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Alameh, M.-G., Semon, A., Bayard, N. U., Pan, Y.-G., Dwivedi, G., Knox, J., Glover, R. C., Rangel, P. C., Tanes, C., Bittinger, K., She, Q., Hu, H., Bonam, S. R., Maslanka, J. R., Planet, P. J., Moustafa, A. M., Davis, B., Chevrier, A., Beattie, M., ... Zackular, J. P. (2024). A multivalent mRNA-LNP vaccine protects against Clostridioides difficile infection. Science, 386(6717), 69-75. Lien externe
Ahunon, L., Milano, F., Chevrier, A., & Lavertu, M. (2020). A novel image analysis algorithm reveals that media conditioned with chitosan and platelet-rich plasma biomaterial dose dependently increases fibroblast migration in a scratch assay. Biomedical Physics & Engineering Express, 6(6), 15 pages. Lien externe
Alameh, M., Lavertu, M., Tran-Khanh, N., Chang, C.-Y., Lesage, F., Bail, M., Darras, V., Chevrier, A., & Buschmann, M. D. (2018). siRNA delivery with chitosan: influence of chitosan molecular weight, degree of deacetylation, and amine to phosphate ratio on in vitro silencing efficiency, hemocompatibility, biodistribution, and in vivo efficacy. Biomacromolecules, 19(1), 112-131. Lien externe
Buschmann, M. D., Lavertu, M., Nelea, M., Darras, V., Alameh, M. G., Chevrier, A., Tran-Khanh, N., Naeini Tavakoli, A., & Veilleux, D. (2018). Coated chitosan-based polyplex for delivery of nucleic acids. (Demande de brevet no US20180028458). Lien externe
Chevrier, A., & Lavertu, M. (2024). Manufacturing process affects coagulation kinetics of Ortho-R, an injectable chitosan–platelet-rich plasma biomaterial for tissue repair. Bioengineering, 11(9), 929 (10 pages). Disponible
Chevrier, A., Hurtig, M. B., & Lavertu, M. (2022). Chitosan-platelet-rich plasma implants improve rotator cuff repair in a large animal model: Pilot study. Journal of Biomaterials Applications, 37(2), 183-194. Lien externe
Chevrier, A., Hurtig, M. B., & Lavertu, M. (2021). Chitosan-Platelet-Rich Plasma Implants Improve Rotator Cuff Repair in a Large Animal Model: Pivotal Study. Pharmaceutics, 13(11), 1955 (16 pages). Lien externe
Chevrier, A., Buschmann, M. D., Veilleux, D., Hoemann, C. D., & Lavertu, M. (2017). Freeze-dried polymer compositions for mixing with platelet rich plasma to form implants for tissue repair and/or compositions for therapeutic intra-articular injections. (Demande de brevet no US20170049696). Lien externe
Chevrier, A., Kouao, A. S. M., Picard, G., Hurtig, M. B., & Buschmann, M. D. (2015). Interspecies Comparison of Subchondral Bone Properties Important for Cartilage Repair. Journal of Orthopaedic Research, 33(1), 63-70. Lien externe
Chen, H., Chevrier, A., Hoemann, C. D., Sun, J., Ouyang, W., & Buschmann, M. D. (2011). Characterization of subchondral bone repair for marrow-stimulated chondral defects and its relationship to articular cartilage resurfacing. American Journal of Sports Medicine, 39(8), 1731-1730. Lien externe
Chen, H., Hoemann, C. D., Sun, J., Chevrier, A., McKee, M. D., Shive, M. S., Hurtig, M., & Buschmann, M. D. (2011). Depth and type of subchondral perforation influence the outcome of bone marrow stimulation cartilage repair. Journal orthopaedic research, 29(8), 1178-1184. Lien externe
Chevrier, A., Nelea, M., Hurtig, M. B., Hoemann, C. D., & Buschmann, M. D. (2009). Meniscus Structure in Human, Sheep, and Rabbit for Animal Models of Meniscus Repair. Journal of Orthopaedic Research, 27(9), 1197-1203. Lien externe
Chevrier, A. (2004). Application du chitosane pour la réparation de lésions du cartilage articulaire [Thèse de doctorat, École Polytechnique de Montréal]. Non disponible
Dwivedi, G., Chevrier, A., Alameh, M.-G., Hoemann, C. D., & Buschmann, M. D. (2021). Quality of Cartilage Repair from Marrow Stimulation Correlates with Cell Number, Clonogenic, Chondrogenic, and Matrix Production Potential of Underlying Bone Marrow Stromal Cells in a Rabbit Model. CARTILAGE, 12(2), 237-250. Lien externe
Depres-Tremblay, G., Chevrier, A., Snow, M., Rodeo, S., & Buschmann, M. D. (2019). Freeze-dried chitosan-platelet-rich plasma implants improve supraspinatus tendon attachment in a transosseous rotator cuff repair model in the rabbit. Journal of Biomaterials Applications, 33(6), 792-807. Lien externe
Dwivedi, G., Chevrier, A., Hoemann, C. D., & Buschmann, M. D. (2019). Injectable freeze-dried chitosan-platelet-rich-plasma implants improve marrow-stimulated cartilage repair in a chronic-defect rabbit model. Journal of Tissue Engineering and Regenerative Medicine, 13(4), 599-611. Lien externe
Dwivedi, G., Chevrier, A., Hoemann, C. D., & Buschmann, M. D. (2018). Bone Marrow Progenitor Cells Isolated from Young Rabbit Trochlea Are More Numerous and Exhibit Greater Clonogenic, Chondrogenic, and Osteogenic Potential than Cells Isolated from Condyles. CARTILAGE, 9(4), 378-390. Lien externe
Deprés-Tremblay, G., Chevrier, A., Tran-Khanh, N., Nelea, M., & Buschmann, M. D. (2018). Chitosan inhibits platelet-mediated clot retraction, increases platelet-derived growth factor release, and increases residence time and bioactivity of platelet-rich plasma in vivo. Biomedical Materials, 13(1), 11 pages. Lien externe
Depres-Tremblay, G., Chevrier, A., Hurtig, M. B., Snow, M., Rodeo, S., & Buschmann, M. D. (2018). Freeze-Dried Chitosan-Platelet-Rich Plasma Implants for Rotator Cuff Tear Repair: Pilot Ovine Studies. ACS Biomaterials Science and Engineering, 4(11), 3737-3746. Lien externe
Ghazi Zadeh, L., Chevrier, A., Lamontagne, M., Buschmann, M. D., Hoemann, C. D., & Lavertu, M. (2019). Multiple platelet-rich plasma preparations can solubilize freeze-dried chitosan formulations to form injectable implants for orthopedic indications. Bio-Medical Materials and Engineering, 30(4), 349-364. Lien externe
Hoemann, C. D., Guzman-Morales, J., Picard, G., Chen, G., Veilleux, D., Chevrier, A., Sim, S., Garon, M., Quenneville, E., Lafantaisie-Favreau, C.-H., Buschmann, M. D., & Hurtig, M. B. (2020). Guided bone marrow stimulation for articular cartilage repair through a freeze-dried chitosan microparticle approach. Materialia, 9, 12 pages. Lien externe
Hoemann, C. D., Tran-Khanh, N., Chevrier, A., Chen, G., Lascau-Coman, V., Mathieu, C., Changoor, A., Yaroshinsky, A., McCormack, R. G., Stanish, W. D., & Buschmann, M. D. (2015). Chondroinduction Is the Main Cartilage Repair Response to Microfracture and Microfracture With BST-CarGel: Results as Shown by ICRS-II Histological Scoring and a Novel Zonal Collagen Type Scoring Method of Human Clinical Biopsy Specimens. American Journal of Sports Medicine, 43(10), 2469-2480. Lien externe
Hoemann, C. D., Chen, G., Marchand, C., Tran-Khanh, N., Thibault, M., Chevrier, A., Sun, J., Shive, M. S., Fernandes, M. J. G., Poubelle, P. E., Centola, M., & El-Gabalawy, H. (2010). Scaffold-Guided Subchondral Bone Repair Implication of Neutrophils and Alternatively Activated Arginase-1+Macrophages. American Journal of Sports Medicine, 38(9), 1845-1856. Lien externe
Hoemann, C. D., Hurtig, M., Rossomacha, E., Sun, J., Chevrier, A., Shive, M. S., & Buschmann, M. D. (2005). Chitosan-Glycerol Phosphate/Blood Implants Improve Hyaline Cartilage Repair in Ovine Microfracture Defects. Journal of Bone and Joint Surgery, 87(12), 2671-2686. Lien externe
Milano, F., Chevrier, A., De Crescenzo, G., & Lavertu, M. (2023). Injectable Lyophilized Chitosan-Thrombin-Platelet-Rich Plasma (CS-FIIa-PRP) Implant to Promote Tissue Regeneration: In Vitro and Ex Vivo Solidification Properties. Polymers, 15(13), 2919 (15 pages). Disponible
Milano, F., Chevrier, A., De Crescenzo, G., & Lavertu, M. (2021). Robust Segmentation-Free Algorithm for Homogeneity Quantification in Images. IEEE Transactions on Image Processing, 30, 5533-5544. Lien externe
Ouyang, W., Buschmann, M. D., Hoemann, C. D., Lavertu, M., & Chevrier, A. (2017). Novel formulation of physiological chitosan-inorganic salt solution/blood mixtures for tissue repair. (Demande de brevet no US20170333477). Lien externe
Ouyang, W., Buschmann, M. D., & Chevrier, A. (2016). Soluble physiological chitosan formulations combined with platelet-rich plasma (PRP) for tissue repair. (Brevet no US9427469). Lien externe
Ouyang, W., Buschmann, M. D., & Chevrier, A. (2011). Specific blood:chitosan mixing ratios producing a viscous paste-like implant with good handling properties for tissue repair. (Demande de brevet no WO2011060545). Lien externe
Sim, S., Chevrier, A., Garon, M., Quenneville, E., Lavigne, P., Yaroshinsky, A., Hoemann, C. D., & Buschmann, M. D. (2017). Electromechanical probe and automated indentation maps are sensitive techniques in assessing early degenerated human articular cartilage. Journal of Orthopaedic Research, 35(4), 858-867. Lien externe
Tran-Khanh, N., Chevrier, A., Lascau-Coman, V., Hoemann, C. D., & Buschmann, M. D. (2010). Young Adult Chondrocytes Proliferate Rapidly and Produce a Cartilaginous Tissue at the Gel-Media Interface in Agarose Cultures. Connective Tissue Research, 51(3), 216-223. Lien externe
Veilleux, D., Gopalakrishna Panicker, R. K., Chevrier, A., Biniecki, K., Lavertu, M., & Buschmann, M. D. (2018). Lyophilisation and concentration of chitosan/siRNA polyplexes: Influence of buffer composition, oligonucleotide sequence, and hyaluronic acid coating. Journal of Colloid and Interface Science, 512, 335-345. Lien externe
Zadeh, L. G., Chevrier, A., Farr, J., Rodeo, S. A., & Buschmann, M. D. (2018). Augmentation techniques for meniscus repair. Journal of Knee Surgery, 31(1), 99-116. Lien externe
