Duron A. Lee scite author profile

Duron A. Lee

5Publications

61Citation Statements Received

83Citation Statements Given

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383

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Drexel University, University of Connecticut

Publications

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Synthesis, characterization, and osteocompatibility evaluation of novel alanine‐based polyphosphazenes

Nair

Lee

Bender

et al. 2005

J Biomedical Materials Res

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This study deals with the synthesis and in vitro osteocompatibility evaluation of two novel alanine-containing biodegradable ester polyphosphazenes as candidates to form self-setting composites with hydroxyapatite (HAp) precursors. The two novel biodegradable polyphosphazenes synthesized were poly[(ethyl alanato)1.0(ethyl oxybenzoate)1.0 phosphazene] (PN-EA/EOB) and poly[(ethyl alanato)1.0(propyl oxybenzoate)1.0 phosphazene] (PN-EA/POB). The polymers were characterized by multinuclear magnetic resonance (NMR), differential scanning calorimetry (DSC), and gel permeation chromatography (GPC). Biodegradability and percentage water absorption of the polymers were evaluated by following the mass change in phosphate buffer (pH 7.4) at 37 degrees C. PN-EA/POB underwent faster degradation and showed higher water absorption compared to PN-EA/EOB. Both polymers became insoluble in common organic solvents following hydrolysis presumably due to crosslinking reactions accompanying the degradation process. Osteoblast cell adhesion and proliferation on PN-EA/EOB and PN-EA/POB was followed by scanning electron microscopy (SEM) and by using a biochemical assay. Both PN-EA/EOB and PN-EA/POB supported the adhesion and proliferation of primary rat osteoblast cells in vitro. Furthermore, the enzymatic activity of the osteoblast cells cultured on the polymers was confirmed by the alkaline phosphatase activity. Thus, these biodegradable amino-acid-based polyphosphazenes are promising new materials for forming self-setting bone cements.

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Activation of cyclic amp/protein kinase: A signaling pathway enhances osteoblast cell adhesion on biomaterials for regenerative engineering

Ashe

Kan

et al. 2010

Journal Orthopaedic Research

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Osteoblast cell adhesion on biomaterials is an important goal for implants to be useful in bone regeneration technologies. The adhesion of osteoblastic cells to biomaterials has been investigated in the field of bone regenerative engineering. Previous work from our group demonstrated that osteoblastic cells adhering to biodegradable biomaterials require the expression of integrins on the cell surface. However, the underlying molecular signaling mechanism is still not fully clear. We report here that cyclic adenosine monophosphate (cAMP), a small signaling molecule, regulates osteoblast cell adhesion to biomaterial surfaces. We used an in vitro cell adhesion assay to demonstrate that at 0.1 mM, 8-Br-cAMP, a cell-permeable cAMP analog, significantly enhances osteoblast-like cells' (MC3T3-E1) adherence to biomaterials. Moreover, we demonstrate that a commonly used cAMP-elevating agent, forskolin, promotes cell adhesion similar to that of the cell permeable cAMP analog. By using different target-specific cAMP analogs: 8-CPT-2Me-cAMP which specifically activates exchange protein activated by cAMP (Epac), and 6-Bnz-cAMP which specifically activates protein kinase A (PKA), we observed that the PKA signaling pathway plays a dominant role in this process. Thus, this report suggests a new method to enhance osteoblast cell adhesion on biodegradable biomaterials for bone regenerative engineering applications. ß

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Biomimetic Matrices for Integrin-Mediated Cell Adhesion

Ashe

Lee

et al. 2010

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Electrospun Polymeric Nanofiber Scaffolds for Tissue Regeneration

Lee¹,

Ashe²,

Laurencin³

2014

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Contributors

Abid¹,

Adoff²,

Ali³

et al. 2018

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Duron A. Lee

Synthesis, characterization, and osteocompatibility evaluation of novel alanine‐based polyphosphazenes

Activation of cyclic amp/protein kinase: A signaling pathway enhances osteoblast cell adhesion on biomaterials for regenerative engineering

Biomimetic Matrices for Integrin-Mediated Cell Adhesion

Electrospun Polymeric Nanofiber Scaffolds for Tissue Regeneration

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