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Academic Calendar

Event Scheduled for Apr 17, 2018

Event: PhD Dissertation Defense - Drew Clearfield

Location: UTEB 476

Time: 12:00 pm

Details of Event:
PhD Dissertation Defense

Presenter: Drew Clearfield
Major Advisor: Dr. Mei Wei
Associate Advisors: Dr. Harold Brody, Dr. George Rossetti, Dr. Wendy Vanden Berg-Foels, Dr. David Rowe

Date: Tuesday, April 17th, 2018
Time: 12:00 PM
Place: UTEB 476

Title: Multizonal Scaffolds for Osteochondral Tissue Engineering

Osteochondral tissue is a biphasic material comprised of articular cartilage integrated atop subchondral bone. Damage to this tissue is highly problematic, owing to its intrinsic inability to regenerate functional tissue in response to trauma or disease. Further, the function of the tissue is largely conferred by its compartmentalized zonal microstructure and composition. Current clinical treatments fail to regenerate new tissue that recapitulates this zonal structure. Consequently, regenerated tissue often lacks long-term stability. To address this growing problem, we propose the development of tissue engineered biomaterials that mimic the zonal microstructure and composition of osteochondral tissue. First, a unidirectional freeze casting platform was developed that facilitated the fabrication of highly-aligned porous collagen scaffolds to serve as the superficial zone of the multidirectional scaffold. Subsequently, a novel lyophilization bonding process was developed that allowed for the development of monolithic multidirectional collagen-based scaffolds that mimicked the structure and composition of the superficial, transition, calcified cartilage, and osseous zones of osteochondral tissues. The microstructure of multidirectional scaffolds was characterized and the ability of these scaffolds to promote osteochondral differentiation of progenitor cells was assessed using a novel transgenic multi-reporter cell platform. Zonal osteogenic differentiation of bone marrow stromal cells was confirmed by transition of pre-osteoblast marker BSP-GFPtopaz to late osteoblast/early osteocyte marker DMP1-RFPmCherry. Conventional histological and gene expression analysis corroborated fluorescence data. Zonal chondrogenesis of triple transgenic articular chondrocytes harboring reporters for fibrocartilage (Col3.6-GFPtopaz), articular cartilage (Col2a1-GFPcyan), and hypertrophic (Col10a1-RFPmCherry) lineages was assessed and corroborated in a similar manner. Though the majority of fluorescent cells (65%) remained of articular origin, there was a progression (28%) towards a pre-hypertrophic phenotype. Combined with fluorescent reporter information, gene expression, histological, and immunohistochemical analyses, subtle differences zone-specific cellular phenotype and newly-formed tissue were identified. Upon ectopic implantation in mice for 8 weeks, pre-hypertrophic cell populations terminally matured into mineralized tissue. Together, these data suggest that multidirectional zonal scaffolds hold promise for clinical use in directing zonal osteochondral repair by articular chondrocytes.

Target Audience: Not Available

Sponsored By: Materials Science and Engineering Department

Pamphlet/Flyer: No Pamphlet/Flyer Available

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