Development of multilayered osteochondral tissue substitute using 3D bioprinting technology
Supervisor: Dr. Isabelle Catelas
In my doctoral project, I am focusing on addressing the challenges of full thickness osteochondral tissue regeneration through the use of innovative biofabrication approaches. I developed zone-specific bioinks for 3D bioprinting of multilayered cartilage and osteochondral tissue substitutes for joint resurfacing application.
Keywords: Biofabrication; osteochondral tissue engineering; osteochondral interface; bioinks; multizonal const
Equipment: 3D bioprinter, rheometer, mechanical testing machine, confocal microscopy
Techniques: 3D bioprinting, live/dead assay, immunohistochemical analysis, 1HNMR
Mahdieh Heydarigoojani
Contact Information
- University of Ottawa
Department of Mechanical Engineering - 800 King Edward Avenue,
Ottawa, Ontario,
Canada K1N 6N5 - Email: mheyd033@uottawa.ca
- Home: 3439977757
- Work: 3439977757
- PubMed
- Membership#C253169
Biomaterial Highlight Of The Month
Effect of polar, hydrophobic, and ionic polyurethane character on adsorbed IgG-mediated monocyte activation
Kyle Battiston
Read More
