Hazardous drinking in New Zealand sportspeople: level of sporting participation and drinking motives.
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AIMS: To examine the relationship between athlete drinking motives and hazardous drinking across differing levels of sporting participation (club vs elite-provincial vs elite-international). METHODS: Data from 1214 New Zealand sportspeople was collected. We assessed hazardous drinking with the WHO's AUDIT questionnaire and sportspeople's psychosocial reasons for drinking with the ADS. Level of sporting participation (club/social, provincial/state, or international/olympic level) was also assessed. RESULTS: Hazardous drinking behaviours differed across levels of sporting participation, with elite-provincial sportspeople showing the highest level of hazardous drinking, club/social sportspeople the next highest and elite-international sportspeople the lowest. Sportspeople who placed a greater emphasis on drinking as a reward for participating in their sports tended to display more hazardous drinking behaviours, but other ADS motives differed over level of sporting participation. Elite-provincial sportspeople and elite-international sportspeople placed more emphasis on drinking as a way to cope with the stresses of participating in their sports. A relationship between team/group motives and AUDIT scores was fully mediated by positive reinforcement motives, and partially mediated by stress-related coping motives. CONCLUSIONS: These findings have implications for alcohol education programs targeted at sportspeople and sport administration, and may help improve the efficacy and focus of intervention programs. (+info)
Reference intervals for serum creatine kinase in athletes.
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BACKGROUND: The serum concentration of creatine kinase (CK) is used widely as an index of skeletal muscle fibre damage in sport and exercise. Since athletes have higher CK values than non-athletes, comparing the values of athletes to the normal values established in non-athletes is pointless. The purpose of this study was to introduce reference intervals for CK in athletes. METHOD: CK was assayed in serum samples from 483 male athletes and 245 female athletes, aged 7-44. Samples had been obtained throughout the training and competition period. For comparison, CK was also assayed in a smaller number of non-athletes. Reference intervals (2.5th to 97.5th percentile) were calculated by the non-parametric method. RESULTS: The reference intervals were 82-1083 U/L (37 degrees C) in male and 47-513 U/L in female athletes. The upper reference limits were twice the limits reported for moderately active non-athletes in the literature or calculated in the non-athletes in this study. The upper limits were up to six times higher than the limits reported for inactive individuals in the literature. When reference intervals were calculated specifically in male football (soccer) players and swimmers, a threefold difference in the upper reference limit was found (1492 vs 523 U/L, respectively), probably resulting from the different training and competition demands of the two sports. CONCLUSION: Sport training and competition have profound effects on the reference intervals for serum CK. Introducing sport-specific reference intervals may help to avoid misinterpretation of high values and to optimise training. (+info)
Physical performance changes after unsupervised training during the autumn/spring semester break in competitive tennis players.
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BACKGROUND: All competitive tennis players take time away from coaches throughout the year; however, little information is available as to the short-term physiological effect of these breaks. OBJECTIVE: The purpose of this investigation was to evaluate the impact of a 5 week off-campus structured, yet unsupervised, break from regular training in top collegiate tennis players. METHODS: A nationally ranked collegiate NCAA Division I male tennis team (n = 8) performed a test battery in December and again in January after a 5 week period of recommended, yet unsupervised, training. The tests performed were 5, 10 and 20 m sprints, spider agility test, medicine ball power throws, standing long jump, Wingate anaerobic power test, VO2max, push-up and sit-up test, grip strength and range of motion (ROM) measures (goniometer) of the shoulder, hip, hamstring and quadriceps. RESULTS: Paired t tests (p<0.05) showed significant decreases in mean (SEM) Wingate power measurements in Watts/kg (pre: 8.35 (0.19) w/kg ; post: 7.80 (0.24) w/kg ), minimum Wingate power (pre: 5.89 (0.27) w/kg; post: 5.10 (0.38) w/kg) and VO2max values (pre: 53.90 (1.11) ml/kg/min; post: 47.86 (1.54) ml/kg/min). A significant increase was seen in the athlete's fatigue index (pre: 44.26 (2.85)%; post: 51.41 (3.53)%), fastest 5 m (pre: 1.07 (0.03) s; post: 1.12 (0.02) s), 10 m (pre: 1.79 (0.03) s; post: 1.84 (0.04) s) and 20 m (pre: 3.07 (0.05) s; post: 3.13 (0.05) s) sprint times. No significant differences were seen for the other variables tested. CONCLUSIONS: These results suggest that a 5 week interruption of normal training can result in significant reductions in speed, power and aerobic capacity in competitive tennis players, likely owing to poor compliance with the prescribed training regimen. Therefore, coaches and trainers might benefit from techniques (eg, pre- and post-testing) requiring athletes' to have accountability for unsupervised workouts. (+info)
Preparticipation medical evaluation in professional sport in the UK: theory or practice?
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OBJECTIVE: To determine the level of pre-employment, pre-season, and post-injury medical evaluation of players undertaken within UK professional team sports. DESIGN: A postal, whole population survey. SETTING: Elite professional sports teams in England. POPULATION: Six groups comprising the following clubs: professional football (Premiership, 15 of 20; Championship, 22 of 24), rugby union (Premiership, 9 of 12; Division 1, 11 of 14), rugby league (Super League, 6 of 11) and cricket (County, 12 of 18). MAIN OUTCOME MEASURES: Number (percentage) of clubs recording players' medical history and undertaking medical examinations of players' cardiovascular, respiratory, neurological, and musculoskeletal systems at pre-employment, pre-season and post-injury. RESULTS: The overall response to the survey was 74%, with a range from 55% to 92% among groups. Almost 90% of football (Premiership and Championship) and rugby union (Premiership) clubs took a pre-employment history of players' general health, cardiovascular, respiratory, neurological, and musculoskeletal systems, but fewer than 50% of cricket and rugby union (Division 1) clubs recorded a history. The majority of football (Premiership and Championship) and rugby union (Premiership) clubs implemented both cardiovascular and musculoskeletal examinations of players before employment. Fewer than 25% of clubs in any of the groups implemented neurological examinations of players at pre-employment, although 100% of rugby union (Premiership) and rugby league clubs implemented neurological testing during pre-season. CONCLUSIONS: None of the sports implemented best practice guidelines for the preparticipation evaluation of players at all stages of their employment. Departures from best practice guidelines and differences in practices between clubs within the same sport leave club physicians vulnerable if their players sustain injuries or ill health conditions that could have been identified and avoided through the implementation of a preparticipation examination. (+info)
Motivation in tennis.
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Motivation underpins successful tennis performance, representing one of the game's foremost psychological skills. This paper elaborates on its role in tennis play, and takes an overview of the current state of motivation research applied to tennis. First, the importance of motivation in player and coach performance is explored. The body of evidence pertaining to players' motives for participation and the relevance of goal achievement motivation in tennis is then examined. Finally, the efficacy of motivational climates created by significant others is discussed in light of current practice. (+info)
The Olympic brain. Does corticospinal plasticity play a role in acquisition of skills required for high-performance sports?
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Non-invasive electrophysiological and imaging techniques have recently made investigation of the intact behaving human brain possible. One of the most intriguing new research areas that have developed through these new technical advances is an improved understanding of the plastic adaptive changes in neuronal circuitries underlying improved performance in relation to skill training. Expansion of the cortical representation or modulation of corticomotor excitability of specific muscles engaged in task performance is required for the acquisition of the skill. These changes at cortical level appear to be paralleled by changes in transmission in spinal neuronal circuitries, which regulate the contribution of sensory feedback mechanisms to the execution of the task. Such adaptive changes also appear to be essential for the consolidation of a memory of performance of motor tasks and thus for the lasting ability of performing highly skilled movements such as those required for Olympic sports. (+info)
Endurance exercise performance in Masters athletes: age-associated changes and underlying physiological mechanisms.
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Older ('Masters') athletes strive to maintain or even improve upon the performance they achieved at younger ages, but declines in athletic performance are inevitable with ageing. In this review, we describe changes in peak endurance exercise performance with advancing age as well as physiological factors responsible for those changes. Peak endurance performance is maintained until approximately 35 years of age, followed by modest decreases until 50-60 years of age, with progressively steeper declines thereafter. Among the three main physiological determinants of endurance exercise performance (i.e. maximal oxygen consumption , lactate threshold and exercise economy), a progressive reduction in appears to be the primary mechanism associated with declines in endurance performance with age. A reduction in lactate threshold, i.e. the exercise intensity at which blood lactate concentration increases significantly above baseline, also contributes to the reduction in endurance performance with ageing, although this may be secondary to decreases in . In contrast, exercise economy (i.e. metabolic cost of sustained submaximal exercise) does not change with age in endurance-trained adults. Decreases in maximal stroke volume, heart rate and arterio-venous O(2) difference all appear to contribute to the age-related reductions in in endurance-trained athletes. Declines in endurance exercise performance and its physiological determinants with ageing appear to be mediated in large part by a reduction in the intensity (velocity) and volume of the exercise that can be performed during training sessions. Given their impressive peak performance capability and physiological function capacity, Masters athletes remain a fascinating model of 'exceptionally successful ageing' and therefore are highly deserving of our continued scientific attention as physiologists. (+info)
The cardiovascular challenge of exercising in the heat.
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Exercise in the heat can pose a severe challenge to human cardiovascular control, and thus the provision of oxygen to exercising muscles and vital organs, because of enhanced thermoregulatory demand for skin blood flow coupled with dehydration and hyperthermia. Cardiovascular strain, typified by reductions in cardiac output, skin and locomotor muscle blood flow and systemic and muscle oxygen delivery accompanies marked dehydration and hyperthermia during prolonged and intense exercise characteristic of many summer Olympic events. This review focuses on how the cardiovascular system is regulated when exercising in the heat and how restrictions in locomotor skeletal muscle and/or skin perfusion might limit athletic performance in hot environments. (+info)