Sr Solid-State NMR as a Structurally Sensitive Tool for the Investigation of Materials:Antiosteoporotic Pharmaceuticals and Bioactive Glasses

Bonhomme, Christian and Gervais, Christel and Folliet, Nicolas and Pourpoint, Frédérique and Coelho Diogo, Cristina and Lao, Jonathan and Jallot, Edouard and Lacroix, Joséphine and Nedelec, Jean-Marie and Iuga, Dinu and Hanna, John V. and Smith, Mark E. and Xiang, Ye and Du, Jincheng and Laurencin, Danielle (2012) Sr Solid-State NMR as a Structurally Sensitive Tool for the Investigation of Materials:Antiosteoporotic Pharmaceuticals and Bioactive Glasses. Journal of the American Chemical Society, 134 (30). pp. 12611-12628. ISSN 0002-7863

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Abstract

Strontium is an element of fundamental importance in biomedical science. Indeed, it has been demonstrated that Sr2+ ions can promote bone growth and inhibit bone resorption. Thus, the oral administration of Sr-containing medications has been used clinically to prevent osteoporosis, and Sr-containing biomaterials have been developed for implant and tissue engineering applications. The bioavailability of strontium metal cations in the body and their kinetics of release from materials will depend on their local environment. It is thus crucial to be able to characterize, in detail, strontium environments in disordered phases such as bioactive glasses, to understand their structure and rationalize their properties. In this paper, we demonstrate that 87Sr NMR spectroscopy can serve as a valuable tool of investigation. First, the implementation of high-sensitivity 87Sr solid-state NMR experiments is presented using 87Sr-labeled strontium malonate (with DFS (double field sweep), QCPMG (quadrupolar Carr–Purcell–Meiboom–Gill), and WURST (wideband, uniform rate, and smooth truncation) excitation). Then, it is shown that GIPAW DFT (gauge including projector augmented wave density functional theory) calculations can accurately compute 87Sr NMR parameters. Last and most importantly, 87Sr NMR is used for the study of a (Ca,Sr)-silicate bioactive glass of limited Sr content (only 9 wt %). The spectrum is interpreted using structural models of the glass, which are generated through molecular dynamics (MD) simulations and relaxed by DFT, before performing GIPAW calculations of 87Sr NMR parameters. Finally, changes in the 87Sr NMR spectrum after immersion of the glass in simulated body fluid (SBF) are reported and discussed.

Item Type:
Journal Article
Journal or Publication Title:
Journal of the American Chemical Society
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1500/1503
Subjects:
Departments:
ID Code:
65012
Deposited By:
Deposited On:
06 Jun 2013 09:35
Refereed?:
Yes
Published?:
Published
Last Modified:
15 Jan 2020 07:38