Physiology Commons^™

Ankle And Midtarsal Joint Quasi-Stiffness During Walking With Added Mass, Andrew M. Kern, Nikolaos Papachatzis, Jeffrey M. Patterson, Dustin A. Bruening, Kota Z. Takahashi

Journal Articles

Examination of how the ankle and midtarsal joints modulate stiffness in response to increased force demand will aid understanding of overall limb function and inform the development of bio-inspired assistive and robotic devices. The purpose of this study is to identify how ankle and midtarsal joint quasi-stiffness are affected by added body mass during over-ground walking. Healthy participants walked barefoot over-ground at 1.25 m/s wearing a weighted vest with 0%, 15% and 30% additional body mass. The effect of added mass was investigated on ankle and midtarsal joint range of motion (ROM), peak moment and quasi-stiffness. Joint quasi-stiffness was broken …

Effects Of Environmental Temperature On Aerobic Training Adaptations, Katherine Marshall

UNO Student Research and Creative Activity Fair

BACKGROUND: Previously we have demonstrated acute effects of endurance exercise in different environmental temperatures. However, training within these temperatures has not been examined. The purpose of this study is to determine the effect of exercise training in different environmental temperatures on aerobic capacity, body composition, heart rate, sweat rate, core, and skin temperature. METHODS: Thirty-six recreationally trained males made 18 visits to the lab and performed a 3-week cycling training protocol in either a 7°C, 20°C, or 33°C environment. Aerobic capacity, body composition, heart rate, sweat rate, core, and skin temperature were measured before and after the acclimation period. During …

Physiological Response To Exercise With Naturally-Occurring Carbon Dioxide Exposure, Megan Johnson

UNO Student Research and Creative Activity Fair

BACKGROUND: Carbon dioxide (CO₂) plays a normal part in gas exchange and acid-base equilibrium in the human body. With added stress or exposure, CO₂ levels can accumulate in the blood and tissues, causing hypercapnia. Research has shown that exposure to CO₂ at 4% or 40,000 ppm will cause cardio-respiratory changes, both at rest and during exercise. Lower levels may still cause changes under conditions of added stress, but this has not been elucidated. Preliminary data from our laboratory chamber suggests physiological changes at levels of CO₂ reaching 0.08% or 8,000 ppm during experiments with exercising …

The Effects Of Swimming Training On Arterial Stiffness, Muscular Strength And Cardiorespiratory Endurance In Postmenopausal Women With Stage 2 Hypertension, Steven Scott

UNO Student Research and Creative Activity Fair

Objective:

Aging is associated with progressive decreases in arterial health and function as well as overall fitness. It is crucial to prevent or reduce the negative effects of aging on vasculature and fitness components by implementing appropriate lifestyle interventions, such as exercise training. We examined the effects of a swimming (SWM) regimen on arterial stiffness (pulse wave velocity, PWV), blood pressure (BP), wave reflection (AIx), muscle strength and aerobic capacity in postmenopausal women with stage 2 hypertension.

Methods:

Using a parallel experimental design, participants were randomly assigned to either a SWM (n=52) or non-exercising control group (n=48) for 20 weeks. …

Effect Of Local Cold Application During Exercise On Mitochondrial Gene Expression, Ben Meister

UNO Student Research and Creative Activity Fair

BACKGROUND: Different modes of exercise and temperatures can elicit different responses in mitochondrial gene expression. Stresses including exercise and cold exposure act to trigger the transcription of genes associated with mitochondrial growth (biogenesis). Traditional endurance exercise is known to have a potent effect on mitochondrial growth biogenesis. However, limited knowledge exists on the effect of local cold application during endurance exercise. Additionally, it is currently unknown how cold exposure impacts mitochondrial breakdown (mitophagy). PURPOSE: Therefore, the purpose of this study is to determine the impact of local muscle cooling during endurance exercise on human skeletal muscle gene expression related to …

Effects Of 7°C Environmental Temperature During A 3-Week Training Period, Robert J. Shute

UNO Student Research and Creative Activity Fair

Approximately three weeks is required for cold temperature acclimation to occur. However, the effects of cold temperature acclimation on fitness and performance remain unknown. Purpose: To determine the impact of cold environmental temperature on training adaptations, fitness measurements, and aerobic performance. Methods: Two groups of twelve inactive male subjects completed 1-hour of cycling in fourteen temperature acclimation trials of either a cold (7°C) or room temperature (20°C) environmental temperature. A performance trial and tolerance trial occurred pre- and post-acclimation. The performance trials assessed VO_2peak and body composition. Skin and core temperature were recorded during the 1-hour tolerance trials. Tympanic …

Skeletal Muscle Mitophagy In Response To Cold Exposure During Exercise, Megan Vande Hei

UNO Student Research and Creative Activity Fair

BACKGROUND: The signaling pathways generated during exercise elicit mitochondrial adaptation, which includes both biogenesis and removal of damaged mitochondria (also known as mitophagy). It has been established that training followed by cold exposure alters the transcription of genes associated with mitochondrial growth and division. However, it is currently unknown whether temperature intervention during exercise influences the mRNA expression of genes associated with mitophagy, which is essential to maintaining the quality of this organelle. PURPOSE: To determine the expression of PINK1, PARK2, BNIP3, and BNIP3L mRNA following exercise in a cold environmental temperature with recovery at room temperature compared to exercise …