Medicine and Health Sciences Commons^™

Displacement Across A Fracture Gap With Axial Loading Of Far Cortical Locking Constructs, Peter Wagner, Dennis Murphy, Kristen Billiar, Judith Siegel, John Wixted

Kristen L. Billiar

Purpose: Far cortical locking has been proposed for reducing stiffness and promoting greater dynamic stability in locked plating constructs. Prior studies have shown reduced stiffness with axial loading of these constructs, leading to a theoretical increase in inter-fragmentary motion and secondary bone healing. The purpose of this study was to examine strain across a fracture gap using far cortical locking constructs in a biomechanical model of distal femoral fractures.

Methods: Fourth generation sawbones were cut transversely along the distal diaphysis and plated with distal femoral buttress plates and cortical locking screws. Far cortical locking (FCL) specimens were predrilled in the …

An Improved Murine Femur Fracture Device For Bone Healing Studies, Joseph Marturano, Benjamin Cleveland, Melissa Bryne, Shannon O'Connell, John Wixted, Kristen Billiar

Kristen L. Billiar

Murine models are commonly used to investigate bone healing and test new treatments before human trials. Our objective was to design an improved murine femur fracture device and determine optimal mass and velocity settings for maximal likelihood of transverse fracture. Fracture reproducibility was maximized using an adjustable kinetic energy level, a novel mouse positioning system and an electromagnet striker release assembly. Sixty wild-type mice of 8-12-week-old male and female with a weight of 26.4+/-6.1g were subjected to an experimental postmortem fracture in the left and right femur (n=120) using variable kinetic energy inputs. A best-fit prediction equation for transverse fracture …

Biaxial Failure Properties Of Planar Living Tissue Equivalents, Kristen Billiar, Angela Throm, Margo Frey

Kristen L. Billiar

Quantification of the mechanical properties of living tissue equivalents (LTEs) is essential for assessing their ultimate functionality as tissue substitutes, yet their delicate nature makes failure testing problematic. For this study, we evaluated the validity of using an inflation device for quantifying the biaxial tensile failure properties of extremely delicate fibroblast-populated collagen gels (CGs) and fibrin gels (FGs). Small samples were circularly clamped and then inflated until rupture. Each sample assumed an approximately spherical shape and burst at its center indicating effective clamping. After two weeks in culture, all LTEs tested were fragile, but the FGs were significantly stronger and …

Biomechanical Investigation Of A Novel Ratcheting Arthrodesis Nail, Jeremy Mccormick, Xinning Li, Douglas Weiss, Kristen Billiar, John Wixted

Kristen L. Billiar

BACKGROUND: Knee or tibiotalocalcaneal arthrodesis is a salvage procedure, often with unacceptable rates of nonunion. Basic science of fracture healing suggests that compression across a fusion site may decrease nonunion. A novel ratcheting arthrodesis nail designed to improve dynamic compression is mechanically tested in comparison to existing nails. METHODS: A novel ratcheting nail was designed and mechanically tested in comparison to a solid nail and a threaded nail using sawbones models (Pacific Research Laboratories, Inc.). Intramedullary nails (IM) were implanted with a load cell (Futek LTH 500) between fusion surfaces. Constructs were then placed into a servo-hydraulic test frame (Model …

Dermal Collagen Matrices For Ventral Hernia Repair: Comparative Analysis In A Rat Model, G. Broderick, Joyce Mcintyre, M. Noury, Heather Strom, Charles Psoinos, A. Christakas, Kristen Billiar, Zachary Hurwitz, Janice Lalikos, Ronald Ignotz, Raymond Dunn

Kristen L. Billiar

PURPOSE: The purpose of this study was to compare inflammatory responses, tissue integration, and strength of the acellular dermal collagen matrices AlloDerm((R))* Regenerative Tissue Matrix, Permacol**Surgical Implant (Permacol), and CollaMend*** Implant in a rat model for ventral hernia repair.

METHODS: Rats were randomized into four groups and abdominal wall defects repaired with an inlay graft of AlloDerm, Permacol, or CollaMend. Rats were sacrificed at six time points and the defect area was removed and analyzed for tissue integration and physical strength.

RESULTS: Variable cell infiltration was seen for the three implant groups. At of the all time points examined, cellular …

Differential Effects Of Egf And Tgf-Beta1 On Fibroblast Activity In Fibrin-Based Tissue Equivalents, Jaime Grouf, Angela Throm, Jenna Balestrini, Katie Bush, Kristen Billiar

Kristen L. Billiar

Transforming growth factor-beta1 (TGF-beta1) is commonly used to promote matrix production for engineered tissues in vitro, yet it also enhances fibroblast contractility. For applications where contraction is undesirable, we hypothesized that epidermal growth factor (EGF) would yield equivalent mechanical properties without enhancing contractility. In this study, the response of human dermal fibroblasts to EGF (5 ng/mL) and TGF-beta1 (5 ng/mL) was determined within hemispheric fibrin-based gels by assessing matrix compaction and strength, cell number, collagen production, and contractility. After 3 weeks, both cytokines enhanced compaction relative to controls, and EGF roughly doubled matrix strength over controls and TGF-beta1-treated samples. TGF-beta1 …