Restoration of bone defect and enhancement of bone ingrowth using partially demineralized bone matrix and marrow stromal cells.

PURPOSE: This study aimed to investigate the capability of combining marrow stromal cells (MSC) and partially demineralized bone matrix (PDBM) to fill bone defect and enhance bone ingrowth using a canine non-weight-bearing gap model. METHODS: Custom-made implants with 3mm gap between the porous surface and the host bone were used. The implants were inserted into the distal femurs of 25 mongrel dogs and the gaps were randomly assigned to be filled with culture-expanded autologous MSC-loaded PDBM, autograft, fresh-frozen allograft, PDBM alone, or nothing as controls. Histomorphometry using backscattered scanning electron microscopic examination, and mechanical push-out test were performed at 6 months after surgery. RESULTS: Histomorphometry showed that amounts of bone regeneration in the gap and bone ingrowth into the porous-coated surface in the MSC-loaded PDBM-treated group were comparable to those of autograft-treated group and were significantly greater than those of allograft-treated, PDBM-treated, or non-grafted groups. Mechanical test showed the same differences. CONCLUSION: The results of this study showed that combining PDBM and autologous culture-expanded MSC restored bone stock and enhanced bone ingrowth into the porous-coated area in a canine non-weight-bearing gap model. This combination may provide an option for reconstructing bone defect when we perform a cementless revision arthroplasty.

Reduction in experimental peridural adhesion with the use of a crosslinked hyaluronate/collagen membrane.

The research goals were to fabricate a crosslinked hyaluronate (HA)/collagen membrane and study its efficacy in preventing peridural adhesion. Different weight ratios of HA/collagen membranes crosslinked with carbodiimide were tested for biocompatibility and biodegradability first. Forty-eight adult New Zealand white rabbits underwent an L6 laminectomy. Sixteen rabbits each received a weight ratio of HA/collagen = 60/40 membrane (Membrane A) or a 40/60 membrane (Membrane B) on the exposed dura. The last 16 rabbits received no treatment and served as controls. No adverse reaction of the membranes was noted. Magnetic resonance images revealed a hyposignal space between the dura and the scar tissues at Membrane B-treated laminectomy site 3 months after surgery. Histological examination showed that the amount of scarring decreased with time in all groups. Amount of scarring decreased significantly at laminectomy sites treated with either membrane. Compared with the control group, the extent of peridural adhesion decreased significantly in the Membrane B-treated group at 3 months after surgery; while it decreased substantially, but not significantly, in the Membrane A-treated group. The carbodiimide-crosslinked HA/collagen membrane is a safe and effective antiadhesive material in vivo. When placed onto the laminectomy site, the membrane with a weight ratio of HA/collagen = 40/60 appears to reduce peridural scar adhesion.