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Cardiopulmonary exercise test performed on a football player: a case report

100%
Filip Wołoszyn F.
European Journal of Clinical and Experimental Medicine
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2019
|
issue 1
101-104
EN
Introduction. Cardiopulmonary Exercise Test (CPET) can precisely determine aerobic capacity, conjugate and independent functions of the pulmonary cardiovascular, and skeletal muscle systems. Aim. To describe CPET feedback from a high stamina professional football player. Description of the case. The test took place in course of one CPET session. The method of an individual case study was used in this research. The participant was a local team football player. According to the coaches’ opinion, this player had the best ability to perform long distance work. The test was performed using a cycle ergometer. Cardiopulmonary Exercise Test was performed with a cycle ergometer RAMP test. Conclusion. The player’s capacity is at a level that allows us to outline his results as a unique case.
2
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Upper limb analysis measured by inertial measurement unit tool: a case report

63%
Filip Wołoszyn F., Anna Czmi A.
European Journal of Clinical and Experimental Medicine
|
2019
|
issue 1
94-100
EN
Introduction. This article reports differences in accurate and inaccurate forehand and backhand strokes in tennis. The tests were carried out on a professional tennis player. The duration of a stroke, the heights of the individual segments of the right upper limb and differences in the heights of the segments at the beginning and at the end of every phase of stroke were examined. Aim. The major aim of the work was to expose upper limb disparity in stokes. Description of the case report. The research tool was inertial motion sensors (IMS) based on an accelerometer, a gyroscope and a magnetometer. A professional tennis player was examined using the individual case method and kinematic analysis. Results. The analysis concerned the average time to perform forehand and backhand strokes during all phases of the stroke, i.e. preparation, acceleration and follow-through phases. The average heights of the individual upper limb segments during a stroke were also taken into account. The results of the study are meant to show how the movement of the upper limb affects the accuracy and velocity of a stroke. Conclusion. The movements of individual segments in some accurate strokes were similar to those in inaccurate strokes.
3
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Applicability of Cardiopulmonary Exercise Test

39%
Filip Wołoszyn F., Patrycja Pańczyszyn-Trzewik P., Seweryn Ziajor S., Aleksandra Misygar A., Artur Bednarski A., Oskar Kwiatkowski O., Magdalena Sowa-Kućma M.
European Journal of Clinical and Experimental Medicine
|
2019
|
issue 4
351-355
EN
Introduction. Cardiopulmonary Exercise Testing (CPET) test is a test that allows an integrated response to the physical effort of the cardiovascular system, respiratory system, nervous system, skeletal muscles and metabolism. The growing awareness of better correlation between health condition and exercise tolerance than with resting measurements is the key importance. The range of clinical applications is expanding to assess impairment of physical capacity with an unclear cause and to objectively determine functional capacity. Aim. The aim of this review was to discuss the applicability of cardiopulmonary exercise test in diverse branches of clinical and non-clinical use. Material and methods. This review was performed according to latest literature. We mainly searched PubMed and Google Scholar to look for previous cases of CPET applicability. Results. CPET has a very wide range of applications for the diagnosis of physical productivity as seen through athletes and amateurs in their own right. This medical diagnostic practice allows us to map out the inconsistencies the blood, respiratory and bone systems/structures. Conclusion. Cardiopulmonary exercise test is a safe method of different disease assessment. It can be use in various cases, to rate reaction of an organism to physical effort.
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