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1.
Scand J Med Sci Sports ; 27(11): 1221-1230, 2017 Nov.
Article in English | MEDLINE | ID: mdl-27739188

ABSTRACT

Catecholamine reuptake inhibition improves the performance of male volunteers exercising in warm conditions, but sex differences in thermoregulation, circulating hormones, and central neurotransmission may alter this response. With local ethics committee approval, nine physically active women (mean ± SD age 21 ± 2 years; height 1.68 ± 0.08 m; body mass 64.1 ± 6.0 kg; VO2peak 51 ± 7 mL/kg/min) were recruited to examine the effect of pre-exercise administration of Bupropion (BUP; 4 × 150 mg) on prolonged exercise performance in a warm environment. Participants completed a VO2peak test, two familiarization trials, and two randomized, double-blind experimental trials. All trials took place during the first 10 days of the follicular phase of the menstrual cycle. Participants cycled for 1 h at 60% VO2peak followed by a 30-min performance test. Total work done was greater during the BUP trial (291 ± 48 kJ) than the placebo trial (269 ± 46 kJ, P = 0.042, d = 0.497). At the end of the performance test, core temperature was higher on the BUP trial (39.5 ± 0.4 °C) than on the placebo trial (39.2 ± 0.6 °C, P = 0.021; d = 0.588), as was heart rate (185 ± 9 vs 179 ± 13, P = 0.043; d = 0.537). The results indicate that during the follicular phase of the menstrual cycle, an acute dosing protocol of BUP can improve self-regulated performance in warm conditions.


Subject(s)
Athletic Performance , Bupropion/administration & dosage , Dopamine Uptake Inhibitors/administration & dosage , Exercise/physiology , Hot Temperature , Physical Endurance/physiology , Dopamine , Double-Blind Method , Exercise Test , Female , Heart Rate , Humans , Norepinephrine , Oxygen Consumption , Young Adult
2.
Nutr Rev ; 73 Suppl 2: 148-50, 2015 Sep.
Article in English | MEDLINE | ID: mdl-26290300

ABSTRACT

On April 7-8, 2014, the European Hydration Institute hosted a small group of experts at Castle Combe Manor House, United Kingdom, to discuss a range of issues related to human hydration, health, and performance. The meeting included 18 recognized experts who brought a wealth of experience and knowledge to the topics under review. Eight selected topics were addressed, with the key issues being briefly presented before an in-depth discussion. Presented here is the executive summary and conclusions from this meeting.


Subject(s)
Dehydration , Drinking , Health , Water-Electrolyte Balance , Humans
3.
Article in English | MEDLINE | ID: mdl-23899752

ABSTRACT

Hydration status has profound effects on both physical and mental performance, and sports performance is thus critically affected. Both overhydration and underhydration - if sufficiently severe - will impair performance and pose a risk to health. Athletes may begin exercise in a hypohydrated state as a result of incomplete recovery from water loss induced in order to achieve a specific body mass target or due to incomplete recovery from a previous competition or training session. Dehydration will also develop in endurance exercise where fluid intake does not match water loss. The focus has generally been on training rather than on competition, but sweat loss and fluid replacement in training may have important implications. Hypohydration may impair training quality and may also increase stress levels. It is unclear whether this will have negative effects (reduced training quality, impaired immunity) or whether it will promote a greater adaptive response. Hypohydration and the consequent hyperthermia, however, can enhance the effectiveness of a heat acclimation program, resulting in improved endurance performance in warm and temperate environments. Drinking in training may be important in enhancing tolerance of the gut when athletes plan to drink in competition. The distribution of water between body water compartments may also be important in the initiation and promotion of cellular adaptations to the training stimulus.


Subject(s)
Dehydration , Drinking , Exercise/physiology , Physical Endurance/physiology , Sports/physiology , Water-Electrolyte Balance , Water , Adaptation, Physiological , Athletic Performance/physiology , Body Water , Competitive Behavior/physiology , Fluid Therapy , Hot Temperature , Humans , Physical Exertion/physiology
4.
Br J Sports Med ; 46(11): 770-9, 2012 Sep.
Article in English | MEDLINE | ID: mdl-22685119

ABSTRACT

Challenging environmental conditions, including heat and humidity, cold, and altitude, pose particular risks to the health of Olympic and other high-level athletes. As a further commitment to athlete safety, the International Olympic Committee (IOC) Medical Commission convened a panel of experts to review the scientific evidence base, reach consensus, and underscore practical safety guidelines and new research priorities regarding the unique environmental challenges Olympic and other international-level athletes face. For non-aquatic events, external thermal load is dependent on ambient temperature, humidity, wind speed and solar radiation, while clothing and protective gear can measurably increase thermal strain and prompt premature fatigue. In swimmers, body heat loss is the direct result of convection at a rate that is proportional to the effective water velocity around the swimmer and the temperature difference between the skin and the water. Other cold exposure and conditions, such as during Alpine skiing, biathlon and other sliding sports, facilitate body heat transfer to the environment, potentially leading to hypothermia and/or frostbite; although metabolic heat production during these activities usually increases well above the rate of body heat loss, and protective clothing and limited exposure time in certain events reduces these clinical risks as well. Most athletic events are held at altitudes that pose little to no health risks; and training exposures are typically brief and well-tolerated. While these and other environment-related threats to performance and safety can be lessened or averted by implementing a variety of individual and event preventative measures, more research and evidence-based guidelines and recommendations are needed. In the mean time, the IOC Medical Commission and International Sport Federations have implemented new guidelines and taken additional steps to mitigate risk even further.


Subject(s)
Altitude , Body Temperature Regulation/physiology , Cold Temperature/adverse effects , Hot Temperature/adverse effects , Sports , Acclimatization/physiology , Altitude Sickness/prevention & control , Athletic Performance/physiology , Cold Climate/adverse effects , Dehydration/prevention & control , Exercise/physiology , Frostbite/prevention & control , Health Facilities/supply & distribution , Heat Stress Disorders/prevention & control , Humans , Hypothermia/prevention & control , Respiration Disorders/prevention & control , Risk Factors
5.
J Sports Sci ; 30 Suppl 1: S33-41, 2012.
Article in English | MEDLINE | ID: mdl-22594964

ABSTRACT

In the absence of any food or fluid intake during the hours of daylight during the month of Ramadan, a progressive loss of body water will occur over the course of each day, though these losses can be completely replaced each night. Large body water deficits will impair both physical and cognitive performance. The point at which water loss will begin to affect performance is not well defined, but it may be as little as 1-2% of body mass. For resting individuals in a temperate environment, the water loss that occurs during a day without food or fluid will typically amount to about 1% of body mass by the time of sunset. This small loss of body water is unlikely to have a major adverse effect on any aspect of physical or cognitive performance. Larger body water losses will occur, however, in hot weather or if exercise is undertaken. Performance in events lasting about 1 hour or longer may be impaired in the absence of fluid intake during the event. In weight-category sports, there may be difficulties due to the impossibility of restoring body water content between the weigh-in and competition, and athletes will require alternative strategies. Where more than one competition or training session takes place in a single day and where substantial fluid losses are incurred, recovery will be impaired by the absence of fluid intake.


Subject(s)
Athletic Performance , Body Water/metabolism , Dehydration , Drinking , Islam , Sports , Water , Body Weight , Cognition , Energy Intake , Exercise , Fasting , Fluid Therapy , Humans , Physical Endurance , Psychomotor Performance , Rest , Stress, Physiological , Temperature
8.
J Sports Sci ; 29 Suppl 1: S57-66, 2011.
Article in English | MEDLINE | ID: mdl-22150428

ABSTRACT

Dietary supplements are widely used at all levels of sport. Changes in patterns of supplement use are taking place against a background of changes in the regulatory framework that governs the manufacture and distribution of supplements in the major markets. Market regulation is complicated by the increasing popularity of Internet sales. The need for quality control of products to ensure they contain the listed ingredients in the stated amount and to ensure the absence of potentially harmful substances is recognized. This latter category includes compounds prohibited under anti-doping regulations. Several certification programmes now provide testing facilities for manufacturers of both raw ingredients and end products to ensure the absence of prohibited substances. Athletes should carry out a cost-benefit analysis for any supplement they propose to use. For most supplements, the evidence is weak, or even completely absent. A few supplements, including caffeine, creatine, and bicarbonate, are supported by a strong research base. Difficulties arise when new evidence appears to support novel supplements: in recent years, ß-alanine has become popular, and the use of nitrate and arginine is growing. Athletes seldom wait until there is convincing evidence of efficacy or of safety, but caution is necessary to minimize risk.


Subject(s)
Dietary Supplements/statistics & numerical data , Drug and Narcotic Control , Sports , Athletic Performance , Cost-Benefit Analysis , Dietary Supplements/standards , Doping in Sports/trends , Drug and Narcotic Control/trends , Female , Humans , Male , Quality Control
9.
Scand J Med Sci Sports ; 20 Suppl 3: 40-7, 2010 Oct.
Article in English | MEDLINE | ID: mdl-21029189

ABSTRACT

Dehydration, if sufficiently severe, impairs both physical and mental performance, and performance decrements are greater in hot environments and in long-lasting exercise. Athletes should begin exercise well hydrated and should drink during exercise to limit water and salt deficits. Many athletes are dehydrated to some degree when they begin exercise. During exercise, most drink less than their sweat losses, some drink too much and a few develop hyponatraemia. Athletes should learn to assess their hydration needs and develop a personalized hydration strategy that takes account of exercise, environment and individual needs. Pre-exercise hydration status can be assessed from urine frequency and volume, with additional information from urine color, specific gravity or osmolality. Changes in hydration status during exercise can be estimated from the change in body mass: sweat rate can be estimated if fluid intake and urinary losses are also measured. Sweat salt losses can be determined by collection and analysis of sweat samples. An appropriate, individualized drinking strategy will take account of pre-exercise hydration status and of fluid, electrolyte and substrate needs before, during and after a period of exercise.


Subject(s)
Competitive Behavior/physiology , Dehydration/prevention & control , Exercise Tolerance/physiology , Exercise/physiology , Fluid Therapy/methods , Sports/physiology , Dehydration/etiology , Humans , Oxygen Consumption , Sweat/chemistry , Water-Electrolyte Balance
10.
Scand J Med Sci Sports ; 20 Suppl 3: 95-102, 2010 Oct.
Article in English | MEDLINE | ID: mdl-21029196

ABSTRACT

Endurance performance is impaired in the heat, and a combination of high temperature and high humidity presents a major challenge to the elite marathon runner, who must sustain a high metabolic rate throughout the race. The optimum temperature for marathon performance is generally about 10-12 °C. The optimum temperature may be lower for faster runners than for slower runners. Sweat evaporation limits the rise in core temperature, but dehydration will impair cardiovascular function, leading to a fall in blood flow to muscle, skin and other tissues. There is growing evidence that the effects of high ambient temperature and dehydration on performance of exercise may be mediated by effects on the central nervous system. This seems to involve serotonergic and dopaminergic functions.


Subject(s)
Adaptation, Physiological/physiology , Exercise Tolerance/physiology , Fatigue/etiology , Fever/complications , Hot Temperature/adverse effects , Running/physiology , Adaptation, Psychological , Body Temperature Regulation/physiology , Dehydration/etiology , Dehydration/prevention & control , Fatigue/psychology , Fever/psychology , Humans , Risk Factors , Stress, Physiological , Stress, Psychological
11.
Scand J Med Sci Sports ; 20 Suppl 3: 117-24, 2010 Oct.
Article in English | MEDLINE | ID: mdl-21029198

ABSTRACT

Dehydration and hyperthermia both, if sufficiently severe, will impair exercise performance. Dehydration can also impair performance of tasks requiring cognition and skill. Body temperature may exceed 40 °C in competitive games played in hot weather, but limited data are available. Football played in the heat, therefore, poses a challenge, and effects on some aspects of performance become apparent as environmental temperature increases above about 12-15 °C. Prior acclimatization will reduce the impact of high environmental temperatures but provides limited protection when humidity is also high. Ingestion of fluids is effective in limiting the detrimental effects on performance: drinks with added carbohydrate and electrolytes are generally more effective than plain water and drinks may be more effective if taken cold than if taken at ambient temperature. Pre-exercise lowering of body temperature may aid some aspects of performance, but the efficacy has not been demonstrated in football.


Subject(s)
Body Temperature Regulation/physiology , Dehydration/complications , Fatigue/etiology , Hot Temperature/adverse effects , Soccer/physiology , Sweating/physiology , Adaptation, Physiological , Climate , Cold Temperature/adverse effects , Competitive Behavior , Fatigue/prevention & control , Fluid Therapy , Humans , Life Style , Water-Electrolyte Balance/physiology
12.
Scand J Med Sci Sports ; 20 Suppl 3: 133-9, 2010 Oct.
Article in English | MEDLINE | ID: mdl-21029200

ABSTRACT

During a football match played in warm (34.3 ± 0.6 °C), humid (64 ± 2% rh) conditions, 22 male players had their pre-match hydration status, body mass change, sweat loss and drinking behavior assessed. Pre-match urine specific gravity (1.012 ± 0.006) suggested that all but three players commenced the match euhydrated. Players lost 3.1 ± 0.6 L of sweat and 45 ± 9 mmol of sodium during the 90-min match and replaced 55 ± 19% of their sweat losses and hence by the end of the game were 2.2 ± 0.9% lighter. The water volume consumed during the game was highly variable (1653 ± 487 mL; 741-2387 mL) but there was a stronger relationship between the estimated pre-game hydration status and water volume consumed, than between sweat rate and water volume consumed. In a second match, with the same players 2 weeks later in 34.4 ± 0.6 °C, 65 ± 3% rh, 11 players had a sports drink available to them before and during the match in addition to water. Total drink volume consumed during the match was the same, but approximately half the volume was consumed as sports drink. The results indicate that substantial sweat water and electrolyte losses can occur during match play in hot conditions and a substantial water and sodium deficit can occur in many players even when water or sports drink is freely available.


Subject(s)
Adaptation, Physiological , Competitive Behavior/physiology , Dehydration/etiology , Hot Temperature/adverse effects , Soccer/physiology , Sweating/physiology , Body Mass Index , Dehydration/prevention & control , Environment , Environmental Exposure/adverse effects , Exercise Tolerance , Humans , Male , Statistics as Topic , Statistics, Nonparametric , Stress, Physiological , Sweat/chemistry , Urinalysis , Water Loss, Insensible/physiology , Water-Electrolyte Balance/physiology , Young Adult
13.
Scand J Med Sci Sports ; 20 Suppl 3: 140-7, 2010 Oct.
Article in English | MEDLINE | ID: mdl-21029201

ABSTRACT

Heat stress may contribute to decreased match performance when football is played in extreme heat. This study evaluated activity patterns and thermal responses of players during soccer matches played in different environmental conditions. Non-acclimatized soccer players (n=11, 20±2 years) played two matches in conditions of moderate heat (MH) and high heat (HH) index. Core temperature (T(c) ) and physical performance were measured using a telemetric sensor and a global positioning system, respectively. The average ambient temperature and relative humidity were MH 34±1 °C and 38±2%; HH 36±0 °C and 61±1%. Peak T(c) in the MH match was 39.1±0.4 °C and in the HH match it was 39.6±0.3 °C. The total distance covered in the first and second halves was 4386±367 and 4227±292 m for the MH match and 4301±487 and 3761±358 m for the HH match. Players covered more distance (P<0.001) in the first half of the HH match than in the second half. In football matches played at high environmental temperature and humidity, the physical performance of the players may decrease due to high thermal stress.


Subject(s)
Adaptation, Physiological , Body Temperature Regulation/physiology , Environment , Hot Temperature/adverse effects , Soccer/physiology , Stress, Physiological , Adult , Analysis of Variance , Body Mass Index , Competitive Behavior/physiology , Confidence Intervals , Fatigue/etiology , Fever/complications , Humans , Male , Motor Activity/physiology , Oxygen Consumption/physiology
15.
Scand J Med Sci Sports ; 20 Suppl 2: 59-69, 2010 Oct.
Article in English | MEDLINE | ID: mdl-20840563

ABSTRACT

Hypohydration - if sufficiently severe - adversely affects athletic performance and poses a risk to health. Strength and power events are generally less affected than endurance events, but performance in team sports that involve repeated intense efforts will be impaired. Mild hypohydration is not harmful, but many athletes begin exercise already hypohydrated. Athletes are encouraged to begin exercise well hydrated and - where opportunities exist - to consume fluid during exercise to limit water and salt deficits. In high-intensity efforts, there is no need, and may be no opportunity, to drink during competition. Most team sports players do not drink enough to match sweat losses, but some drink too much and a few may develop hyponatremia because of excessive fluid intake. Athletes should assess their hydration status and develop a personalized hydration strategy that takes account of exercise, environment and individual needs. Pre-exercise hydration status can be assessed from urine markers. Short-term changes in hydration can be estimated from the change in body mass. Sweat salt losses can be determined by collection and analysis of sweat samples. An appropriate drinking strategy will take account of pre-exercise hydration status and of fluid, electrolyte and substrate needs before, during and after exercise.


Subject(s)
Dehydration/prevention & control , Drinking , Isometric Contraction/physiology , Muscle Strength/physiology , Resistance Training/methods , Electrolytes , Energy Metabolism , Fluid Therapy , Humans , Sweat , Water-Electrolyte Balance
16.
Br J Sports Med ; 44(7): 490-4, 2010 Jun.
Article in English | MEDLINE | ID: mdl-20484315

ABSTRACT

An overnight fast of 8-10 h is normal for most people. Fasting is characterised by a coordinated set of metabolic changes designed to spare carbohydrate and increase reliance on fat as a substrate for energy supply. As well as sparing the limited endogenous carbohydrate, and increased rate of gluconeogenesis from amino acids, glycerol and ketone bodies help maintain the supply of carbohydrate. Many individuals undergo periodic fasts for health, religious or cultural reasons. Ramadan fasting, involving 1 month of abstention from food and fluid intake during daylight hours, is practised by a large part of the world population. This period involves a shift in the pattern of intake from daytime to the hours of darkness. There seems to be little effect on overall daily dietary intake and only small metabolic effects, but there may be implications for both physical and cognitive function. The limited evidence suggests that effects of Ramadan-style fasting on exercise performance are generally small. This needs to be balanced, however, against the observation that small differences in performance are critical in determining the outcomes of sporting events. Studies involving challenging sporting events (prolonged sustained or intermittent high-intensity events, hot and humid environments) are needed. Increases in subjective sensations of fatigue may be the result of loss of sleep or disruption of normal sleep patterns. Modifications to the competition timetable may minimise or even eliminate any effect on performance in sport, but there may be negative effects on performance in some events.


Subject(s)
Athletic Performance/physiology , Eating/physiology , Fasting/physiology , Islam , Basal Metabolism/physiology , Dietary Carbohydrates/metabolism , Digestion/physiology , Energy Intake/physiology , Energy Metabolism/physiology , Exercise/physiology , Exercise Tolerance/physiology , Humans , Intestinal Absorption/physiology
17.
Br J Sports Med ; 44(7): 473-5, 2010 Jun.
Article in English | MEDLINE | ID: mdl-20460260

ABSTRACT

Most humans observe an overnight fast on a daily basis, and the human body copes well with short duration fasting. Periodic fasting is widely practised for cultural, religious or health reasons. Fasting may take many different forms. Prolonged restriction of food and fluid is harmful to health and performance, and it is often automatically assumed that intermittent fasting will lead to decrements in exercise performance. Athletes who choose to fast during training or competitions may therefore be at a disadvantage. The available evidence does not entirely support this view, but there is little or no information on the effects on elite athletes competing in challenging environments. Prolonged periods of training in the fasted state may not allow optimum adaptation of muscles and other tissues. Further research on a wide range of athletes with special nutrition needs is urgently required. In events where performance might be affected, other strategies to eliminate or minimise any effects must be sought.


Subject(s)
Exercise/physiology , Fasting/physiology , Islam , Sports/physiology , Humans
19.
J Am Coll Nutr ; 26(5 Suppl): 604S-612S, 2007 Oct.
Article in English | MEDLINE | ID: mdl-17921473

ABSTRACT

The performance of both physical and mental tasks can be adversely affected by heat and by dehydration. There are well-recognized effects of heat and hydration status on the cardiovascular and thermoregulatory systems that can account for the decreased performance and increased sensation of effort that are experienced in the heat. Provision of fluids of appropriate composition in appropriate amounts can prevent dehydration and can greatly reduce the adverse effects of heat stress. There is growing evidence that the effects of high ambient temperature and dehydration on exercise performance may be mediated by effects on the central nervous system. This seems to involve serotonergic and dopaminergic functions. Recent evidence suggests that the integrity of the blood brain barrier may be compromised by combined heat stress and dehydration, and this may play a role in limiting performance in the heat.


Subject(s)
Blood-Brain Barrier/physiology , Cognition/physiology , Dehydration/complications , Exercise/physiology , Heat Stress Disorders/complications , Body Temperature Regulation/physiology , Brain/physiology , Humans , Mental Health , Time Factors
20.
J Sports Sci ; 24(7): 741-8, 2006 Jul.
Article in English | MEDLINE | ID: mdl-16766502

ABSTRACT

The use of alcohol is often intimately associated with sport, and the association is particularly strong in football. As well as providing a source of energy, alcohol (ethanol) has metabolic, cardiovascular, thermoregulatory, and neuromuscular actions that may affect exercise performance. Its actions on the central nervous system, however, result in decrements in skill and behavioural changes that may have adverse effects on performance. There is also evidence of dose-dependent decrements in aerobic capacity. Although the mechanisms are not well understood, the aftermath of alcohol use (hangover) may also adversely affect performance for many hours after intoxication. Alcohol intoxication may adversely affect the player's dietary choices by displacing carbohydrate from the diet at a time when restoration of glycogen stores should be a priority.


Subject(s)
Alcoholic Intoxication/metabolism , Exercise/physiology , Soccer , Adult , Ethanol/metabolism , Female , Humans , Male , Middle Aged , Task Performance and Analysis , United Kingdom
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