Development of an in vitro confinement test to predict the clinical handling of polymer-based injectable bone substitutes

Abstract

The objective of the current study was to present a simple and standardized system as a preliminary attempt to assess the confinement of polymer-based injectable bone substitutes (IBSs) in vitro. Four different types of polymer-based IBSs were selected as model compounds, a thermosensitive collagen gel, a colloidal gelatin gel, a covalently crosslinked oligo(poly(ethylene glycol)fumarate (OPF) gel and a OPF-calcium phosphate composite. A ceramic-based IBS (i.e. a self-setting calcium phosphate cement) was used as reference. The confinement of all IBSs was tested under three different conditions: (1) no flow (as control), (2) dynamic flow after injection and (3) dynamic flow during injection. The results presented herein confirmed that the proposed test can be used to quantify the confinement of various IBSs within artificial defects under static or dynamic flow conditions, thereby offering a potential tool for predictive quantitative determination of the confinement of IBSs in vivo.