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Full-Text Articles in Biomedical Engineering and Bioengineering
The Contact Mechanics And Kinematics Of Radial Head Implants, Hannah L. Shannon
The Contact Mechanics And Kinematics Of Radial Head Implants, Hannah L. Shannon
Electronic Thesis and Dissertation Repository
A number of commercially available radial head (RH) implants are used for the management of RH fractures. The optimal shape of a RH implant to restore joint mechanics to the native state has not been established. This work compares radiocapitellar contact and kinematics for three implant designs as well as the native RH. These implants include an axisymmetric, a quasi-anatomic and a patient-specific design. When compared to the native RH, only the axisymmetric implant was significantly different in contact area (p=0.008). Active and passive forearm supination was assessed for differences in translations of the RH. Significant differences were found in …
Three-Dimensional Kinematic Analysis Using The Xbox Kinect, Robert Matthew Wham
Three-Dimensional Kinematic Analysis Using The Xbox Kinect, Robert Matthew Wham
Chancellor’s Honors Program Projects
No abstract provided.
Bioengineering Approach To Understanding Tmj Pathobiology, Jonathan Kuo
Bioengineering Approach To Understanding Tmj Pathobiology, Jonathan Kuo
All Dissertations
The temporomandibular joint (TMJ) is a load-bearing joint consisting of the condyle of the mandibular bone, the fossa eminence of the temporal bone, and a fibrocartilaginous disc held in between the bone surfaces by ligaments. The TMJ disc serves to distribute stress, lubricate movement, and protect the articular surfaces of the joint. Over ten million Americans suffer from TMJ disorders (TMD) that affect the movement and function of the joint, making everyday tasks like talking and eating difficult and painful. A wide variety of treatments and surgeries have been proposed and undertaken with limited success based on the varying degree …
Evaluation Of Transfer Technologies To Preserve Shoulder Function In Sci, Karen Michelle Mann
Evaluation Of Transfer Technologies To Preserve Shoulder Function In Sci, Karen Michelle Mann
USF Tampa Graduate Theses and Dissertations
This study investigated a series of independent unassisted and device-assisted transfers from a wheelchair to vehicle mock-up and vice versa while simultaneously capturing kinematic, kinetic and electromyographic (EMG) data of impaired volunteers. The study provides a venue for observation and evaluation of upper extremity (UE) joint stresses, muscular force and functional demands associated with transfers in persons with spinal cord injury (SCI) to ultimately prevent UE injury, minimize excessive stress, preserve functionality and limit pain. If people with SCI lose function of their UEs, due to pain and/or degeneration, they must then rely on others for everyday tasks.
Five paraplegic …
In Vitro Biomechanical Testing And Computational: Modeling In Spine, Mageswaran Prasath
In Vitro Biomechanical Testing And Computational: Modeling In Spine, Mageswaran Prasath
ETD Archive
Two separate in vitro biomechanical studies were conducted on human cadaveric spines (Lumbar) to evaluate the stability following the implantation of two different spinal fixation devices interspinous fixation device (ISD) and Hybrid dynamic stabilizers. ISD was evaluated as a stand-alone and in combination with unilateral pedicle rod system. The results were compared against the gold standard, spinal fusion (bilateral pedicle rod system). The second study involving the hybrid dynamic system, evaluated the effect on adjacent levels using a hybrid testing protocol. A robotic spine testing system was used to conduct the biomechanical tests. This system has the ability to apply …
Optimization Of Wsu Total Ankle Replacement Systems, Bradley Jay Elliott
Optimization Of Wsu Total Ankle Replacement Systems, Bradley Jay Elliott
Browse all Theses and Dissertations
Total ankle arthroplasty (TAR) is performed in order to reduce the pain and loss of ambulation in patients with various forms of arthritis and trauma. Although replacement devices fail by a number of mechanisms, wear in the polyethylene liner constitutes one of the dominating failure modes. This leads to instability and loosening of the implant. Mechanisms that contribute to wear in the liners are high contact and subsurface stresses that break down the material over time. Therefore, it is important to understand the gait that generates these stresses. Methods to characterize and decrease wear in Ohio TARs have been performed …