Desferrioxamine for Stimulation of Fracture Healing and Revascularization in a Bone Defect Model
Abstract
Our study explored local delivery of deferroxamine with and without bone allograft as a means to accelerate fracture healing in a tibia defect model of the rat. Experimental groups in the first study included: control, CS: calcium sulfate annulus around spacer at defect, CS/DBA: CS implant and demineralized bone allograft (DBA); CS/DFO: DFO (300 g) loaded CS implant, CS/DFO/DBA: DFO loaded CS implant with DBA allograft. Experimental groups in the second study included: control, DBA, LDFO/ DBA: DBA soaked with DFO (10 g), H-DFO/DBA: DBA soaked with DFO (100ug). Fractures were evaluated at 6 weeks postinjury for radiographic cortical bridging, CT mineralized callus volume and torsional properties. The bulk CS annulus was found to impair healing compared to the control in the 1st study. In the 2nd study L-DFO/DBA was found to increase cortical bridging and torsional strength relative to the control. Bulk form CS is not an effective method of delivery of DFO to stimulate fracture healing. Low dosage DFO treatment directly to DBA was found to enhance the ability of DBM to stimulate fracture healing, while higher dosage DFO treatment of DBA was not effective.
Document Details
- Document Type
- Technical Report
- Publication Date
- Feb 01, 2012
- Accession Number
- ADA562175
Entities
People
- Laurence Dahners
- Paul Weinhold
Organizations
- University of North Carolina at Chapel Hill