Biomaterials, Biodegradables and Biomimetics Research Group

Papers in Scientific Journals

Elucidating the individual effects of calcium and phosphate ions on hMSCs by using composite materials

Abstract

The biological performance of bone graft substitutes based on calcium phosphate bioceramics is dependent

on a number of properties including chemical composition, porosity and surface micro- and nanoscale

structure. However, in contemporary bioceramics these properties are interlinked, therefore making

it difficult to investigate the individual effects of each property on cell behavior. In this study we have

attempted to investigate the effects of calcium and inorganic phosphate ions independent from one

another by preparing composite materials with polylactic acid (PLA) as a polymeric matrix and calcium

carbonate or sodium phosphate salts as fillers. Clinically relevant bone marrow derived human mesenchymal

stromal cells (hMSCs) were cultured on these composites and proliferation, osteogenic differentiation

and ECM mineralization were investigated with time and were compared to plain PLA control

particles. In parallel, cells were also cultured on conventional cell culture plates in media supplemented

with calcium or inorganic phosphate to study the effect of these ions independent of the 3D environment

created by the particles. Calcium was shown to increase proliferation of cells, whereas both calcium and

phosphate positively affected alkaline phosphatase enzyme production. QPCR analysis revealed positive

effects of calcium and of inorganic phosphate on the expression of osteogenic markers, in particular bone

morphogenetic protein-2 and osteopontin. Higher levels of mineralization were also observed upon

exposure to either ion. Effects were similar for cells cultured on composite materials and those cultured

in supplemented media, although ion concentrations in the composite cultures were lower. The approach

presented here may be a valuable tool for studying the individual effects of a variety of soluble compounds,

including bioinorganics, without interference from other material properties.

Journal
Acta Biomaterialia
URL
www.sciencedirect.com/science/article/pii/S1742706115000665
Keywords
bone graft substitute, Calcium, composite, hMSCs, Inorganic phosphate
Rights
Open Access
Peer Reviewed
Yes
Status
published
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