Journal ArticleDOI
Coupling Between Cardiac and Locomotor Rhythms: The Phase Lag Between Heart Beats and Pedal Thrusts
TLDR
The preliminary assumption, that the coupling between cardiac and locomotor rhythms during cycling was on the basis of a single ischemic muscle group, has apparently been disproven and there was considerable varia tion among subjects, refuting the authors' hypothesis.Abstract:
During some rhythmic exercises, the heart and exercise rates may become coupled (be within 1% of each other). If the intraarterial and skeletal intramus cular pressure cycles were reciprocal, blood flow to exercising muscle should be maximized and cardiac load minimized. In this study the authors tested the hypothesis that, while coupling is present, the phase lag between the pedaling and cardiac contraction cycles is consistent and appropriate. Twenty-seven sub jects pedaled, at a frequency natural to them, on an electronically braked bicy cle ergometer that held the power output constant regardless of pedaling rate. To assess the phase lag between pedal thrust (two per revolution) and heart beat, pedal-gated plots of the electrocardiography signal were generated throughout the most coupled five-minute work load for each of the 9 subjects in whom the rates were within 1% of each other for at least two consecutive four- second samples taken every fifteen seconds. During this interval of thirty-sec onds in...read more
Citations
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Journal ArticleDOI
Cardiolocomotor Coupling in Young and Elderly People
TL;DR: Cardiolocomotor coupling that becomes manifest with aging may optimize cardiovascular responses during walking and in elderly people, forces generated during the gait cycle may be transmitted to arterial pressure and thus synchronize the central cardiovascular network with the stepping rhythm.
Journal ArticleDOI
Comparison of cardio-locomotor synchronization during running and cycling
TL;DR: Determining the probability of CLS by chance as a function of its duration found that, during running, CLS likely results from entrainment, whereas, during cycling, it results from chance, occurring when the cardiac rhythm approached the locomotor rhythm.
Journal ArticleDOI
Cardiolocomotor phase synchronization during rhythmic exercise
Kyuichi Niizeki,Tadashi Saitoh +1 more
Journal ArticleDOI
Physical exercise and time of day: influences on spontaneous motor tempo.
TL;DR: It is suggested that a putative internal clock might regulate Spontaneous Motor Tempo and that cardiac rhythm might influence this tempo.
Journal ArticleDOI
A Wearable All‐Gel Multimodal Cutaneous Sensor Enabling Simultaneous Single‐Site Monitoring of Cardiac‐Related Biophysical Signals
TL;DR: This study demonstrates the acquisition of biophysical signals at one point on the body using a wearable all‐gel‐integrated multimodal sensor composed of four element sensors, inspired by the slow/rapid adapting functions of the skin sensory receptors.
References
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Journal ArticleDOI
Analysis of EMG measurements during bicycle pedalling.
M. Jorge,Maury L. Hull +1 more
TL;DR: Muscular activity levels of the quadriceps are influenced by the type of shoes worn and activity levels increase with soft sole shoes as opposed to cycling shoes with cleats and toeclips and the lack of significant cocontraction of agonist/antagonist muscles enables muscle forces during pedalling action to be computed by solving a series of equilibrium problems over different regions of the crank cycle.
Journal ArticleDOI
Influence of Pedalling Rate and Power Output on Energy Expenditure During Bicycle Ergometry
TL;DR: In this article, the authors investigated the relationship between pedalling rate, power output, and energy expenditure, using bicycle ergometry as a model for recreational bicycling and found that the power output was more pronounced at high power outputs than low outputs.
Journal ArticleDOI
On the relation between joint moments and pedalling rates at constant power in bicycling.
Rob Redfield,Maury L. Hull +1 more
TL;DR: It appears that an optimum rotations min-1 can be determined from a mechanical approach for any given power level and bicycle-rider geometry.
Journal ArticleDOI
The blood flow through the human calf during rhythmic exercise.
H. Barcroft,A. C. Dornhorst +1 more
TL;DR: The new method has been used in experiments on the mechanical effect of rhythmic contraction on muscle blood flow, and it is shown that maximal rhythmic contractions obstructed the flow in dog's muscle.