Carl Foster
University of Wisconsin–La Crosse
484 Papers
3.5K Citations
Carl Foster is an academic researcher from University of Wisconsin–La Crosse. The author has contributed to research in topics: Medicine & Rating of perceived exertion. The author has an hindex of 69, co-authored 459 publications. Previous affiliations of Carl Foster include University of Oxford & University of Wisconsin–Milwaukee.
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Papers
Left ventricular function during sudden strenuous exercise.
Carl Foster,James D. Anholm,Charles Hellman,John E. Carpenter,Michael L. Pollock,Donald H. Schmidt +5 more
TL;DR: The hypothesis that subendocardial ischemia is an important mechanism in the response to sudden strenuous exercise (SSE) is supported, and the lack of ECG changes and segmental wall motion abnormalities and the relatively high absolute value of the LV ejection fraction suggest that if subend Cardiac Ischemia occurs during SSE, it is attributable to physiologic rather than pathologic mechanisms.
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•Journal Article
Exercise intensity and energy expenditure of a tabata workout.
TL;DR: The purpose of this study was to determine the relative exercise intensity and energy expenditure of a Tabata workout and to predict VO2 and energy Expenditure during Tabata training.
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Biomechanical Analysis of a Change-of-Direction Task in Collegiate Soccer Players.
TL;DR: It is shown that specific biomechanical measurements can provide details about the execution of a change of direction, highlighting the ability of the nonpreferred leg to perform better directional changes.
49
•Journal Article
The accuracy of various activity trackers in estimating steps taken and energy expenditure
TL;DR: The results suggest that step count accuracy during normal ambulation can be measured accurately by a number of devices, however, during non-standard ambulation (particularly for measurement of EE), these contemporary activity monitoring devices require improved algorithms.
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A simplified approach to estimating the maximal lactate steady state.
TL;DR: Testing the ability of heart rate (HR) to identify MSS during steady state exercise, similar to that used in conventional exercise prescription, concludes that use of these simple HR models may predict MSS with sufficient accuracy to be useful when direct HLa measurement is not available.
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