Analytical, Diagnostic and Therapeutic Techniques and Equipment Commons^™

Design, Validation, And Clinical Testing Of A Novel Fastening Device For A Scoliosis Brace, Cody Keith Bateman

Theses and Dissertations (ETD)

Each year, thirty thousand children in the US were put into a scoliosis brace. The primary function of scoliosis braces was to reduce and prevent progression of the spinal deformity as the patient grew by application of corrective forces to the spine. Straps, often made of Velcro, were attached to the back of the brace that applied forces to the spine when the straps were tightened. Braces were prescribed to be worn up to 23 hours a day. Studies have concluded that discomfort increased with increasing strap tension and pad pressure. They have also shown an increase in strap tension …

Development Of A Mobility-Enabling Spinal Orthosis And Methods For Evaluating And Developing Spinal Orthoses On A Robotic Platform, John C. Simmons

Theses and Dissertations (ETD)

Introduction: A number of decompressing spinal braces (typically pneumatic) have been introduced that attempt to mechanically emulate the “buoyancy” of water therapy by offloading upper torso load to the pelvic girdle as a treatment for lower back pain (LBP). Unfortunately, the beneficial upward force they apply on the upper torso typically makes it difficult or impossible for the patient to bend. For those cases where stabilization is not indicated, this undesirably hinders therapeutic exercise, independent living, and return to work. The cosmetic stigma of wearing an external pneumatic assembly large enough to provide significant offloading may provide additional disincentives to …

Development And Application Of A Biorobotic Simulation Of Stance Phase Gait To Study Foot And Ankle Kinematics, Kelly N. Salb

Theses and Dissertations (ETD)

Ankle instantaneous axis of rotation (IAR) measurements represent a more complete parameter for characterizing joint motion. However, few studies have implemented this measurement to study normal, injured, or pathological foot-ankle biomechanics. Additionally, while load is suggested to play a major role in ankle biomechanics, including influences on articular surfaces, bony motion, and formation of the arches, studies concerning the effects of joint loading are limited.

A novel testing protocol was developed to simulate in vivo mechanics of the foot-ankle complex during early stance phase gait in a human cadaveric model. Two studies were conducted. The first study was to assess …

The Development And Application Of A Custom Robotic Biomechanical Testing Platform Employing Real-Time Load-Control To Compare Spinal Biomechanical Testing Protocols: Pure Moment, Ideal Follower Load, And A Novel Trunk Weight Protocol, Charles Ramsey Bennett

Theses and Dissertations (ETD)

The human lumbar spine has been the subject of biomechanical study for many decades owing to the numerous medical cases resulting in the development of various corrective surgical procedures and medical devices intended to relieve patient discomfort. Spinal biomechanics is a broad field containing but not limited to the in vitro study of cadaveric tissue utilizing testing platforms used to apply motion- or load-profiles to tissue in the investigation of the various kinetic or kinematic responses, respectively. The particular arena field of this research concerns the field of robotics as it applies to testing platforms and how they are applied …

Use Of A Spine Robot Employing A Real Time Force Control Algorithm To Develop, Simulate, And Compare Spinal Biomechanical Testing Protocols: Eccentric Loading, Pure Moment, And A Novel Head Weight Protocol, Daniel Mark Wido

Theses and Dissertations (ETD)

In vitro testing provides a critical tool for understanding the biomechanics of the subaxial cervical spine. Previous common testing protocols used to evaluate the subaxial cervical spine include Pure Moment (PM), follower load, and eccentric lever arm (EL) loading methods. Although these methods are widely accepted, there is always a goal to try to better simulate physiologic loading conditions. While the follower load attempts to simulate compression due to muscle activation, no previous protocol has taken into account the constant vertical force vector applied to C2 produced by the weight of the human head. Furthermore, we are unaware of previous …

Use Of A Multi-Axis Robotic Testing Platform To Investigate The Sagittal Mechanics Of The Multi-Body Lumbar Spine, Jessica Rose Stubbs

Theses and Dissertations (ETD)

A biomechanical study was performed to compare range of motion of the multi-body lumbar spine using three different protocols: pure moment, eccentric loading, and a new method called combined loading moment. The objectives of the study were to introduce a new protocol that overcomes the limitations of previous methods by applying more realistic loading conditions and to compare the range of motion of this new protocol to those of eccentric loading and pure moment protocols within the same specimen pool. The second objective of this study was to compare the data sets of these three protocols to both in vivo …

Development And Application Of Computational Tools For The Study And Optimization Of Variable Resolution X-Ray (Vrx) Computed Tomography Scanners, David Alejandro Rendon

Theses and Dissertations (ETD)

The overall goal of this project was to develop and apply important computerized aids for the design and implementation of Variable Resolution X-ray (VRX) CT scanners developed at the University of Tennessee, Memphis. VRX scanners take advantage of the “projective compression” principle that allows the same device to image objects of very different sizes with the same level of detail by adjusting the field of view and the reconstruction resolution.

The first part of this project aimed to develop a set of computational tools specifically tailored for the design, implementation and study of VRX scanners. This included creating a reconstruction …

Biomechanical Comparison Of Lumbar Disc Replacements, Peter Wong

Theses and Dissertations (ETD)

Surgical options for lumbar spinal disorders are rapidly expanding. One seemingly promising area is the lumbar disc replacement. Design specifications vary among the manufacturers based upon differing perceptions of ideal motion. Comparison studies are important in quantifying different features for future improvements but are currently lacking. The objective of this study was to compare the biomechanical properties of three currently available treatments: disc replacement with ProDisc-L, disc replacement with Maverick, and a pedicle screw fixation. It was hypothesized that structural designs differences of ProDisc-L and Maverick could be distinguished in both motion and loading patterns. It was also hypothesized that …

Theoretical And Experimental Evaluation Of Spatial Resolution In A Variable Resolution X-Ray Computed Tomography Scanner, Roman Melnyk

Theses and Dissertations (ETD)

A variable resolution x-ray (VRX) computed tomography (CT) scanner can image objects of various sizes with greatly improved spatial resolution. The scanner employs an angulated discrete detector and achieves the resolution boost by matching the detector angulation to the scanner field of view (FOV) determined by the size of an object being imaged. A comprehensive evaluation of spatial resolution in an experimental version of the VRX CT scanner is presented in this dissertation. Two components of this resolution were evaluated – the pre-reconstruction spatial resolution, described by the detector presampling modulation transfer function (MTF), and the post-reconstruction spatial resolution, given …

Depth And Size Limits For The Visibility Of Veins Using The Veinviewer Imaging System, Soujanya Ganesh

Theses and Dissertations (ETD)

Administration of fluids or medication and blood draw procedures require the nurse or the phlebotomist to access the veins in patients at hospitals or phlebotomy centers. It is important to minimize the discomfort associated with sticking needles in the patient more than once and most often, necessary to find an appropriate vein within few minutes. However, problems involved in accessing veins in pediatric and obese patients make it very difficult to perform a successful stick in a short time. The VeinViewer Imaging System is an infrared imaging device that provides the nurses and phlebotomists a means for locating veins in …

A Computer Simulation Model Of The Human Head-Neck Musculoskeletal System, Jun Yan

Theses and Dissertations (ETD)

Objective. The objective of this research was to develop a muscle-driven biomechanical model of the human head-neck system that could be used to simulate neck movements under muscle control. This model can further be modified to enable input from an external stimulus, such as EMG data.

Summary of background data. Utilizing computer aided design (CAD) and dynamic simulation software programs, the Joint Implant Biomechanics Laboratory at The University of Tennessee Health Science Center developed a virtual model of the human cervical spine to simulate the in vitro biomechanical experiments. This in vitro model did not include any muscle …

Qualitative Evaluation Of Data Compression In Real-Time Ultrasound Imaging, Bijoy J. Sundersingh

Theses and Dissertations (ETD)

The purpose of this project was to evaluate qualitatively real-time ultrasound imaging using objective and subjective techniques to determine the minimum bandwidth required for clinical diagnosis of various anatomical and pathological states. In the experimental setup live ultrasound video samples representing the most common clinical examinations were compressed at 128, 256, 384, 768, 1152 and 1536 kbps using a compressor-decompressor (CODEC) adhering to International Telecommunication Union (ITU-T) recommendation H.261. A protocol for qualitative evaluation was developed and subjective and objective testing were performed based on this protocol. Subjective methods comprised of inter-rater reliability tests using kappa statistics and three way …

Portal Imaging Using A Csi (Tl) Scintillator Coupled To A Cooled Ccd Camera, Amit Sawant

Theses and Dissertations (ETD)

The purpose of this research was to design a high performance digital portal imaging
system, using a transparent x-ray scintillator coupled to a cooled CCD camera. Theoretical
analysis using Monte Carlo simulation was performed to calculate the QDE, SNR and DQE of
the system. A prototype electronic portal imaging device (EPID) was built, using a 12.7 mm
thick, 20.32 cm diameter, CsI (Tl) scintillator, coupled to an Astromed ® liquid nitrogen cooled
CCD TV camera. The system geometry of the prototype EPID was optimized to achieve high
spatial resolution. Experimental evaluation of the prototype EPID was performed, by
determining its …