Joe Edgington scite author profile

Joe Edgington

2Publications

18Citation Statements Received

85Citation Statements Given

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Washington State University

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Calcium phosphate ceramics in drug delivery

Bose

Tarafder

Edgington

et al. 2011

JOM

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Calcium phosphate (CaP) particulates, cements and scaffolds have attracted signifi cant interest as drug delivery vehicles. CaP systems, including both hydroxyapaptite and tricalcium phosphates, possess variable stoichiometry, functionality and dissolution properties which make them suitable for cellular delivery. Their chemical similarity to bone and thus biocompatibility, as well as variable surface charge density contribute to their controlled release properties. Among specifi c research areas, nanoparticle size, morphology, surface area due to porosity, and chemistry controlled release kinetics are the most active. This article discusses CaP systems in their particulate, cements, and scaffold forms for drug, protein, and growth factor delivery toward orthopedic and dental applications.

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Tricalcium phosphate and tricalcium phosphate/polycaprolactone particulate composite for controlled release of protein

Vahabzadeh

Edgington

Bose

2013

Materials Science and Engineering: C

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β-Tricalcium phosphate (β-TCP) with three different particle size ranges was used to study the effects of particle size and surface area on protein adsorption and release. Polycaprolactone (PCL) coating was applied on the particle systems to investigate its effect on particulate systems properties from both structural and application aspects. The maximum loading of 27 mg/g was achieved for 100 nm particles. Bovine serum albumin (BSA) loading amount was controlled by varying the BSA loading solution concentration, as well as the sample powder’s surface area. Increasing the surface area of the delivery powder significantly increased loading and release yield. Unlike the samples with low surface area, the lowest particle size samples showed sigmoidal release profile. This indicated that release was governed by different mechanism for particles with different sizes. While the majority of samples showed no more than 50% release, the 550nm particles demonstrated 100% release. PCL-coating showed no significant ability to attenuate burst release in PBS. However, it led to a steadier release profile as compared to the bare TCP particles. FTIR analysis also proved that the secondary structure of BSA did not change significantly during the adsorption; however, minor denaturation was found during the release. The same results were found when PCL coating was applied on the TCP particles. We envision potential use of TCP and TCP+PCL systems in bone growth factor or orthopedic drug delivery applications in future bone tissue engineering application.

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Joe Edgington

Calcium phosphate ceramics in drug delivery

Tricalcium phosphate and tricalcium phosphate/polycaprolactone particulate composite for controlled release of protein

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