Verena Schnitzler scite author profile

The reaction of aqueous Zoledronate solutions with β-tricalcium phosphate resulted in the precipitation of a crystalline Zoledronate complex on the surface of the calcium phosphate. This complex (CaNa[(HO)(C4H5N2)C(PO3)(PO3H)]·xH2O) was found to be metastable, leading to a pure calcium complex [Ca3[(HO)(C4H5N2)C(PO3)(PO3H)]2·xH2O] upon washing with water. This latter compound was found to release the bisphosphonate in phosphate buffers, in direct proportion to the phosphate concentration, while using a specific in vitro bone resorption model, an inhibition of osteoclastic activity was observed with this material. This suggested that when this composite is implanted in bone tissues, the drug will be released in greater concentration the more the bone is being resorbed, resulting in a decrease of osteoclast activity and making this drug device combination suitable for practical application as a bisphosphonate local delivery system. In addition, the chemical environment of the bisphosphonate moiety in the two reported bisphosphonate/calcium phosphate composites was probed using 31P and 23Na magic-angle-spinning NMR and two-dimensional 31P homonuclear and 31P−1H heteronuclear correlation experiments, thus giving clear evidence that modern high-resolution solid-state NMR is a powerful tool for the characterization of calcium phosphate-based biomaterials.

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Verena Schnitzler

Calcium phosphate cements for bone substitution: Chemistry, handling and mechanical properties

Vertebroplasty using bisphosphonate-loaded calcium phosphate cement in a standardized vertebral body bone defect in an osteoporotic sheep model

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Reaction of Zoledronate with β-Tricalcium Phosphate for the Design of Potential Drug Device Combined Systems

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