Life Sciences Commons^™

Locomotor Biomechanics In Stream Gobies, Rhinogobius Sp.: Functional Performance Of Waterfall-Climbing Behavior, Ernest W. Murphy

Student Scholar Showcase

Gobiidae is the taxonomic classification of a large fish family comprising over 2,000 species. A few goby species have the unique ability of scaling waterfalls using pelvic fins that are fused into a suction disc (pelvic sucker) located on the ventral side of the body, aiding them in upstream migration to freshwater feeding and reproduction locations. This study aimed to investigate the locomotor biomechanics of Rhinogobius goby fish due to the lack of literature in the area. In particular, climbing performance variables (pressure differential, force, endurance, and kinematics of attachment), pelvic sucker fatigability, and ontogenetic patterns of physical development and …

The Relationship Between Joint Stiffness And Leg Morphology In Spiders, Lachlan Fisher

Undergraduate Student Research Internships Conference

This poster investigates the relationship between joint stiffness and spider leg morphology, with an interest in collecting data to create more accurate biomechanical models of spiders.

A Review Of Applicable Materials For 3d Printing A Biomechanically Accurate Cervical Spine Model For Surgical Education & Case Preparation, Nathaniel Neavling, Mashaal Syed, Adedayo Adetunji, Brandon L. Mariotti, Slah Khan, Jennifer J. Mao, Jeffrey Mullin

Research Day

Objectives: The authors review the literature to compare biomechanical properties of the human cervical spine as determined by cadaveric and finite elemental model (FEM) studies, with commercially available three-dimensional (3D) printing materials to aid in the development of 3D-printed cervical spines that can be used as biomechanically accurate educational tools. Specifically, 3D printing materials for fused deposition modeling (FDM) printers were explored.

Methods: A literature review of biomechanical specifications such as Young’s Modulus and Poisson’s ratio of certain anatomical aspects of the cervical spine was performed by searching the databases PubMed, MEDLINE via Ovid, Wolters Kluwer, ClinicalKey, and EMBASE via …

The Temporal And Directional Dependencies Of Sway During 10 Seconds Of Single Leg Stance In Young, Healthy College Students, David Vanderheyden

Symposium Of University Research and Creative Expression (SOURCE)

Background: Single Leg Stance (SLS) testing is used in clinical assessments of balance, but little is known about the temporal structure of sway parameters during this test. SLS research is equivocal on the effects of sway over time and the direction of balance initiation. Sway data in a healthy young population may provide insight on how balance is initiated and maintained in relation to the initial step direction. This may lead to novel approaches to help healthy elderly populations decrease fall risk and fall-related mortality. Purpose: The purpose of the study was to examine the temporal and directional dependencies of …

Kinematic Effects Of Stride Length Perturbations On System Com Horizontal Velocity During Locomotion, Josh Bailey, Andrew Nordin, Janet Dufek, D. Lee

Interdisciplinary Research Scholarship Day

PURPOSE: To investigate the kinematic effect on the systems’ center of mass horizontal velocity in response to stride length perturbations. METHODS: Twelve healthy adults (23.1±7.71 yrs; 1.69±0.1 m; 66.82±12.6 kg; leg length 894.7±66.1 mm) performed 5 trials of preferred speed walking (PW) and running (PR)followed by 5 stride length perturbations based on percentages of leg length (60%, 80%, 100%, 120% and 140%). 3D kinematic analysis was completed using a 12-camera infrared motion capture system (Vicon, 200hz). Dependent variables computer for each condition included: center of mass horizontal velocity at the highest vertical position (COMHVhi) and at the lowest vertical position …

Step Length Perturbations Alter Variations In Center Of Mass Horizontal Velocity, Josh Bailey, Andrew Nordin, D. Lee, Janet Dufek

Interdisciplinary Research Scholarship Day

PURPOSE: The purpose of the study was to investigate the effects of SL perturbations on system COM forward velocity (vx) during walking gait. METHODS: Eight healthy adults (23.5±3.6 yrs; 1.72±0.18 m; 73.11±15.29 kg) performed 5 trials of preferred speed walking (PW) and running (PR) followed by 5 stride length perturbations based on percentages of leg length (LL: 60%, 80%, 100%, 120% and 140%). 3D kinematic analysis was completed using a 12-camera infrared motion capture system (Vicon MX T40-S, 200Hz). Data filtering and interpolation included a low pass, 4th order Butterworth filter (cutoff frequency 15Hz) and cubic (3rd order spline). Maximum …