Biological characteristics of fully demineralized cancellous bone matrix / 中国组织工程研究

ABSTRACT

BACKGROUND: As an ideal scaffold of cartilage tissue engineering, demineralized bone matrix (DBM) has been widespread used. But some of biological characters remain poorly understood.OBJECTIVE: To determine the degradation capacity, interval porosity and adhesion rate of mesenchymal stem cells (MSCs) onto DBM in vitro.DESIGN, TIME AND SETTING: An observation experiment in vitro was complicated in Institute of Orthopedics, Second Hospital of Lanzhou University from January 8~(th) to April 15~(th) in 2005 and Central Laboratory of Guilin Medical University from August 1~(st) to November 15~(th) in 2007.MATERIALS: One chinchilla rabbit was killed under anesthesia. Referring to the method described by Urist, DBM was made by cancellated bone harvested from metaphysis and vertebral body METHODS: DBM was soaked into phosphate buffered solution to determine its degradation capacity; liquid replacement method was used to test its interval porosity; The 3~(rd) passage MSCs at a concentration of 1×10~8/L were cocultured with DBM in vitro and adhesion rate of MSCs onto DBM was tested using cytometry.MAIN OUTCOME MEASURES: The degradation capacity, interval porosity and adhesion rate of MSCs onto DBM.RESULTS: The degradation rate of DBM was accelerated with the prolonging of time, and the complete degrading time was about 10-12 weeks; The holing rate tested was (77.15±3.44)%; The 3~(rd) passage cells had a higher adhesive rate of 71.25% onto DBM.CONCLUSION: DBM degradation curve is consistent with MSCs proliferation curve, indicating a satisfactory adhesion capacity and interval porosity and DBM is an ideal biological scaffold material for cartilage tissue engineering.