The validity of a one-stage submaximal treadmill protocol to estimate maximal oxygen uptake in overweight males and females

Sheffield, Carrie A.

03 June 2011

The purpose of this study was to determine the validity of the Ebbeling one-stage submaximal treadmill protocol to estimate maximal oxygen uptake in overweight males and females. Forty-five male and females (36.5±10.9 years; 170.2±9.9 cm; 77.9±9.0 kg) were categorized into overweight groups using a BMI of 25-29.9 kg/m2. The subjects performed a submaximal protocol that consisted of one 4-minute stage with individualized speeds of 2.0-4.5 mph at 5% grade and subsequently performed a maximal exercise test. There were significant relationships between observed and estimated VO2max for males (r=.796), females (r=.426), and gender combined (r=.844). There was an underestimation in the estimation of VO2max in the present study when comparing males (10%), females (26%) and gender combined (17%) subjects. The results indicated that a body mass index between the values of 25-29.9 kg/m2 did create a difference in estimating VO2max in the present study when comparing that to Ebbeling et al. (1991).Ball State UniversityMuncie, IN 47306 / School of Physical Education

Oxygen in the body -- Measurement.

Treadmill exercise tests.

Overweight persons -- Physiology.

Exercise -- Physiological aspects.

Maximal oxygen uptake

Fysisk förbättring utan svettning

Johansson, Emmeli

January 2008

The last decades the increased computerisation at the places of work has led to new physical loads in the working life and new demands on the working environment. The widespread usage of computers in the working life has led to more sedentary work and less daily movement. The purpose of the thesis is to develop a new product to a concept that in a low intensive and healthy promotional way will activate the body. The product will make a combination of healthy promotion activity and work during office hours possible and primary aims to those with a sedentary office work, which leads to that the body don´t get to be activated in the extent needed. Information has been gathered from studies already made in this area, interviews plus a study and an experiment. From the gathered information concepts and functional solutions has been generated and evaluated to result in a product concept. The thesis has resulted in a concept that consists of a work place unit where the user walks on a treadmill and works at the same time. A general conclusion which can be drawn is that the majority of persons that tested to walk and simultaneously work with a computor on the treadmill found this way of working attractive. Many were positively surprised and said that they would use such an physically activating work place implement if it was available at their place of work.

health promotion activity

treadmill

functional design

working environment

work place

ergonomics

Konzeption und Evaluation eines Laufbandtests zur Ableitung einer Trainingsempfehlung auf absolut maximalem Fettverbrennungs-Niveau

Zwingenberger, Stefan

23 November 2009

Hintergrund: Ein Training bei absolut maximalem Fettumsatz ist interessant für Patienten, gesundheitsorientierte Freizeitsportler und leistungsorientierte Sportler. Der klassische Laktat-Laufband-Stufentest erlaubt keine direkten Schlüsse auf den Fettumsatz. Methoden: Es wurde ein modifizierter ergospirometrischer Laufband-Stufentest entwickelt, der eine 30 minütige Einlaufphase bei sehr geringer Intensität besitzt. In der darauf folgenden Auswertungsphase wurde alle 3 min die Geschwindigkeit um 0,2 m/s pro Stufe erhöht. Wegen des Anstieges des Fettumsatzes mit zunehmender Laufdauer wurden in der Auswertungsphase die berechneten Fettumsätze um 2,5 mg/min reduziert, um eine bessere Vergleichbarkeit der Stufen zu gewährleisten. Dieser neu entwickelte Test wurde anschließend mit einem klassischen Laktat-Laufband-Stufentest verglichen. Ergebnisse: Die Herzfrequenzen bei Laktat 2 mmol/l liegen intraindividuell betrachtet im Median um 16 bpm höher als die bei absolut maximalem Fettumsatz. Einen Trainingsbereich für die absolut maximale Fettverbrennung gibt man möglichst an, indem man den Herzfrequenzbereich zwischen Über- und Unterschreiten von 90 % des absolut maximalen Fettumsatzes definiert. Dieser hat im Median eine Breite von 27 bpm und reicht im Median von 125 bpm bis 151 bpm. Der absolute maximale Fettumsatz beträgt im Median 432 mg/min. Bei den Herzfrequenzen von Laktat 2 mmol/l, erstem Laktatanstieg bzw. einer um 15 bpm reduzierten Herzfrequenz von Laktat 2 mmol/l, betragen die Fettumsätze 86 %, 96 % bzw. 97 % des absolut maximalen Fettumsatzes. Der Anteil der Fette beträgt bei absolut maximalem Fettumsatz im Median 51 % am Gesamtenergieumsatz. Der Laktatspiegel bei absolut maximalem Fettumsatz beträgt im Median 1,4 mmol/l. Die Intensität bei absolut maximalem Fettumsatz entspricht im Median 66 % der maximal möglichen Sauerstoffaufnahme.

Atemgasanalyse

Fatmax

Fettverbrennung

Laufband

Stufentest

Fatmax

treadmill

ergospirometry

fat oxidation

lactate test

ddc:610

rvk:XE 5404

Fysisk förbättring utan svettning

Johansson, Emmeli

January 2008

<p>The last decades the increased computerisation at the places of work has led to new physical loads in the working life and new demands on the working environment. The widespread usage of computers in the working life has led to more sedentary work and less daily movement.</p><p>The purpose of the thesis is to develop a new product to a concept that in a low intensive and healthy promotional way will activate the body. The product will make a combination of healthy promotion activity and work during office hours possible and primary aims to those with a sedentary office work, which leads to that the body don´t get to be activated in the extent needed.</p><p>Information has been gathered from studies already made in this area, interviews plus a study and an experiment. From the gathered information concepts and functional solutions has been generated and evaluated to result in a product concept.</p><p>The thesis has resulted in a concept that consists of a work place unit where the user walks on a treadmill and works at the same time.</p><p>A general conclusion which can be drawn is that the majority of persons that tested to walk and simultaneously work with a computor on the treadmill found this way of working attractive. Many were positively surprised and said that they would use such an physically activating work place implement if it was available at their place of work.</p>

health promotion activity

treadmill

functional design

working environment

work place

ergonomics

The effect of heavy handrail support on blood pressure response in normotensive adults during treadmill walking /

Reid, Kevin Brian.

January 2009

Thesis (M.S.)--James Madison University, 2009. / Includes bibliographical references.

非線形振動子を用いた脚ロボットの肢間協調メカニズムに関する研究 / Studies on underlying mechanism of interlimb coordination of legged robots using nonlinear oscillators

藤木, 聡一朗

23 March 2015

Kyoto University (京都大学) / 0048 / 新制・課程博士 / 博士(工学) / 甲第18946号 / 工博第3988号 / 新制||工||1614 / 31897 / 京都大学大学院工学研究科航空宇宙工学専攻 / (主査)教授 泉田 啓, 教授 藤本 健治, 教授 松野 文俊 / 学位規則第4条第1項該当

Hexapod robot

Biped robot

Nonlinear oscillators

Interlimb coordination

Central pattern generator

Learning

Splitbelt treadmill

500

Adaptation of locomotor control in able and impaired human walking

Toney, Megan

21 September 2015

Extensive research has documented the stereotypical kinematic and kinetic patterns in healthy human walking, but we have a limited understanding of the neuromechanical control principles that contribute to their execution. Furthermore, the strategies used to adapt human walking to morphological or environmental constraints are poorly understood. After a traumatic injury, like amputation, regaining independent mobility is a primary goal of rehabilitation. Without a clear understanding of the neuromechanical principles governing locomotion, monitoring and quantitatively improving gait rehabilitation outcomes is challenging. The purpose of this doctoral work was to identify controlled variables in able and impaired human walking and to compare the control strategies used to adapt to a novel walking environment both with and without amputation. I apply an uncontrolled manifold (UCM) analysis to test whether likely goal variables of human walking are selectively stabilized through step-to-step variability structure. I found that both able-bodied subjects and subjects with an amputation maintain consistent whole body dynamics and leg power production by exploiting inherent motor abundance. Consistent leg power production is accomplished primarily through step-to-step leg force corrections that are driven by variable timing of ankle torque production. Covariance between ankle and knee torques enable robust motor control in able-bodied individuals, but this stabilizing mechanism is absent in individuals with a transtibial amputation. This coordinated joint torque control also appears to assist able-bodied short-term adaptation, invoked by split-belt treadmill walking. However, loss of ankle motor control and distal sensory feedback due to amputation appears to limit reactive, feedback driven adaptation patterns in subjects with an amputation. Ultimately, this work highlights the role of intact distal sensorimotor function in locomotor control and adaptation. The major findings I present have substantial implications for gait rehabilitation and prosthetic design.

Biomechanics

Locomotion

Amputation

Motor control

Uncontrolled manifold

Adaptation

Split belt treadmill

Effects of Exercise Training on Fat Oxidation in Untrained Overweight and Obese Females

Manning, Kelly

11 August 2011

This study examined whether a high-intensity interval (IT) or a continuous steady-state (CT) exercise training program had the greatest effect on fat oxidation rates and fat mass loss in a population of untrained overweight and obese females. Thirteen female subjects (VO2peak 30.6 ± 1.29 ml.kg.min-1, BMI 29 ± 0.79, fat mass [FM] 33.3 ± 2.09 kg) were randomly assigned to either a CT (exercise at the relative intensity that elicits the maximal fat oxidation rate [FATmax] ) or an IT (intervals alternating 5 minutes at 40% and 85% VO2peak) training group that exercised approximately 1 hour, 3 days.week-1 for 10 weeks. Body composition assessments, peak oxygen uptake (VO2peak), FATmax and plasma free fatty acid (FFA) concentrations were examined pre- and post-training using dual-energy X-ray absorptiometry (DEXA), ParvoMedics gas analysis system and FFA half micro tests (Roche Diagnostics). No significant differences were found post-training in body weight (kg), body fat (%), fat-free mass, or fat mass (P>0.05). The relative exercise intensity that elicited FATmax was significantly increased from 35.3 ± 2.55% to 44.7 ± 3.56% in the IT group post-training (P <0.05). The maximal fat oxidation rate was determined at a higher relative exercise intensity after 10 weeks of a IT program compared with a CT program, which resulted in longer durations of fat oxidation during submaximal exercise bouts. These data suggest that an IT program induces a greater increase in the relative exercise intensity that elicits maximal fat oxidation after 10 weeks of training compared to a CT program in this population. Although body composition and FATmax were not altered, it is possible that through training induced metabolic adaptations from the IT program, intramuscular triacylglyceride (IMTG) contributions to fat oxidation at a given steady-state work rate could be increased post-training.

maximal fat oxidation rate

treadmill exercise

high-intensity interval

body composition

Kinesiology

Physiological and psychological responses to treadmill and cycle ergometer exercise testing in men and women with COPD

Holm, Siri Margrete

Unknown Date

No description available.

Cardiopulmonary exercise test

Treadmill

Cycle ergometer

COPD

Men

Women

Linear protocol

A Comparison of upper and lower limb exercise in canoeists using the heart rate and oxygen consumption relationship

Gomes, Adrian Neil.

January 2003

The heart rate achieved with maximal upper limb exercise is quoted as being on average thirteen beats per minute lower than when performing maximal leg exercise. Many canoeists use heart rate monitors during training and seek advice on setting their heart rate training zones. Existing guidelines are based on lower limb-derived heart rates, which may not be appropriate. As canoeists use predominantly their upper limbs during canoeing, it was hypothesized that as their upper limbs are trained, they may achieve heart rates and oxygen consumption similar to those achieved with lower limb exercise. The purpose of this investigation was to compare the relationship between heart rate and oxygen consumption when exercising on either a kayak ergometer or treadmill. Fifteen volunteer canoeists, who compete regularly, were recruited by convenience, purposive sampling and randomly allocated to a V02max test using open circuit spirometry, on either a kayak ergometer or treadmill. They returned within 5 to 7 days for a V02max test on the other apparatus. Their heart rates were also measured during these activities. The heart rate oxygen consumption relationship for upper and lower limb exercise was then analysed. Maximum heart rate was on average only 6 beats per minute lower with upper limb exercise, with some subjects achieving the same or very similar HRmax; the median difference in heart rate maximum was only 4 beats per minute. Although the response of heart rate and oxygen consumption to kayaking and running was similar at any given workload, the heart rate on the kayak was about 8 beats per minute higher at any submaximal workload. V02max. on the kayak was lower than on the treadmill. At any metabolic equivalent, the tidal volume was lower on the kayak and there was a lower respiratory rate on the treadmill. At any tidal volume, the metabolic equivalent was lower on the kayak ergometer. The minute volume on the kayak was higher than on the treadmill, for all but the highest intensities of exercise. Using the leg heart rate max to determine the training zones, a slightly higher (negligible) percentage of arm V0max is achieved at any given percentage heart rate. Kayakers who train regularly, appear to be able to attain similar maximum heart rates with upper and lower limb exercise, but a lower V02max when exercising with their arms. The heart rate oxygen consumption response is the same for upper and lower body exercise; and a reduced HRmax and increased heart rate at any sub maximal workload do not appear to apply to canoeists. It is therefore concluded that heart rate training zones based on leg HRmax are suitable for kayak training. This study has helped distinguish the difference between the heart rates of the upper and lower limbs at any given oxygen consumption in canoeists. The benefits of performing this study have also been to provide better advice to canoeists on how to train using heart rate monitors. / Thesis (M.Med.Sc.)-University of Natal, Durban, 2003.

Exercise--Physiological aspects.

Physical fitness.

Kayaking.

Treadmill exercise tests.

Theses--Sports medicine.