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Respiratoriska variablers förändringar under en skidskyttestudie i fältWikström, Anna January 2017 (has links)
<p>2017-06-28</p>
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Repeated-sprint performance in junior ice-hockey players following a 3-week "train low" nutritional interventionAxner, Markus January 2017 (has links)
<p>2017-06-27</p>
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183 |
Ledarskapsutbildningens påverkan på idrottsledarens syn på sitt ledarskapBacklund, Simon January 2017 (has links)
<p>2017-06-28</p>
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184 |
Två uppvärmningsstrategiers påverkan för totala hopphöjden vid 90 s upprepat svikthoppBergqvist, Henrik January 2017 (has links)
<p>2017-06-27</p>
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185 |
En jämförelse i fysisk kapacitet mellan innebandyspelare och lagidrottare från andra disciplinerBinett, Alexander January 2017 (has links)
<p>2017-06-27</p>
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186 |
Aktivering av gluteus muskulaturen och stretching av höftböjarmuskulaturen och dess inverkan på löpekonomiBjörk Björnander, Freja January 2017 (has links)
<p>2017-06-07</p>
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187 |
Rörlighetsträningens påverkan på stakteknik och åkekonomi hos längdskidåkareElebro, Sofie January 2017 (has links)
<p>2017-06-07</p>
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188 |
De vanligaste skadorna inom dam-respektive herrishockeyEngström, Jessica January 2017 (has links)
<p>2017-06-27</p>
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189 |
Match-related risk factors for injury in male professional footballBengtsson, Håkan January 2017 (has links)
Background: Injuries are common in professional football, especially during matches, and they cause suffering for players, in both the short and the long term. It is therefore important to try to prevent these injuries. One of the most important steps in injury prevention is to fully understand the different risk factors that contribute to these injuries. Aim: The aim of this thesis was therefore to investigate several match-related factors that have been suggested to be important for the risk of sustaining injuries during professional football matches. Methods: The thesis consists of four papers, and all analyses are based on data gathered during a large-scale prospective cohort study that has been running since 2001: the UEFA Elite Club Injury Study. Medical teams from 61 clubs have been involved in this study, and they have prospectively gathered data about football exposure and injuries for their first team players. Associations between the following factors and injuries have been analysed: • Match characteristics in terms of match venue, match result, and competition • Match congestion, both short and long term, and at team and individual player level • Number of completed training sessions between return to sport after an injury and the first match exposure Results: All match characteristics studied were shown to be associated with injury rates, with higher injury rates during home matches compared with away matches, in matches that were lost or drawn compared with matches won, and in domestic league and Champions League matches compared with Europa League and other cup matches. It was also shown that injury rates, muscle injury rates in particular, were higher if the recovery time between matches was short. This association between match congestion and injury rates was shown when match congestion was considered at both team and individual player level. Finally, the odds of injury during the first match exposure after a period of absence due to injury was found to be higher if players had completed few training sessions between return to sport and their first match. Conclusion: There are several match-related risk factors that contribute to the injury rate during professional football matches. A better understanding of these risk factors will help teams to make better estimations of the injury risks to which players are exposed in different situations (e.g. during periods of match congestion and when players return to sport after an injury). Knowledge about risk factors will also offer the possibility of reducing the number of injuries for football teams by addressing them with appropriate measures.
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Phase plane analysis of physical working capacityBoyd, William Robert January 1967 (has links)
The purpose of this study was to determine the relationship of selected measurements from the phase plane loop of the brachial pulse wave to physical working capacity as measured on a bicycle ergometer. The selected measurements were:
1. +ṗ(x) which indicates the pulse pressure¹ when maximum positive
rate of change of pressure occurs.
2. + ṗ(y) which is a measure of the maximum positive rate of change
of pressure.
3. - ṗ(x) which indicates the pulse pressure when maximum negative
rate of change of pressure occurs.
4. - ṗ(y) which is a measure of maximum negative rate of change of
pressure.
5. + ṗ/- ṗ which is the ratio of maximum positive rate of change of pulse pressure to maximum negative rate of change of pulse pressure.
6. Pr./Ṗr. which is the ratio of pulse pressure to maximum rate of change of pulse pressure.
Thirty-two young male adults underwent a bicycle ergometer testing procedure in which physical working capacity (PWC₁₇₀) was determined. On the testing day a resting phase plane loop was first recorded. The PWC₁₇₀ test was then administered, followed by the immediate recording of a post-exercise loop. Two subsequent loops were then recorded at recovery intervals of five and ten minutes. Thus, twenty-four direct loop measurements were obtained from each subject. In addition, the difference between each post-exercise loop measurement and the corresponding resting value was calculated making a total of forty-two loop variables per subject.
A large correlation matrix was constructed in which all loop variables as well as PWC₁₇₀, PWC₁₇₀ divided by body weight, body weight, and the slope of the PWC₁₇₀ plotted line (see Appendix A) were included.
The following results were observed. PWC₁₇₀ correlated significantly
with:
1. immediate post-exercise -ṗ(y).
2. immediate post-exercise +ṗ/-ṗ.
3. immediate post-exercise - rest Pr./Ṗr.
No loop variables correlated significantly with PWC₁₇₀ divided by body weight. However, body weight alone correlated significantly with:
1. immediate post-exercise +ṗ/-ṗ.
2. immediate post-exercise - rest +ṗ/-ṗ.
The slope of the PWC₁₇₀ plotted line correlated significantly with:
1. immediate post-exercise +ṗ/-ṗ.
2. immediate post-exercise -ṗ(y).
3. resting -ṗ(y).
A stepwise multiple regression analysis calculated by computer indicated that the sum of the independent contributions of three variables accounted for 42.7% of the total variance of PWC₁₇₀. These were:
1. immediate post-exercise - rest Pr./Ṗr.
2. immediate post-exercise -ṗ(y).
3. 5 minute post-exercise +ṗ(x).
The multiple R between these three loop variables and PWC₁₇₀ was .65
¹The term "pulse pressure" as used here does not have the conventional meaning, i.e. the difference between systolic and diastolic pressures, but refers to any given point along the range between systolic and diastolic pressures. / Education, Faculty of / Curriculum and Pedagogy (EDCP), Department of / Graduate
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