

Ning, B., Mustafy, T., Londono, I., Laporte, C., & Villemure, I. (2023). Impact loading intensifies cortical bone (re)modeling and alters longitudinal bone growth of pubertal rats. Biomechanics and Modeling in Mechanobiology, 22(4), 1145-1162. Lien externe

Qiao, N., Villemure, I., & Aubin, C.-É. (2023). A novel method for assigning bone material properties to a comprehensive patient-specific pelvic finite element model using biplanar multi-energy radiographs. Computer Methods in Biomechanics and Biomedical Engineering, 13 pages. Lien externe

Solorzano Barrera, C., Villemure, I., & Aubin, C.-É. (2023). A novel methodology to estimate bone mechanical properties using dual-energy imaging to improve pedicle screw fixation. Journal of Musculoskeletal and Neuronal Interact, 23(3), 316-327. Disponible

Institut de génie biomédical

Caron, R., Séoud, L., Londono, I., & Villemure, I. (2023). Segmentation of trabecular bone microdamage in Xray microCT images using a two-step deep learning method. Journal of the Mechanical Behavior of Biomedical Materials, 137, 105540 (9 pages). Lien externe

Qiao, N., Villemure, I., & Aubin, C.-É. (2023). A novel method for assigning bone material properties to a comprehensive patient-specific pelvic finite element model using biplanar multi-energy radiographs. Computer Methods in Biomechanics and Biomedical Engineering, 13 pages. Lien externe

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