Melissa A. Dupree scite author profile

The classic paradigm for in vitro tissue engineering of bone involves the isolation and culture of donor osteoblasts or osteoprogenitor cells within three-dimensional (3D) scaffold biomaterials under conditions that support tissue growth and mineralized osteoid formation. Our studies focus on the development and utilization of new dynamic culture technologies to provide adequate nutrient flux within 3D scaffolds to support ongoing tissue formation. In this study, we have developed a basic one-dimensional (1D) model to characterize the efficiency of passive nutrient diffusion and transport flux to bone cells within 3D scaffolds under static and dynamic culture conditions. Internal fluid perfusion within modeled scaffolds increased rapidly with increasing pore volume and pore diameter to a maximum of approximately 1% of external fluid flow. In contrast, internal perfusion decreased significantly with increasing pore channel tortuosity. Calculations of associated nutrient flux indicate that static 3D culture and some inappropriately designed dynamic culture environments lead to regions of insufficient nutrient concentration to maintain cell viability, and can result in steep nutrient concentration gradients within the modeled constructs. These quantitative studies provide a basis for development of new dynamic culture methodologies to overcome the limitations of passive nutrient diffusion in 3D cell-scaffold composite systems proposed for in vitro tissue engineering of bone.

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Fibroblast Growth Factor 2 Induced Proliferation in Osteoblasts and Bone Marrow Stromal Cells: A Whole Cell Model

Dupree

Pollack

Levine

et al. 2006

Biophysical Journal

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Fibroblast growth factor 2 (FGF2) can enhance the proliferative capacity of bone and bone marrow stromal cells; however, the mechanisms behind this effect are not well described. We present a whole-cell kinetic model relating receptor-mediated binding, internalization, and processing of FGF2 to osteoblastic proliferative response. Focusing on one of the potential signaling complex stoichiometries, we utilized experimentally measured and modeled estimated rate constants to predict in vitro proliferation and distinguish between potential binding orders. We found that piecewise assemblage of a ternary signaling complex may occur in several ways depending on the local binding environment. Using experimental data of endocytosed FGF2 as a constraint, we have also shown evidence of potential multistep processes involved in heparan-sulfate proteoglycans-bound FGF2 release, internalization, and fragment formation in conjunction with the normal metabolism of the proteoglycan.

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Gibberellic Acid Effects on Greening in Pea Seedlings

Mathis¹,

Bradburne²,

Dupree³

1989

Plant Physiol.

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Engaging Young Adults in Proactive Health Behaviors: A Goal-Setting Process

Dupree

White-Welkley

Lampl

2013

Glob Adv Health Med

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The Human Health Program at Emory University, Atlanta, Georgia, is an undergraduate curriculum that focuses on health in its broadest context, exploring novel strategies that educate, engage, empower, and encourage college students to develop and sustain healthy lifestyle behaviors. In the program, students take part in a onesemester experience that is a blend of academic health education and wellness coaching, where the group class supports a self-directed health goal process.

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An Analysis of the Engineering Education Research Base on Interventions

Lovitts

Dupree

Fortenberry

2006

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Melissa A. Dupree

Tissue engineered bone: Measurement of nutrient transport in three‐dimensional matrices

Fibroblast Growth Factor 2 Induced Proliferation in Osteoblasts and Bone Marrow Stromal Cells: A Whole Cell Model

Gibberellic Acid Effects on Greening in Pea Seedlings

Engaging Young Adults in Proactive Health Behaviors: A Goal-Setting Process

An Analysis of the Engineering Education Research Base on Interventions

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