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Full-Text Articles in Medicine and Health Sciences
3d Printed Pla Scaffolds To Promote Healing Of Large Bone Defects, Jacob W. Cole, Tiera Martinelli, Mitchell T. Ryan, Sarah G. Seman, Daniel Sidle, Stephen R. Smith, Rocco J. Rotello, Timothy L. Norman
3d Printed Pla Scaffolds To Promote Healing Of Large Bone Defects, Jacob W. Cole, Tiera Martinelli, Mitchell T. Ryan, Sarah G. Seman, Daniel Sidle, Stephen R. Smith, Rocco J. Rotello, Timothy L. Norman
The Research and Scholarship Symposium (2013-2019)
One challenge modern medicine faces is the ability to repair large bone defects and stimulate healing. Small defects typically heal naturally, but large bone defects do not and current solutions are to replace the missing tissue with biologically inert materials such as titanium. This limits the amount of bone healing as the defect is not repaired but rather replaced. The focus of our research is to develop a method of using 3D printing to create biodegradable scaffolds which promote bone in-growth and replacement. To accomplish this we used poly lactic acid (PLA) filament and a desktop 3D printer. To promote …
Finite Element Analysis (Fea) Of The Taper-Trunnion Interface In A Metal On Metal Hip Implant, Kyle M. Bradley, Timothy L. Norman, Thomas K. Fehring
Finite Element Analysis (Fea) Of The Taper-Trunnion Interface In A Metal On Metal Hip Implant, Kyle M. Bradley, Timothy L. Norman, Thomas K. Fehring
The Research and Scholarship Symposium (2013-2019)
Metal on metal total hip replacements are a common procedure in which the hip joint is replaced with a metal stem, a metal femoral head and a metal socket, usually made of titanium or cobalt chromium. The stem has a tapered region (trunnion) where the femoral head is impacted onto. This creates what is known as the taper-trunnion interface within a hip implant. However, these hip implants seem to be very susceptible to fretting corrosion, where the corrosive fluid environment of the body accelerates the process of wear between two contact surfaces. Previous research has suggested that the design parameters …
Cilia Have A Significant Role In Regulating Cell Size In Response To Fluid Flow Induced Shear Stress In A Flow Chamber, Ryan M. Hecklinger, Schuyler E. Price, Matthew B. Welkie Jr., Timothy L. Norman, Elisha R. Injeti
Cilia Have A Significant Role In Regulating Cell Size In Response To Fluid Flow Induced Shear Stress In A Flow Chamber, Ryan M. Hecklinger, Schuyler E. Price, Matthew B. Welkie Jr., Timothy L. Norman, Elisha R. Injeti
The Research and Scholarship Symposium (2013-2019)
Cilia are hair-like protrusions on the apical surface of cells. Their function is to relay mechanical signals like shear stress from extracellular into intracellular environment and thereby maintain cellular homeostasis. Ciliary dysfunctions include polycystic kidney disease and new therapeutic interventions based on ciliary function are under investigation. The current study evaluates the use of a custom designed fluid flow chamber’s ability to study the role of cilia in regulating cell size in response to shear stress.
A fluid flow chamber that continually maintains laminar flow at different flow rates and temperature was designed. Endothelial wild type cells (ETWT) that have …