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Nondestructive, longitudinal measurement of collagen scaffold degradation using computed tomography and gold nanoparticles

journal contribution
posted on 2019-08-08, 00:00 authored by J.V. Tedesco, K. Grandfield, R. Roeder, T. Curtis, T. Finamore
Gold nanoparticles and computed tomography were used synergistically to enable nondestructive, longitudinal, and volumetric measurement of collagen scaffold degradation. Biodegradable materials, such as collagen scaffolds, are used extensively in clinical medicine for tissue regeneration and/or as an implantable drug delivery vehicle. However, available methods to study biomaterial degradation are typically invasive, destructive, and/or non-volumetric. Therefore, the objective of this study was to investigate a new method for nondestructive, longitudinal, and volumetric measurement of collagen scaffold degradation. Gold nanoparticles (Au NPs) were covalently conjugated to collagen fibrils during scaffold preparation to enable contrast-enhanced imaging of collagen scaffolds. The X-ray attenuation of as-prepared scaffolds increased linearly with increased Au NP concentration such that ≥60 mM Au NPs provided sufficient contrast to measure scaffold degradation. Collagen scaffold degradation kinetics were measured to increase during in vitro enzymatic degradation in media with an increased concentration of collagenase. The scaffold degradation kinetics measured by micro-CT exhibited lower variability compared with gravimetric measurement and were validated by measurement of the release of Au NPs from the same samples by optical spectroscopy. Thus, Au NPs and CT synergistically enabled nondestructive, longitudinal, and volumetric measurement of collagen scaffold degradation.

History

Date Modified

2019-08-08

Language

  • English

Alternate Identifier

20403372

Publisher

Royal Society of Chemistry

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