Search

Your search keyword '"Müller, Edith E."' showing total 5 results
Start Over Author "Müller, Edith E." Search Limiters Full Text
5 results on '"Müller, Edith E."'

2. Journal of Sports Science and Medicine / Acute effects of winter sports and indoor cycling on arterial stiffness

Author

Niebauer, Josef, Müller, Edith E., Schönfelder, Martin, Schwarzl, Christoph, Mayr, Barbara, Stöggl, Julia, and Stöggl, Thomas

Subjects
cycling, exercise intensity, Alpine skiing, physical activity, pulse wave analysis, cross-country skiing
Abstract

Sedentary lifestyle predisposes to endothelial dysfunction, increased arterial stiffness and cardiovascular diseases, all of which can be positively modified by regular physical exercise training. A decrease in physical activity during winter months coincides with higher rates of cardiovascular events. In order to identify winter sports suitable to overcome this seasonal exercise deficit and thus contribute to cardiovascular health, it was the aim of this study to compare immediate effects of cross-country skiing (XCS) and alpine skiing (AS) on arterial stiffness as an alternative to indoor cycling (IC). After baseline assessment, eighteen healthy subjects performed one session of XCS, AS, and IC in randomized order. Pulse wave analysis was conducted (Mobil-o-Graph®) before and 10-min after exercise. Parameters of arterial stiffness and wave reflection were reduced after XCS and IC, but not after AS: central systolic blood pressure (IC: -8.0 5.4 mmHg; p < 0.001), amplitude of the backward pressure wave (IC: -1.4 2.7 mmHg; p < 0.05), reflection coefficient (XCS: -6.0 7.8%; IC: -5.7 8.1%; both p < 0.1), and pulse wave velocity (IC by -0.19 0.27 m/s; p < 0.01). Higher exercise intensities correlated with greater reductions of arterial stiffness (all p < 0.05). Single sessions of XCS, IC but not AS led to comparable improvement in arterial stiffness, which was even more pronounced during higher exercise intensities. With regard to arterial stiffness, IC and XCS emerge as more effective to counteract the winter exercise deficit and thus the deleterious cardiovascular effects of a sedentary lifestyle. (VLID)5397873

Published
2020

3. Acute Effects of Winter Sports and Indoor Cycling on Arterial Stiffness.

Author

Niebauer, Josef, Müller, Edith E., Schönfelder, Martin, Schwarzl, Christoph, Mayr, Barbara, Stöggl, Julia, and Stöggl, Thomas

Subjects
*ARTERIAL diseases, *BLOOD pressure, *CARDIOVASCULAR diseases, *CROSS-country skiing, *CYCLING, *EXERCISE physiology, *SKIING, *SNOW, *SPORTS facilities, *WINTER sports, *EXERCISE intensity, *SEDENTARY lifestyles, *DESCRIPTIVE statistics
Abstract

Sedentary lifestyle predisposes to endothelial dysfunction, increased arterial stiffness and cardiovascular diseases, all of which can be positively modified by regular physical exercise training. A decrease in physical activity during winter months coincides with higher rates of cardiovascular events. In order to identify winter sports suitable to overcome this seasonal exercise deficit and thus contribute to cardiovascular health, it was the aim of this study to compare immediate effects of cross-country skiing (XCS) and alpine skiing (AS) on arterial stiffness as an alternative to indoor cycling (IC). After baseline assessment, eighteen healthy subjects performed one session of XCS, AS, and IC in randomized order. Pulse wave analysis was conducted (Mobil-o-Graph®) before and 10-min after exercise. Parameters of arterial stiffness and wave reflection were reduced after XCS and IC, but not after AS: central systolic blood pressure (IC: -8.0 ± 5.4 mmHg; p < 0.001), amplitude of the backward pressure wave (IC: -1.4 ± 2.7 mmHg; p < 0.05), reflection coefficient (XCS: -6.0 ± 7.8%; IC: -5.7 ± 8.1%; both p < 0.1), and pulse wave velocity (IC by -0.19 ± 0.27 m/s; p < 0.01). Higher exercise intensities correlated with greater reductions of arterial stiffness (all p < 0.05). Single sessions of XCS, IC but not AS led to comparable improvement in arterial stiffness, which was even more pronounced during higher exercise intensities. With regard to arterial stiffness, IC and XCS emerge as more effective to counteract the winter exercise deficit and thus the deleterious cardiovascular effects of a sedentary lifestyle. [ABSTRACT FROM AUTHOR]

Published
2020

4. Journal of Sports Science and Medicine / A comparison between alpine skiing, cross-country skiing and indoor cycling on cardiorespiratory and metabolic response

Author

Stöggl, Thomas, Schwarzl, Christoph, Müller, Edith E., Nagasaki, Masaru, Stöggl, Julia, Scheiber, Peter, Schönfelder, Martin, and Niebauer, Josef

Subjects
cycling, oxygen uptake, blood lactate, energy expenditure, gender, Borg, fitness level, human activities, cross-country skiing
Abstract

Since physical inactivity especially prevails during winter months, we set out to identify outdoor alternatives to indoor cycling (IC) by comparing the metabolic and cardiorespiratory responses during alpine skiing (AS), cross-country skiing (XCS) and IC and analyse the effects of sex, age and fitness level in this comparison. Twenty one healthy subjects performed alpine skiing (AS), cross-country skiing (XCS), and IC. Oxygen uptake (VO2), total energy expenditure (EE), heart rate (HR), lactate, blood glucose and rate of perceived exertion (RPE) were determined during three 4-min stages of low, moderate and high intensity. During XCS and IC VO2max and EE were higher than during AS. At least 2 hours of AS are necessary to reach the same EE as during one hour of XCS or IC. HR, VO2, lactate, and RPEarms were highest during XCS, whereas RPEwhole-body was similar and RPElegs lower than during AS and IC, respectively. Weight adjusted VO2 and EE were higher in men than in women while fitness level had no effect. Male, fit and young participants were able to increase their EE and VO2 values more pronounced. Both AS and XCS can be individually tailored to serve as alternatives to IC and may thus help to overcome the winter activity deficit. XCS was found to be the most effective activity for generating a high EE and VO2 while AS was the most demanding activity for the legs. Key pointsDuring cross-country skiing and indoor cycling VO2max and energy expenditure were higher than during alpine skiingApproximately 2 hours of alpine skiing are necessary to reach the same energy expenditure of one hour of cross-country skiing or indoor cycling.Alpine skiing and cross-country skiing can be individually tailored to serve as sports alternatives in winter to activity deficit.By applying different skiing modes as parallel ski steering, carving long radii and short turn skiing, metabolic and cardiorespiratory response can be increased during alpine skiing.Male, fit and young participants were able to increase their energy expenditure and VO2 more pronounced with an increase in intensity compared with their counterparts. (VLID)2171386

Published
2016

5. A Comparison between Alpine Skiing, Cross-Country Skiing and Indoor Cycling on Cardiorespiratory and Metabolic Response.

Author

Stöggl, Thomas, Schwarzl, Christoph, Müller, Edith E., Masaru Nagasaki, Stöggl, Julia, Scheiber, Peter, Schönfelder, Martin, and Niebauer, Josef

Subjects
*BLOOD sugar analysis, *EXERCISE, *AGE distribution, *ANALYSIS of variance, *BIOTELEMETRY, *CARDIOPULMONARY system, *CARDIOPULMONARY system physiology, *CLINICAL trials, *CROSS-country skiing, *CROSSOVER trials, *CYCLING, *ELECTROCARDIOGRAPHY, *ENERGY metabolism, *EXERCISE physiology, *EXERCISE tests, *GEOGRAPHIC information systems, *HEART rate monitoring, *LACTATES, *SKIING, *PHYSICAL fitness, *PROBABILITY theory, *RESEARCH funding, *STATISTICAL sampling, *SEX distribution, *SNOW, *STATISTICS, *TIME, *DATA analysis, *BODY mass index, *RANDOMIZED controlled trials, *REPEATED measures design, *OXYGEN consumption, *ERGOMETRY, *EXERCISE intensity, *DATA analysis software, *DESCRIPTIVE statistics, *ONE-way analysis of variance
Abstract

Since physical inactivity especially prevails during winter months, we set out to identify outdoor alternatives to indoor cycling (IC) by comparing the metabolic and cardiorespiratory responses during alpine skiing (AS), cross-country skiing (XCS) and IC and analyse the effects of sex, age and fitness level in this comparison. Twenty one healthy subjects performed alpine skiing (AS), cross-country skiing (XCS), and IC. Oxygen uptake (VO2), total energy expenditure (EE), heart rate (HR), lactate, blood glucose and rate of perceived exertion (RPE) were determined during three 4-min stages of low, moderate and high intensity. During XCS and IC VO2max and EE were higher than during AS. At least 2i4 hours of AS are necessary to reach the same EE as during one hour of XCS or IC. HR, VO2, lactate, and RPEarms were highest during XCS, whereas RPEwhole-body was similar and RPElegs lower than during AS and IC, respectively. Weight adjusted VO2 and EE were higher in men than in women while fitness level had no effect. Male, fit and young participants were able to increase their EE and VO2 values more pronounced. Both AS and XCS can be individually tailored to serve as alternatives to IC and may thus help to overcome the winter activity deficit. XCS was found to be the most effective activity for generating a high EE and VO2 while AS was the most demanding activity for the legs. [ABSTRACT FROM AUTHOR]

Published
2016

Catalog

Books, media, physical & digital resources
See catalog results