J Appl Biomed 14:321-330, 2016 | DOI: 10.1016/j.jab.2016.07.001

Solid-state NMR study of discrete environments of bone mineral nanoparticles using phosphorus-31 relaxation

Agnieszka Kaflaka,*, Dariusz Chmielewskib, Waclaw Kolodziejskia
a Medical University of Warsaw, Department of Inorganic and Analytical Chemistry, Banacha 1, Warsaw, Poland
b Department of Orthopaedic Surgery and Traumatology, HOSPITEN Lanzarote, Spain

Bone mineral nanoparticles, residing between collagenous fibres, contain a crystalline apatite core (CAC) covered by an amorphous hydrated surface layer (AHSL). The main objectives of this work were to characterize the nanoparticles of human bone mineral and their discrete CAC and AHSL regions and relate this information to bone diseases. This pilot study involved 18 postmenopausal women suffering from osteoarthritis together with osteoporosis or osteopenia. Trabecular tissue specimens were acquired from the femoral intertrochanteric region during total hip arthroplasty. The specimens of whole bone were examined by 31P solid-state NMR (ssNMR) to measure the concentration ratio of phosphorus in the AHSL and CAC locations, together with their 31P linewidths and spin-lattice relaxation times. It was found that the AHSL region of the studied specimens contained 13-24% apatite phosphorus. The magnitude, hydration and structural order of AHSL and CAC were dependent on the progress of the pertinent diseases. Thus, the 31P ssNMR spectroscopy can be used ex vivo to selectively analyse the discrete nanoapatite environments in whole bone specimens and possibly assist in postoperative medical diagnostics.

Keywords: Apatite; Bone; Nanomaterial; Osteoarthritis; Osteoporosis; Nuclear magnetic resonance

Received: January 26, 2016; Revised: June 29, 2016; Accepted: July 14, 2016; Published: November 1, 2016  Show citation

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Kaflak A, Chmielewski D, Kolodziejski W. Solid-state NMR study of discrete environments of bone mineral nanoparticles using phosphorus-31 relaxation. J Appl Biomed. 2016;14(4):321-330. doi: 10.1016/j.jab.2016.07.001.
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