A review of caffeine’s effects on cognitive, physical and occupational performance

•Caffeine in beverages and foods blocks central and peripheral adenosine receptors.•Low (40mg, 0.5mgkg−1) to moderate (300mg, 4mgkg−1) doses improve cognition.•Doses >200mg (∼3mgkg−1) are ergogenic across a spectrum of exercise modalities.•Caffeine is effective to offset physical and cognitive de...

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Veröffentlicht in:	Neuroscience and biobehavioral reviews 2016-12, Vol.71 (C), p.294-312
Hauptverfasser:	McLellan, Tom M., Caldwell, John A., Lieberman, Harris R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Adenosine receptors Attention Caffeine Central Nervous System Stimulants Cognition Energy drinks High-intensity sprints Humans Muscle strength and power Reaction Time Restricted sleep Sleep Sustained wakefulness Time-to-exhaustion Time-trial Vigilance Wakefulness
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description	•Caffeine in beverages and foods blocks central and peripheral adenosine receptors.•Low (40mg, 0.5mgkg−1) to moderate (300mg, 4mgkg−1) doses improve cognition.•Doses >200mg (∼3mgkg−1) are ergogenic across a spectrum of exercise modalities.•Caffeine is effective to offset physical and cognitive degradation with sleep loss. Caffeine is consumed by over 80% of U.S. adults. This review examines the effects caffeine has on cognitive and physical function, since most real-world activities require complex decision making, motor processing and movement. Caffeine exerts its effects by blocking adenosine receptors. Following low (∼40mg or ∼0.5mgkg−1) to moderate (∼300mg or 4mgkg−1) caffeine doses, alertness, vigilance, attention, reaction time and attention improve, but less consistent effects are observed on memory and higher-order executive function, such as judgment and decision making. Effects on physical performance on a vast array of physical performance metrics such as time-to-exhaustion, time-trial, muscle strength and endurance, and high-intensity sprints typical of team sports are evident following doses that exceed about 200mg (∼3mgkg−1). Many occupations, including military, first responders, transport workers and factory shift workers, require optimal physical and cognitive function to ensure success, workplace safety and productivity. In these circumstances, that may include restricted sleep, repeated administration of caffeine is an effective strategy to maintain physical and cognitive capabilities.
doi_str_mv	10.1016/j.neubiorev.2016.09.001
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Caffeine is consumed by over 80% of U.S. adults. This review examines the effects caffeine has on cognitive and physical function, since most real-world activities require complex decision making, motor processing and movement. Caffeine exerts its effects by blocking adenosine receptors. Following low (∼40mg or ∼0.5mgkg−1) to moderate (∼300mg or 4mgkg−1) caffeine doses, alertness, vigilance, attention, reaction time and attention improve, but less consistent effects are observed on memory and higher-order executive function, such as judgment and decision making. Effects on physical performance on a vast array of physical performance metrics such as time-to-exhaustion, time-trial, muscle strength and endurance, and high-intensity sprints typical of team sports are evident following doses that exceed about 200mg (∼3mgkg−1). Many occupations, including military, first responders, transport workers and factory shift workers, require optimal physical and cognitive function to ensure success, workplace safety and productivity. 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Caffeine is consumed by over 80% of U.S. adults. This review examines the effects caffeine has on cognitive and physical function, since most real-world activities require complex decision making, motor processing and movement. Caffeine exerts its effects by blocking adenosine receptors. Following low (∼40mg or ∼0.5mgkg−1) to moderate (∼300mg or 4mgkg−1) caffeine doses, alertness, vigilance, attention, reaction time and attention improve, but less consistent effects are observed on memory and higher-order executive function, such as judgment and decision making. Effects on physical performance on a vast array of physical performance metrics such as time-to-exhaustion, time-trial, muscle strength and endurance, and high-intensity sprints typical of team sports are evident following doses that exceed about 200mg (∼3mgkg−1). Many occupations, including military, first responders, transport workers and factory shift workers, require optimal physical and cognitive function to ensure success, workplace safety and productivity. 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subjects	Adenosine receptors Attention Caffeine Central Nervous System Stimulants Cognition Energy drinks High-intensity sprints Humans Muscle strength and power Reaction Time Restricted sleep Sleep Sustained wakefulness Time-to-exhaustion Time-trial Vigilance Wakefulness
title	A review of caffeine’s effects on cognitive, physical and occupational performance
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