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Nombre de documents: 154

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Amini, S., Mortazavi, F., Sun, J., Lévesque, M., Hoemann, C. D., & Villemure, I. (2013). Stress relaxation of swine growth plate in semi-confined compression: Depth dependent tissue deformational behavior versus extracellular matrix composition and collagen fiber organization. Biomechanics and Modeling in Mechanobiology, 12(1), 67-78. Lien externe

Amini, S., Mortazavi, F., Sun, J., Lévesque, M., Hoemann, C. D., & Villemure, I. (mai 2011). The biomechanical behavior of the growth plate under compression is related to its collagen content and organization [Communication écrite]. 17th Annual Canadian Connective Tissue Conference, Montréal, Québec. Non disponible

Amini, S., Mortazavi, F., Sun, J., Hoemann, C. D., & Villemure, I. (octobre 2010). Growth plate zonal mechanical behavior is non-homogeneous according to the biochemical composition [Communication écrite]. 40e réunion annuelle de la Société de Scoliose du Québec, Burlington, VT. Non disponible

Amini, S., Veilleux, D., Sun, J., Hoemann, C. D., & Villemure, I. (juillet 2010). Relationship between compression loading and biochemical composition of swine growth plates [Communication écrite]. International Research Society of Spinal Deformities Meeting, Montréal, Québec. Non disponible

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Bell, A. D., Hurtig, M. B., Quenneville, E., Rivard, G. E., & Hoemann, C. D. (2017). Effect of a Rapidly Degrading Presolidified 10 kDa Chitosan/Blood Implant and Subchondral Marrow Stimulation Surgical Approach on Cartilage Resurfacing in a Sheep Model. CARTILAGE, 8(4), 417-431. Lien externe

Bell, A., Hurtig, M., Rivard, G. E., & Hoemann, C. D. (2014). Effect of Bone Marrow Surgical Approach and Rapidly Degrading Presolidified Subchondral Chitosan/Blood Implant on Resurfacing of Chondral Defects in a Sheep Model. Osteoarthritis and Cartilage, 22, S149-S149. Lien externe

Bell, A., Lasau-Coman, V., Sun, J., Lowerison, M., Hurtig, M. B., & Hoemann, C. D. (2013). Bone-induced chondroinduction in sheep Jamshidi biopsy defects with and without treatment by subchondral chitosan-blood implant: 1 day, 3 week, and 3 month repair. CARTILAGE, 4(2), 131-143. Lien externe

Buschmann, M. D., Hoemann, C. D., Hurtig, M. D., & Shive, M. S. (2007). Cartilage Repair With Chitosan-Glycerol Phosphate-Stabilized Blood Clots. Dans Cartilage Repair : Analysis and Strategies (p. 85-104). Non disponible

Buschmann, M. D., Hoemann, C. D., Hurtig, M. B., & Shive, M. S. (2007). Cartilage Repair With Chitosan-Glycerol Phosphate-Stabilized Blood Clots. Dans Cartilage Repair Strategies (p. 85-104). Lien externe

Buschmann, M. D., Hoemann, C. D., Shive, M. S., Rossomacha, E., Chevrier, A., & Hurtig, M. B. (septembre 2006). Hybrid Biomaterials Composed of Chitosan and Blood Improve Cartilage Repair in Animal Models [Communication écrite]. Transactions 10th International Conference on Chitin and Chitosan, Montpellier, France. Non disponible

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Chandrasekaran, R., Mathieu, C., Sheth, R., Cheng, A. P., Fong, D., McCormack, R., El-Gabalawy, H., Alishetty, S., Paige, M., & Hoemann, C. D. (2022). UDP-glucose dehydrogenase (UGDH) activity is suppressed by peroxide and promoted by PDGF in fibroblast-like synoviocytes: Evidence of a redox control mechanism. PLOS ONE, 17(9), 24 pages. Lien externe

Contreras-Garcia, A., D'Elia, N. L., Desgagne, M., Lafantaisie-Favreau, C.-H., Rivard, G.-E., Ruiz, J.-C., Wertheimer, M. R., Messina, P., & Hoemann, C. D. (2019). Synthetic anionic surfaces can replace microparticles in stimulating burst coagulation of blood plasma. Colloids and Surfaces B: Biointerfaces, 175, 596-605. Lien externe

Chevrier, A., Darras, V., Picard, G., Nelea, M., Veilleux, D., Lavertu, M., Hoemann, C. D., & Buschmann, M. D. (2018). Injectable chitosan-platelet-rich plasma (PRP) implants to promote tissue regeneration: In vitro properties, in vivo residence, degradation, cell recruitment and vascularization. Journal of Tissue Engineering and Regenerative Medicine, 12(1), 217-228. 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

Chen, H., Chevrier, A., Hoemann, C. D., Sun, J., Lascau-Coman, V., & Buschmann, M. D. (2013). Bone Marrow Stimulation Induces Greater Chondrogenesis in Trochlear Vs Condylar Cartilage Defects in Skeletally Mature Rabbits. Osteoarthritis and Cartilage, 21(7), 999-1007. Lien externe

Chen, H. M., Chevrier, A., Hoemann, C. D., Sun, J., Picard, G., & Buschmann, M. D. (2013). Bone Marrow Stimulation of the Medial Femoral Condyle Produces Inferior Cartilage and Bone Repair Compared to the Trochlea in a Rabbit Surgical Model. Journal of Orthopaedic Research, 31(11), 1757-1764. Lien externe

Contreras-Garcia, A., Merhi, Y., Ruiz, J. C., Wertheimer, M. R., & Hoemann, C. D. (2013). Thromboelastography (Teg) Cups and Pins With Different PECVD Coatings: Effect on the Coagulation Cascade in Platelet-Poor Blood Plasma. Plasma Processes and Polymers, 10(9), 817-828. Lien externe

Contreras-Garcia, A., Ruiz, J.-C., Hoemann, C. D., Alvarez-Lorenzo, C., Concheiro, A., & Wertheimer, M. R. (octobre 2012). Plasma- and Vacuum-ultraviolet (VUV Photo-) polymerization of organic thin films: comparisons and some novel biomedical applications [Communication écrite]. 10th meeting of the Ionizing Radiation and Polymers symposium (IRaP2012), Cracovie, Pologne. Non disponible

Contreras-Garcia, A., Hoemann, C. D., & Wertheimer, M. R. (juin 2012). Thromboelastography cups and pins for improved blood coagulation testing: surface modification by plasma coating [Communication écrite]. 4th International Conference on Plasma Medicine (ICPM-4), Orléans, France. Lien externe

Chen, G., Sun, J., Lascau-Coman, V., Chevrier, A., Marchand, C., & Hoemann, C. D. (2011). Acute Osteoclast Activity following Subchondral Drilling Is Promoted by Chitosan and Associated with Improved Cartilage Repair Tissue Integration. CARTILAGE, 2(2), 173-185. 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

Changoor, A., Nelea, M., Méthot, S., Tran-Khanh, N., Chevrier, A., Restrepoi, A., Shive, M. S., Hoemann, C. D., & Buschmann, M. D. (mai 2011). Collagen network structure in human normal, degraded and repair articular cartilages [Communication écrite]. 17th Annual Canadian Connective Tissue Conference, Montréal, Québec. Non disponible

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

Changoor, A., Nelea, M., Méthot, S., Tran-Khanh, N., Chevrier, A., Restrepo, A., Shive, M. S., Hoemann, C. D., & Buschmann, M. D. (2011). Structural characteristics of the collagen network in human normal, degraded and repair articular cartilages observed in polarized light and scanning electron microscopies. Osteoarthritis and Cartilage, 19(12), 1458-1468. Lien externe

Chevrier, A., Hoemann, C. D., Sun, J., & Buschmann, M. D. (2011). Temporal and spatial modulation of chondrogenic foci in subchondral microdrill holes by chitosan-glycerol phosphate/blood implants. Osteoarthritis and Cartilage, 19(1), 136-144. Lien externe

Chevrier, A., Hoemann, C. D., Sun, J., & Buschmann, M. D. (septembre 2010). Chitosan-glycerol Phosphate/Blood Implants Alter Maturation and Location of Chondrogenic Foci in Marrow Stimulated Cartilage Repair [Communication écrite]. Transaction International Society for Cartilage Repair, Barcelona, Spain. Non disponible

Chen, H., Hoemann, C. D., Sun, J., Ouyang, W., Chevrier, A., Dragomir, L., Lascau-Coman, V., Tran-Khanh, N., McKee, M. E., Shive, M. S., Hurtig, M. B., & Buschmann, M. D. (septembre 2010). Subchondral bone repair following marrow stimulation in a mature rabbit model [Communication écrite]. Transaction International Society for Cartilage Repair, Barcelona, Spain. Non disponible

Chen, H. M., Hoemann, C. D., Sun, J., Ouyang, W., Dragomir, L., Chevrier, A., Lascau-Coman, V., Tran-Khanh, N., McKee, M. D., Shive, M. S., & Buschmann, M. D. (juillet 2009). Bone marrow stimulation by drilling versus microfracture improves cartilage repair in a mature rabbit model [Communication écrite]. 15th Canadian Connective Tissue Conference, Calgary, Canada. Non disponible

Chen, H. M., Hoemann, C. D., Sun, J., Ouyang, W., Dragomir, L., Chevrier, A., Lascau-Coman, V., Tran-Khanh, N., McKee, M. D., Shive, M. S., & Buschmann, M. D. (septembre 2009). Bone marrow stimulation by drilling versus microfracture leads to better articular cartilage repair [Communication écrite]. Segal North American Osteoarthritis Workshop, Chicago. Non disponible

Chen, H. M., Hoemann, C. D., Sun, J., Ouyang, W., Dragomir, L., Chevrier, A., Lascau-Coman, V., Tran-Khanh, N., McKee, M. D., Shive, M. S., & Buschmann, M. D. (septembre 2009). Bone marrow stimulation by drilling versus microfracture leads to better articular cartilage repair in rabbits [Communication écrite]. OARSI World Congress on Osteoarthritis, Montréal, Québec. Non disponible

Chen, H., Sun, J., Hoemann, C. D., Ouyang, W., Dragomir, L., Tran-Khanh, N., Chevrier, A., Lascau-Coman, V., McKee, M. D., Shive, M. S., & Buschmann, M. D. (mai 2009). Cartilage repair outcomes differ following microfracture and drilling in a rabbit model [Communication écrite]. 8th World Congress of the International for Cartilage Repair Society, Miami, Florida. Non disponible

Chen, H., Sun, J., Hoemann, C. D., Lascau-Coman, V., Ouyang, W., McKee, M. D., Shive, M. S., & Buschmann, M. D. (2009). Drilling and Microfracture Lead to Different Bone Structure and Necrosis During Bone-Marrow Stimulation for Cartilage Repair. Journal of Orthopaedic Research, 27(11), 1432-1438. 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

Chen, H., Sun, J., Hoemann, C. D., Lascau-Coman, V., Ouyang, W., Tran-Khanh, N., Chevrier, A., McKee, M. D., Shive, M. S., & Buschmann, M. D. (mai 2009). Subchondral structure and repair responses following bone marrow stimulation by drilling versus microfracture in rabbit trochleas [Communication écrite]. 8th World Congress of the International for Cartilage Repair Society, Miami, Florida. Non disponible

Chavane, N., Jacquemart, R., Hoemann, C. D., Jolicoeur, M., & De Crescenzo, G. (2008). At-Line Quantification of Bioactive Antibody in Bioreactor by Surface Plasmon Resonance Using Epitope Detection. Analytical Biochemistry, 378(2), 158-165. Lien externe

Chen, H., Sun, J., Hoemann, C. D., Lascau-Coman, V., Ouyang, W., Dragomir, L., Tran-Khanh, N., Chevrier, A., McKee, M. D., Shive, M. S., & Buschmann, M. D. (octobre 2008). A comparative study of drilling versus microfracture for cartilage repair in a rabbit model [Communication écrite]. Canadian Arthritis Network Annual Scientific Meeting, Toronto. Non disponible

Chen, H., Chevrier, A., Lascau-Coman, V., Sun, J., Ouyang, W., Hoemann, C. D., & Buschmann, M. D. (mars 2008). A comparative study of microfracture and drilling surgical techniques for cartilage repair in a rabbit model [Communication écrite]. 54th Annual Meeting of the Orthopaedic Research Society, San Francisco, California. Non disponible

Chen, H., Chevrier, A., Lascau-Coman, V., Sun, J., Ouyang, W., Hoemann, C. D., & Buschmann, M. D. (juin 2008). A comparative study of microfracture and drilling surgical techniques for cartilage repair in a rabbit model [Communication écrite]. 14th Canadian connective Tissue Conference, Montréal, Québec. Non disponible

Chen, H., Chevrier, A., Lascau-Coman, V., Sun, J., Ouyang, W., Hoemann, C. D., & Buschmann, M. D. (octobre 2008). A comparative study of microfracture and drilling surgical techniques for cartilage repair in a rabbit model [Communication écrite]. 2nd International Symposium on Biotechnology in Musculoskeletal Repair, Lausanne, Switzerland. Non disponible

Chevrier, A., Sun, J., Hurtig, M. B., Hoemann, C. D., & Buschmann, M. D. (mars 2008). Interspecies comparison of meniscus properties in human, sheep and rabbit [Communication écrite]. 54th Annual Meeting of the Orthopaedic Research Society, San Francisco, California. Non disponible

Chevrier, A., Lascau-Coman, V., Chen, H., Hoemann, C. D., Sun, J., & Buschmann, M. D. (septembre 2007). Characterization of chondrogenic foci induced by bone narrow-stimulation of cartilage defects [Communication écrite]. 7th World Congress International Society for Cartilage Repair, Warsaw, Poland. Lien externe

Chevrier, A., Hoemann, C. D., Sun, J., & Buschmann, M. D. (2007). Chitosan-Glycerol Phosphate/Blood Implants Increase Cell Recruitment, Transient Vascularization and Subchondral Bone Remodeling in Drilled Cartilage Defects. Osteoarthritis and Cartilage, 15(3), 316-327. Lien externe

Chen, H., Sun, J., Hoemann, C. D., Lascau-Coman, V., Chevrier, A., Rossomacha, E., McKee, M. D., Shive, M. S., & Buschmann, M. D. (septembre 2007). A comparative study of microfracture vs drilling in a rabbit cartilage repair model [Communication écrite]. 7th World Congress International Society for Cartilage Repair, Warsaw, Poland. Lien externe

Chevrier, A., Hoemann, C. D., Sun, J., & Buschmann, M. D. (janvier 2006). Chitosan-glycerol phosphate/blood implants augment cell recruitment, transient vascularisation and subchdonral bone remodeling in drill cartilage defects [Communication écrite]. Transactions International Society for Cartilage Repair, San Diego, USA. Non disponible

Chevrier, A., Hoemann, C. D., Sun, J., & Buschmann, M. D. (mars 2006). Chitosan-glycerol phosphate/blood implants augment cell recruitment, transient vascularisation and subchdonral bone remodeling in drill cartilage defects [Communication écrite]. Transactions of the 52nd Orthopedic Research Society, Chicago, Illinois. Non disponible

Chevrier, A., Hoemann, C. D., Sun, J., & Buschmann, M. D. (mars 2005). In situ solidifying chitosan-GP/blood implants promote intramembranous bone formation in microdrilled chondral defects of adult rabbits [Communication écrite]. Transactions of the Orthopedic Research Society, Washington, DC, USA. Non disponible

Chevrier, A., Hoemann, C. D., Sun, J., & Buschmann, M. D. (juillet 2005). In situ solidifying chitosan-GP/blood implants promote subchondral vascularization and intramembranous bone formation in microdrilled chondral defects of adult rabbits [Communication écrite]. Transactions 11th Canadian Connective Tissue Conference, Montréal, Québec. Non disponible

Chevrier, A., Rossomacha, E., Buschmann, M. D., & Hoemann, C. D. (2005). Optimization of Histoprocessing Methods to Detect Glycosaminoglycan, Collagen Type II, and Collagen Type I in Decalcified Rabbit Osteochondral Sections. Journal of Histotechnology, 28(3), 165-175. Lien externe

Chevrier, A., Hoemann, C. D., Sun, J., & Buschmann, M. D. (mars 2005). Residency and Clearance of In Situ Solidifying Chitosan-GP/Blood Implants in Microdrilled Chondral Defects in Adult Rabbits [Communication écrite]. Transactions of the Orthopedic Research Society, Washington, DC, USA. Non disponible

Chevrier, A., Sun, J., Hoemann, C. D., & Buschmann, M. D. (mai 2004). Early reparative events in adult rabbits with drilled chondral defects treated with an injectable chitosan-glycerol phosphate implant [Communication écrite]. 5th Symposium of the International Cartilage Repair Society, Gent, Belgique. Non disponible

Chevrier, A., Sun, J., Hoemann, C. D., & Buschmann, M. D. (janvier 2003). Early reparative events in adult rabbits with drilled chondral defects treated with a chitosan-based implant [Communication écrite]. Transactions 9th canadian connective tissue conference, Montréal, Québec. Non disponible

Chevrier, A., Mort, J. S., Crine, P., Hoemann, C. D., & Buschmann, M. D. (2001). Soluble Recombinant Neprilysin Induces Aggrecanase-Mediated Cleavage of Aggrecan in Cartilage Explant Cultures. Archives of Biochemistry and Biophysics, 396(2), 178-186. Lien externe

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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

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

D'Elia, N. L., Mathieu, C., Hoemann, C. D., Gravina, A. N., Sartuqui, J., & Messina, P. V. (2016). Study of rMSC viability, morphology and adhesion on different bone mimetic surfaces. Bone, 89, 68-68. Lien externe

D'Elia, N. L., Mathieu, C., Hoemann, C. D., Laiuppa, J. A., Santillán, G. E., & Messina, P. V. (2015). Bone-repair properties of biodegradable hydroxyapatite nano-rod superstructures. Nanoscale, 7(44), 18751-18762. Lien externe

Dumont, J., Ionescu, M., Reiner, A., Poole, A. R., Tran-Khanh, N., Hoemann, C. D., McKee, M. D., & Buschmann, M. D. (1999). Mature Full-Thickness Articular Cartilage Explants Attached to Bone Are Physiologically Stable Over Long-Term Culture in Serum-Free Media. Connective Tissue Research, 40(4), 259-272. Lien externe

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Fong, D., Gregoire-Gelinas, P., Cheng, A. P., Mezheritsky, T., Lavertu, M., Sato, S., & Hoemann, C. D. (2017). Lysosomal rupture induced by structurally distinct chitosans either promotes a type 1 IFN response or activates the inflammasome in macrophages. Biomaterials, 129, 127-138. Disponible

Fong, D., Duceppe, N., & Hoemann, C. D. (2017). Mesenchymal stem cell detachment with trace trypsin is superior to EDTA for in vitro chemotaxis and adhesion assays. Biochemical and Biophysical Research Communications, 484(3), 656-661. Lien externe

Fong, D., Gregoire-Gelinas, P., Lavertu, M., Sato, S., & Hoemann, C. D. (mai 2016). Human macrophages release higher IL-1ra over IL-1beta when stimulated by block acetylated chitosan microparticles and not by random acetylated chitosans or water-soluble oligomers [Affiche]. 10th World Biomaterials Congress, Montréal, Québec. Publié dans Frontiers in Bioengineering and Biotechnology, 4. Disponible

Fong, D., Ariganello, M. B., Girard-Lauziere, J., & Hoemann, C. D. (2015). Biodegradable chitosan microparticles induce delayed STAT-1 activation and lead to distinct cytokine responses in differentially polarized human macrophages in vitro. Acta Biomaterialia, 12, 183-94. Lien externe

Finnson, K. W., Parker, W. L., Chi, Y., Hoemann, C. D., Goldring, M., Antoniou, J., & Philip, A. (2010). Endoglin differentially regulates TGF-ß-induced SMAD2/3 and SMAD1/5 signalling and its expression correlates with extracellular matrix production and cellular differentiation state in human chondrocytes. Osteoarthritis and Cartilage, 18(11), 1518-1527. Lien externe

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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

Ghavidel Mehr, N., Hoemann, C. D., & Favis, B. D. (2015). Chitosan surface modification of fully interconnected 3D porous poly(-caprolactone) by the LbL approach. Polymer (United Kingdom), 64, 112-121. Lien externe

Ghavidel Mehr, N., Li, X., Ariganello, M. B., Hoemann, C. D., & Favis, B. D. (2014). Poly(-caprolactone) scaffolds of highly controlled porosity and interconnectivity derived from co-continuous polymer blends: model bead and cell infiltration behavior. Journal of Materials Science: Materials in Medicine, 25(9), 2083-2093. Lien externe

Guzmán-Morales, J., Lafantaisie-Favreau, C. H., Chen, G., & Hoemann, C. D. (2014). Subchondral chitosan/blood implant-guided bone plate resorption and woven bone repair is coupled to hyaline cartilage regeneration from microdrill holes in aged rabbit knees. Osteoarthritis and Cartilage, 22(2), 323-333. Lien externe

Guzman-Morales, J., Ariganello, M. B., Hammami, I., Thibault, M., Jolicoeur, M., & Hoemann, C. D. (2011). Biodegradable chitosan particles induce chemokine release and negligible arginase-1 activity compared to IL-4 in murine bone marrow-derived macrophages. Biochemical and Biophysical Research Communications, 405(4), 538-544. Lien externe

Guzmán-Morales, J., El-Gabalawy, H., Pham, M. H., Tran-Khanh, N., McKee, M. D., Wu, W., Centola, M., & Hoemann, C. D. (2009). Effect of Chitosan Particles and Dexamethasone on Human Bone Marrow Stromal Cell Osteogenesis and Angiogenic Factor Secretion. Bone, 45(4), 617-626. Lien externe

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Hoemann, C. D., Rodríguez González, J. R., Guzmán-Morales, J., Chen, G., Jalali Dil, E., & Favis, B. D. (2022). Chitosan coatings with distinct innate immune bioactivities differentially stimulate angiogenesis, osteogenesis and chondrogenesis in poly-caprolactone scaffolds with controlled interconnecting pore size. Bioactive Materials, 10, 430-442. Disponible

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., Marchand, C., Rivard, G.-E., El-Gabalawy, H., & Poubelle, P. E. (2017). Effect of chitosan and coagulation factors on the wound repair phenotype of bioengineered blood clots. International Journal of Biological Macromolecules, 104(B), 1916-1924. Lien externe

Hoemann, C. D., & Fong, D. (2017). Immunological Responses to Chitosan for Biomedical Applications. Dans Jennings, J. A., & Bumgardner, J. D. (édit.), Chitosan Based Biomaterials Volume 1 : Fundamentals (p. 45-79). Lien externe

Hoemann, C. D., Veilleux, D., & Buschmann, M. D. (2017). Lyophilized polymer scaffold compositions, processes for preparation and use in anabolic wound repair. (Demande de brevet no US20170056550). 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., Gosselin, Y., Chen, H., Sun, J., Hurtig, M. B., Carli, A., & Stanish, W. D. (2013). Characterization of initial microfracture defects in human condyles. Journal of Knee Surgery, 26(5), 347-356. Lien externe

Hoemann, C. D., Guzmán-Morales, J., Tran-Khanh, N., Lavallée, G., Jolicoeur, M., & Lavertu, M. (2013). Chitosan rate of uptake in HEK293 cells is influenced by soluble versus microparticle state and enhanced by serum-induced cell metabolism and lactate-based media acidification. Molecules, 18(1), 1015-1035. Disponible

Hoemann, C. D., Lafantaisie-Favreau, C.-H., Lascau-Coman, V., Chen, G., & Guzmán-Morales, J. (2012). The Cartilage-Bone Interface. Journal of Knee Surgery, 25(02), 085-098. Lien externe

Hoemann, C. D., Kandel, R. A., Roberts, S., Saris, D. B. F., Creemers, L., Mainil-Varlet, P., Methot, S., Hollander, A. P., & Buschmann, M. D. (2011). International Cartilage Repair Society (ICRS) Recommended Guidelines for Histological Endpoints for Cartilage Repair Studies in Animal Models and Clinical Trials. CARTILAGE, 2(2), 153-172. Lien externe

Hurtig, M. B., Buschmann, M. D., Fortier, L. A., Hoemann, C. D., Hunziker, E. B., Jurvelin, J. S., Mainil-Varlet, P., McIlwraith, C. W., Sah, R. L., & Whiteside, R. A. (2011). Preclinical studies for cartilage repair : recommendations from the International Cartilage Repair Society. CARTILAGE, 2(2), 137-152. Lien externe

Hoemann, C. D., Sun, J., Hurtig, M., Guzman-Morales, J., & Hubert-Lafantaisie, C. (2011). Presolidified composition and method for in situ delivery of broad molecular weight range of chitosan implants with or without therapeutics for regenerative medicine and cartilage repair applications. (Demande de brevet no WO2011060554). Lien externe

Hoemann, C. D., & Sun, J. (2011). Two-part cytocompatible system, useful to prepare a cytocompatible polymer composition for repairing e.g. cartilage, comprises a first part liquid solution of a polymer in a first container and a second part liquid solution of a salt. (Demande de brevet no WO2011060553). Lien externe

Hurtig, M., Allendorf, S., Bell, A., Lowerison, M., & Hoemann, C. D. (2010). Depth-wise analysis of subchondral bone properties : implications in osteoarthritis and cartilage repair. Osteoarthritis and Cartilage, 18(11), S134-S134. 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., McKee, M. D., & Buschmann, M. D. (2009). Composition and method for the repair and regeneration of cartilage and other tissues. (Brevet no CA2412505). Lien externe

Hoemann, C. D., El-Gabalawy, H., & McKee, M. D. (2009). In Vitro Osteogenesis Assays: Influence of the Primary Cell Source on Alkaline Phosphatase Activity and Mineralization. Pathologie Biologie, 57(4), 318-323. Lien externe

Hoemann, C. D., Tran-Khanh, N., Lascau-Coman, V., Garon, M., Chen, H., Jarry, C., Shive, M. S., Sun, J., Chen, H., Tremblay, J., & Buschmann, M. D. (mai 2009). Quantitative histomorphometry of collagen types I & II and safranin-O in human osteochondral biopsies [Communication écrite]. 8th World Congress of the International for Cartilage Repair Society, Miami, Florida. Non disponible

Hoemann, C. D., Sun, J., McKee, M. D., Chevrier, A., Rossomacha, E., Rivard, G. E., Hurtig, M., & Buschmann, M. D. (2007). Chitosan-Glycerol Phosphate/Blood Implants Elicit Hyaline Cartilage Repair Integrated With Porous Subchondral Bone in Microdrilled Rabbit Defects. Osteoarthritis and Cartilage, 15(1), 78-89. Lien externe

Hoemann, C. D., Chenite, A., Sun, J., Hurtig, M., Serreqi, A., Lu, Z., & Buschmann, M. D. (février 2007). Cytocompatible chitosan hydrogels cross-linked by hydroxyethyl cellulose-glyoxal for cartilage repair applications [Communication écrite]. 53rd Annual Meeting of the Orthopaedic Research Society, San Diego, CA, USA. Non disponible

Hoemann, C. D., Chenite, A., Sun, J., Hurtig, M., Serreqi, A., Lu, Z., Rossomacha, E., & Buschmann, M. D. (2007). Cytocompatible Gel Formation of Chitosan-Glycerol Phosphate Solutions Supplemented With Hydroxyl Ethyl Cellulose Is Due to the Presence of Glyoxal. Journal of Biomedical Materials Research. Part A, 83A(2), 521-529. Lien externe

Hurtig, M. B., Hoemann, C. D., Fortier, L., Markel, M. D., & Grynpas, M. (septembre 2007). Recommendations for use of animal models in cartilage repair : report from the ICRS animal models working group [Communication écrite]. 7th World Congress International Society for Cartilage Repair, Warsaw, Poland. Non disponible

Hoemann, C. D., Hurtig, M., Rossomacha, E., Shive, M. S., & Buschmann, M. D. (janvier 2006). Chitosan-glycerol phosphate/blood clots adhere more than marrow-dervide clots to ovine microfracture defects [Communication écrite]. Transactions International Society for Cartilage Repair, San Diego, USA. Non disponible

Hoemann, C. D., Sun, J., Chevrier, A., McKee, M. D., & Buschmann, M. D. (janvier 2006). Chitosan-glycerol phosphate/blood implants increase subchondral bone porosity and integrated hyaline cartilage repair in marrow-stimulated defects [Communication écrite]. Transactions International Society for Cartilage Repair, San Diego, USA. Non disponible

Hoemann, C. D., Sun, J., Chevrier, A., McKee, M. D., & Buschmann, M. D. (mars 2006). Chitosan-glycerol phosphate/blood implants increase subchondral bone porosity and integrated hyaline cartilage repair in marrow-stimulated defects [Communication écrite]. Transactions of the 52nd Orthopedic Research Society, Chicago, Illinois. Non disponible

Hoemann, C. D., Ma, O., Lavertu, M., Lavalée, G., Sun, J., El-Gabalawy, H., Tran-Khanh, N., & Winnik, F. (mai 2006). Controlled derivatization of chitosan with rhodamine B-isothiocyanate to study the influence of chitosan structure on stromal cell recognition and uptake [Communication écrite]. Can Workshop on Pre-Clinical OA models, Montréal, Québec. Non disponible

Hoemann, C. D., Chenite, A., Sun, J., Serreqi, A., Hurtig, M., Lu, Z., & Buschmann, M. D. (octobre 2006). Crosslinked chitosan hydrogels for cartilage repair applications [Communication écrite]. Transactions 56th Canadian Chemical Engineering Conference, Sherbrooke, QC. Non disponible

Hoemann, C. D., Chenite, A., Sun, J., Hurtig, M., Serreqi, A., Zhan, L., Rossomacha, E., & Buschmann, M. D. (novembre 2006). Cytocompatible gel formation of chitosan-glycerol phosphate solutions supplemented with hydroxyl ethyl cellulose is due to the presence of glyoxal [Communication écrite]. Canadian Arthritis Network Annual Meeting, Winnipeg. Non disponible

Hoang, M. P., Lavalée, G., Sun, J., El-Gabalawy, H., McKee, M. D., Tran-Khanh, N., & Hoemann, C. D. (octobre 2006). Effect of chitosan on bone marrow stromal cell osteogenesis [Communication écrite]. Transactions 56th Canadian Chemical Engineering Conference, Sherbrooke, QC. Non disponible

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

Hoemann, C. D., Sun, J., McKee, M., Hurtig, M., Rivard, G. E., & Buschmann, M. D. (mars 2005). Rabbit hyaline cartilage repair after marrow stimulation depends on the surgical approach and Chitosan-GP Stabilised In Situ Blood Clot [Communication écrite]. Transactions of the Orthopedic Research Society, Washington, DC, USA. Non disponible

Hoemann, C. D., Sun, J., McKee, M., Hurtig, M., Rivard, G. E., Rossomacha, E., Chevrier, A., & Buschmann, M. D. (juillet 2005). Rabbit hyaline cartilage repair after marrow stimulation depends on the surgical approach together with an in situ stabilized chitosan-GP blood clot [Communication écrite]. Transactions 11th Canadian Connective Tissue Conference, Montréal, Québec. Non disponible

Hoemann, C. D., Sun, J., Légaré, A., McKee, M. D., & Buschmann, M. D. (2005). Tissue Engineering of Cartilage Using an Injectable and Adhesive Chitosan-Based Cell-Delivery Vehicle. Osteoarthritis and Cartilage, 13(4), 318-329. Lien externe

Hoemann, C. D., Hurtig, M., Sun, J., Rossomacha, E., Shive, M. S., McKee, M. D., Chevrier, A., & Buschmann, M. D. (janvier 2004). Hybrid clots of whole autologous blood mixed with physiological liquid chitosan improve cartilage repair in sheep defects with microfracture [Communication écrite]. Transactions international society for cartilage repair, Gent, Belgique. Non disponible

Hoemann, C. D., Hurtig, M., Sun, J., Rossomacha, E., Shive, M. S., McKee, M. D., Chevrier, A., & Buschmann, M. D. (février 2004). Improved cartilage repair with CarGel, an injectable chitosan device [Communication écrite]. Transactions orthopedic research society, San Francisco, Californie, USA. Non disponible

Hoemann, C. D. (2004). Molecular and biochemical assays of cartilage components. Methods in Molecular Medicine, 2, 127-156. Lien externe

Hoemann, C. D., Hurtig, M., Sun, J., McWade, D., Rossomacha, E., Shive, M., McKee, M. D., & Buschmann, M. D. (janvier 2003). Full-thickness cartilage repair using an injectable chitosan scaffold [Communication écrite]. Transactions 9th canadian connective tissue conference, Montréal, Québec. Non disponible

Hoemann, C. D., Hurtig, M., Sun, J., McWade, D., Rossamancha, E., Shive, M. S., McKee, M. D., & Buschmann, M. D. (janvier 2003). Full-thickness cartilage repair using and injectable chitosan scaffold. BST-Car-Gel. [Communication écrite]. Engineering tissue growth, Pittsburg, USA. Non disponible

Hoemann, C. D., Akens, M., Jun, S., Rossomacha, E., Shive, M. S., Buschmann, M. D., & Hurtig, M. B. (janvier 2003). Thermogelling chitosan formulation suppresses subchondral cyst formation in a cartilage repair model in sheep [Communication écrite]. American college of veterinary surgeons, Washington DC. Non disponible

Hoemann, C. D., Sun, J., Chrzanowski, V., & Buschmann, M. D. (2002). A Multivalent Assay to Detect Glycosaminoglycan, Protein, Collagen, RNA, and DNA Content in Milligram Samples of Cartilage or Hydrogel-Based Repair Cartilage. Analytical Biochemistry, 300(1), 1-10. Lien externe

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Iliescu, M., Hoemann, C. D., Shive, M. S., Chenite, A., & Buschmann, M. D. (2008). Ultrastructure of Hybrid Chitosan-Glycerol Phosphate Blood Clots by Environmental Scanning Electron Microscopy. Microscopy Research and Technique, 71(3), 236-247. Lien externe

Iliescu, M., Chevrier, A., Shive, M. S., McKee, M. D., Hoemann, C. D., & Buschmann, M. D. (janvier 2006). Ultrastructure of chitosan-glycerol phosphate/blood clots for cartilage repair [Communication écrite]. Transactions International Society for Cartilage Repair, San Diego, USA. Non disponible

Iliescu, M., Chevrier, A., Shive, M. S., McKee, M. D., Hoemann, C. D., & Buschmann, M. D. (mars 2006). Ultrastructure of chitosan-glycerol phosphate/blood clots for cartilage repair [Communication écrite]. Transactions of the 52nd Orthopedic Research Society, Chicago, Illinois. Non disponible

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Jacquemart, R., Chavane, N., Durocher, Y., Hoemann, C. D., De Crescenzo, G., & Jolicoeur, M. (2008). At Line Monitoring of Bioreactor Protein Production by Surface Plamon Resonance. Biotechnology and Bioengineering, 100(1), 184-188. Lien externe

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Kurdi, M., Chidiac, R., Hoemann, C. D., Zouein, F., Zgheib, C., & Booz, G. W. (2010). Hydrogels as a platform for stem cell delivery to the heart. Congestive heart failure, 16(3), 132-135. Lien externe

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Li, X., Ghavidel Mehr, N., Guzman-Morales, J., Favis, B. D., De Crescenzo, G., Yakandawala, N., & Hoemann, C. D. (2017). Cationic osteogenic peptide P15-CSP coatings promote 3-D osteogenesis in poly(epsilon-caprolactone) scaffolds of distinct pore size. Journal of Biomedical Materials Research Part A, 105(8), 2171-2181. Lien externe

Li, X., Mehr, N. G., Favis, B. D., De Crescenzo, G., Yakandawala, N., & Hoemann, C. D. (août 2016). Fusion peptide P15-CSP coatings promote in vitro osteogenesis in 84 and 141 micron pores of 3-D poly(epsilon-caprolactone) scaffolds [Communication écrite]. 25th International Materials Research Congress (IMRC 2016), Cancún, Mexico. Non disponible

Li, X., Contreras-Garcia, A., LoVetri, K., Yakandawala, N., Wertheimer, M. R., De Crescenzo, G., & Hoemann, C. D. (2015). Fusion peptide P15-CSP shows antibiofilm activity and pro-osteogenic activity when deposited as a coating on hydrophilic but not hydrophobic surfaces. Journal of Biomedical Materials Research: Part A, 103(12), 3736-3746. Lien externe

Lafantaisie-Favreau, C.-H., Guzmán-Morales, J., Sun, J., Chen, G., Harris, A., Smith, T. D., Carli, A., Henderson, J., Stanish, W. D., & Hoemann, C. D. (2013). Subchondral pre-solidified chitosan/blood implants elicit reproducible early osteochondral wound-repair responses including neutrophil and stromal cell chemotaxis, bone resorption and repair, enhanced repair tissue integration and delayed matrix deposition. BMC Musculoskeletal Disorders, 14(1). Disponible

Lascau-Coman, V., Hoemann, C. D., & Buschmann, M. D. (septembre 2008). Rapid EDTA microwave decalcification of rabbit osteochondral samples preserves enzyme activity and antigen epitopes [Communication écrite]. American Society for Bone and Mineral Research 30th Annual Meeting, Montréal, Québec. Non disponible

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Mathieu, C., Cheng, A. P., Fong, D., Diab, K., Mccormack, R., El Gabalawy, H., & Hoemann, C. D. (mai 2016). Relationship of UDP-glucose dehydrogenase activity and in vitro hyaluronic acid release by human fibroblast-like synoviocytes [Affiche]. 10th World Biomaterials Congress, Montréal, Québec. Publié dans Frontiers in Bioengineering and Biotechnology, 4. Disponible

Méthot, S., Changoor, A., Tran-Khanh, N., Hoemann, C. D., Stanish, W. D., Restrepo, A., Shive, M. S., & Buschmann, M. D. (2016). Osteochondral Biopsy Analysis Demonstrates That BST-CarGel Treatment Improves Structural and Cellular Characteristics of Cartilage Repair Tissue Compared With Microfracture. CARTILAGE, 7(1), 16-28. Lien externe

Mehr, N. G., Li, X., Chen, G., Favis, B. D., & Hoemann, C. D. (2015). Pore size and LbL chitosan coating influence mesenchymal stem cell in vitro fibrosis and biomineralization in 3D porous poly(epsilon-caprolactone) scaffolds. Journal of Biomedical Materials Research - Part A, 103(7), 2449-2459. Lien externe

Mathieu, C., Chevrier, A., Lascau-Coman, V., Rivard, G. E., & Hoemann, C. D. (2013). Stereo Logical Analysis of Subchondral Angiogenesis Induced by Chitosan and Coagulation Factors in Microdrilled Articular Cartilage Defects. Osteoarthritis and Cartilage, 21(6), 849-859. Lien externe

Marchand, C., Chen, G., Tran-Khanh, N., Sun, J., Chen, H., Buschmann, M. D., & Hoemann, C. D. (2012). Microdrilled Cartilage Defects Treated With Thrombin-Solidified Chitosan/Blood Implant Regenerate a More Hyaline, Stable, and Structurally Integrated Osteochondral Unit Compared to Drilled Controls. Tissue Engineering Part A, 18(5-6), 508-519. Lien externe

Marchand, C., Chen, H., Buschmann, M. D., & Hoemann, C. D. (2011). Standardized three-dimensional volumes of interest with adapted surfaces for more precise subchondral bone analyses by micro-computed tomography. Tissue Engineering. Part C, Methods, 17(4), 475-484. Lien externe

Marchand, C., Bachand, J., Périnêt, J., Baraghis, E., Lamarre, M., Rivard, G. E., De Crescenzo, G., & Hoemann, C. D. (2010). C3, C5, and factor B bind to chitosan without complement activation. Journal of Biomedical Materials Research. Part A, 93(4), 1429-1441. Lien externe

Methot, S., Hoemann, C. D., Rossomacha, E., Restrepo, A., Stanish, W. D., MacDonald, P., Mohtadi, N., Marks, P., Malo, M., McCormack, R., Desnoyers, J., Pelet, S., Lopez-Olivia, F., Vaquero, J., Macule, F., Shive, M., & Buschmann, M. D. (septembre 2010). ICRS histology scores of biopsies from an interim analysis of a randomized controlled clinical trial show significant improvement in tissue quality at 13 months for BST-CarGelTM versus microfracture [Communication écrite]. Transaction International Society for Cartilage Repair, Barcelona, Spain. Non disponible

Methot, S., Hoemann, C. D., Rossomacha, E., Garon, M., Shive, M. S., Tremblay, J., & Buschmann, M. D. (mai 2009). ICRS I and ICRS II scoring of human osteochondral biopsies : readervariability and sensitivity to staining method [Communication écrite]. 8th World Congress of the International for Cartilage Repair Society, Miami, Florida. Non disponible

Marchand, C., Chen, H. M., Sun, J., Tran-Khanh, N., Buschmann, M. D., & Hoemann, C. D. (novembre 2009). Osteochondral evaluation of repair tissue after 6.5 months following rapid in situ solidification of chitosan-GP/blood implant over debrided and microdrilled trochlear defects in adult rabbits [Communication écrite]. Canadian Arthritis Network Annual Scientific Meeting, Vancouver, British Colombia. Non disponible

Marchand, C., Rivard, G. E., Sun, J., & Hoemann, C. D. (2009). Solidification Mechanisms of Chitosan-Glycerol Phosphate/Blood Implant for Articular Cartilage Repair. Osteoarthritis and Cartilage, 17(7), 953-960. Lien externe

Marchand, C., Chen, H., Sun, J., Buschmann, M. D., & Hoemann, C. D. (mai 2009). Subchondral bone removal and regeneration in debrided and microdrilled trochlear defects in adult rabbits after 6.5 months repair [Communication écrite]. 8th World Congress of the International for Cartilage Repair Society, Miami, Florida. Non disponible

Ma, O., Lavertu, M., Sun, J., Nguyen, S., Buschmann, M. D., Winnik, F. M., & Hoemann, C. D. (2008). Precise Derivatization of Structurally Distinct Chitosans With Rhodamine B Isothiocyanate. Carbohydrate polymer, 72(4), 616-624. Lien externe

Méthot, S., Chevrier, A., Sun, J., Hurtig, M., Hoemann, C. D., Shive, M. S., & Buschmann, M. D. (septembre 2007). Interspecies comparison of meniscus properties in human, sheep and rabbit and development of animal models for meniscus repair [Communication écrite]. 7th World Congress International Society for Cartilage Repair, Warsaw, Poland. Lien externe

Marchand, C., Rivard, G.-E., Sun, J., & Hoemann, C. D. (septembre 2007). Solidification mechanisms of chitosan-glycerol phosphate/blood implants for articular cartilage repair [Communication écrite]. 7th World Congress International Society for Cartilage Repair, Warsaw, Poland. Lien externe

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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

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Pham, M.-H., El-Gabalawy, H., Lavallée, G., TranhKhan, N., McKee, M. D., Centola, M., & Hoemann, C. D. (septembre 2007). Effect of chitosan on in vitro human bone marrow stromal cell osteogenesis and angiogenic factor secretion [Communication écrite]. 7th World Congress International Society for Cartilage Repair, Warsaw, Poland. Lien externe

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Roughley, P., Hoemann, C. D., Desrosiers, E., Mwale, F., Antoniou, J., & Alini, M. (2006). The Potential of Chitosan-Based Gels Containing Intervertebral Disc Cells for Nucleus Pulposus Supplementation. Biomaterials, 27(3), 388-396. Lien externe

Rossomacha, E., Hoemann, C. D., Chevrier, A., & Shive, M. S. (2005). Microwave histoprocessing : one-step dehydration and clearing of articular cartilage and synovial tissue. Histologic, 38(2), 25-25. Lien externe

Rossomacha, E., Hoemann, C. D., & Shive, M. S. (2004). Simple Methods for Staining Chitosan in Biotechnological Applications. Journal of Histotechnology, 27(1), 31-36. Lien externe

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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

Sim, S., Chevrier, A., Garon, M., Quenneville, E., Yaroshinsky, A., Hoemann, C. D., & Buschmann, M. D. (2014). Non-destructive electromechanical assessment (Arthro-BST) of human articular cartilage correlates with histological scores and biomechanical properties. Osteoarthritis and Cartilage, 22(11), 1926-1935. Lien externe

Sun, J., Serreqi, A., Buschmann, M. D., Chenite, A., & Hoemann, C. D. (2012). Composition for cytocompatible, injectable, self-gelling chitosan solutions for encapsulating and delivering live cells or biologically active factors. (Brevet no CA2493083). Lien externe

Simard, P., Galarneau, H., Marois, S., Rusu, D., Hoemann, C. D., Poubelle, P. E., El-Gabalawy, H., & Fernandes, M. J. G. (2009). Neutrophils exhibit distinct phenotypes toward chitosans with different degrees of deacetylation: implications for cartilage repair. Arthritis Research and Therapy, 11(3). Disponible

Shive, M. S., Hoemann, C. D., Restrepo, A., Hurtig, M. B., Duval, N., Ranger, P., Stannish, W., & Buschmann, M. D. (2006). BST-CarGel: In Situ ChondroInduction for Cartilage Repair. Dans Operative Techniques in Orthopaedics: Articular Cartilage Surgery (Vol. 16, p. 271-278). Lien externe

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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

Tran-Khanh, N., Hoemann, C. D., Lascau-Coman, V., Garon, M., Chen, H., Jarry, C., Sun, J., Tremblay, J., Shive, M. S., & Buschmann, M. D. (mai 2009). Stereological quantification of subchondral bone properties in human osteochondral biopsies [Communication écrite]. XIth Congress of the International Society of Bone Morphometry, Zell am See, Austria. Lien externe

Tran-Khanh, N., Hoemann, C. D., Lascau-Coman, V., Garon, M., Chen, H., Jarry, C., Sun, J., Tremblay, J., Shive, M. S., & Buschmann, M. D. (mai 2009). Stereological quantification of subchondral bone properties in human osteochondral biopsies [Communication écrite]. 8th World Congress of the International for Cartilage Repair Society, Miami, Florida. Non disponible

Tran-Khanh, N., Lavertu, M., Hoemann, C. D., & Buschmann, M. D. (février 2007). Chondrocyte proliferation at the agarose-media interface resembles appositional mechanisms of the epiphyseal growth plate [Communication écrite]. 53rd Annual Meeting of the Orthopaedic Research Society, San Diego, CA, USA. Lien externe

Thibault, M. M., Hoemann, C. D., & Buschmann, M. D. (2007). Fibronectin, Vitronectin, and Collagen I Induce Chemotaxis and Haptotaxis of Human and Rabbit Mesenchymal Stem Cells in a Standardized Transmembrane Assay. Stem Cells and Development, 16(3), 489-502. Lien externe

Tran-Khanh, N., Lavertu, M., Lascau-Coman, V., Hoemann, C. D., & Buschmann, M. D. (septembre 2007). Time-lapse confocal imaging of living chondrocytes in appositionally developing outgrowths at the agarose-media interface [Communication écrite]. 7th World Congress International Society for Cartilage Repair, Warsaw, Poland. Lien externe

Tran-Khanh, N., Lavertu, M., Hoemann, C. D., & Buschmann, M. D. (octobre 2006). Chondrocyte proliferation at the agarose-media interface resembles appositional mechanisms of the epiphyseal growth plate [Communication écrite]. Transactions 56th Canadian Chemical Engineering Conference, Sherbrooke, QC. Non disponible

Tran-Khanh, N., Hoemann, C. D., McKee, M. D., Henderson, J. E., & Buschmann, M. D. (juillet 2005). Aged bovine chondrocytes display a diminished capacity to produce a collagen-rich, mechanically funcitonal cartilage extracellular matrix [Communication écrite]. Transactions 11th Canadian Connective Tissue Conference, Montréal, Québec. Non disponible

Tran-Khanh, N., Hoemann, C. D., McKee, M. D., Henderson, J. E., & Buschmann, M. D. (2005). Aged Bovine Chondrocytes Display a Diminished Capacity to Produce a Collagen-Rich, Mechanically Functional Cartilage Extracellular Matrix. Journal of Orthopaedic Research, 23(6), 1354-1362. Lien externe

Tran-Khanh, T., Hoemann, C. D., & Buschmann, M. D. (mars 2005). Cell Proliferation and Collagen Production Decline with Age in Bovine Chondrocytes [Communication écrite]. Transactions of the Orthopedic Research Society, Washington, DC, USA. Non disponible

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