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A Biomechanical Comparison Of Three Spondylolysis Repair Techniques In A Calf Spine Model, R. Roberto, B. Dezfuli, C. Deuel, S. Curtiss, S. Hazelwood
A Biomechanical Comparison Of Three Spondylolysis Repair Techniques In A Calf Spine Model, R. Roberto, B. Dezfuli, C. Deuel, S. Curtiss, S. Hazelwood
Biomedical Engineering
Summary of background data: Previous work has demonstrated the efficacy of lumbar pedicle screw hook rod (PSHR) techniques and the Buck screw in the stabilization of spondylolysis. The mechanical behavior of lower profile cervical implants used to create PSHR, hybrid cable plate constructs, and titanium miniplating has not previously been described.
Methods: Calf lumbar spines (L2-L6) were utilized for testing (n = 27). Intervertebral rotation was measured in the intact spines across the L4-5 segment before and after creation of bilateral pars interarticularis defects. Defects were then stabilized with one of three repair techniques, PSHR, miniplate, or …
Slowing The Onset Of Hypoxia Increases Colony Forming Efficiency Of Connective Tissue Progenitor Cells In Vitro, Christopher M. Heylman, Tonya N. Caralla, Cynthia A. Boehm, Thomas E. Patterson, George F. Muschler
Slowing The Onset Of Hypoxia Increases Colony Forming Efficiency Of Connective Tissue Progenitor Cells In Vitro, Christopher M. Heylman, Tonya N. Caralla, Cynthia A. Boehm, Thomas E. Patterson, George F. Muschler
Biomedical Engineering
Background: Survival and colony formation by transplanted tissue derived connective tissue progenitor cells (CTPs) are thought to be important factors in the success of clinical tissue engineering strategies for bone regeneration. Transplantation of cells into defects larger than a few millimeters expose cells to a profoundly hypoxic environment. This study tested the hypothesis that delaying the onset of hypoxia will improve the survival and performance of CTPs in vitro.
Methods: To mimic declines seen in an avascular in vivo bone defect, colony forming efficiency by marrow derived nucleated cells was assessed under osteogenic conditions. Variation in the rate of …