Nicotine effects on exercise performance and physiological responses in nicotine‐naïve individuals: a systematic review

Johnston, Robert; Doma, Kenji; Crowe, Melissa

doi:10.1111/cpf.12443

Cited by 23 publications

(16 citation statements)

References 62 publications

(113 reference statements)

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“…Diminished resistance to fatigue in smokers was demonstrated using effort-independent techniques, such as electrically evoked muscle contractions (Wüst et al, 2008c) and CO inhalation (Morse et al, 2008). Interestingly, however, nicotine may also have ergogenic effects through augmented release of adrenaline and enhanced performance of fast-twitch muscle fibers (Johnston et al, 2018). Thus, any potential increase in muscle fatigability in smokers might be compensated by the central excitatory actions of nicotine leading to preserved time to task failure compared to equally sedentary controls (Orlander et al, 1979; Larsson and Orlander, 1984).…”

Section: Peripheral Muscular Abnormalitiesmentioning

confidence: 99%

“…The present review aims to succinctly summarize the recent advances in our knowledge on the effects of smoking on the muscle-lung-heart axis under the stress of exercise. Despite the fact that there is an acute-on-chronic effect of current smoking on these interactions, we will refrain from discussing the large body of clinical and experimental evidence showing the deleterious effects of acute tobacco smoking in nicotine-naive subjects (Johnston et al, 2018). Thus, we will focus on the chronic consequences of smoking on exercise intolerance from an integrative physiological perspective, giving special attention to the ancillary effects of aging, and physical inactivity.…”

Section: Introductionmentioning

confidence: 99%

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Cardiopulmonary and Muscular Interactions: Potential Implications for Exercise (In)tolerance in Symptomatic Smokers Without Chronic Obstructive Pulmonary Disease

et al. 2019

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Smoking and physical inactivity are important preventable causes of disability and early death worldwide. Reduced exercise tolerance has been described in smokers, even in those who do not fulfill the extant physiological criteria for chronic obstructive pulmonary disease (COPD) and are not particularly sedentary. In this context, it is widely accepted that exercise capacity depends on complex cardio-pulmonary interactions which support oxygen (O 2 ) delivery to muscle mitochondria. Although peripheral muscular factors, O 2 transport disturbances (including the effects of increased carboxyhemoglobin) and autonomic nervous system unbalance have been emphasized, other derangements have been more recently described, including early microscopic emphysema, pulmonary microvascular disease, ventilatory and gas exchange inefficiency, and left ventricular diastolic dysfunction. Using an integrative physiological approach, the present review summarizes the recent advances in knowledge on the effects of smoking on the lung-heart-muscle axis under the stress of exercise. Special attention is given to the mechanisms connecting physiological abnormalities such as early cardio-pulmonary derangements, inadequate oxygen delivery and utilization, and generalized bioenergetic disturbances at the muscular level with the negative sensations (sense of heightened muscle effort and breathlessness) that may decrease the tolerance of smokers to physical exercise. A deeper understanding of the systemic effects of smoking in subjects who did not (yet) show evidences of COPD and ischemic heart disease – two devastating smoking related diseases – might prove instrumental to fight their ever-growing burden.

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Section: Peripheral Muscular Abnormalitiesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Cardiopulmonary and Muscular Interactions: Potential Implications for Exercise (In)tolerance in Symptomatic Smokers Without Chronic Obstructive Pulmonary Disease

et al. 2019

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“…Yet what is the evidence base that might support or oppose the use of nicotine in the athletic arena? There have been reviews published that have included sub-sections on nicotine and human performance [ 49 ], been focussed on the cardiovascular response to smokeless tobacco (ST [ 11 ]) and physiological exercise responses to tobacco smoking [ 29 ], focussed on nicotine-naïve individuals [ 33 ] or on attention and cognition as outcome measures [ 25 ]. No attempt has been made to review nicotine’s potential for influencing physical performance that would be of interest to the sporting community.…”

Section: Introductionmentioning

confidence: 99%

Nicotine: Sporting Friend or Foe? A Review of Athlete Use, Performance Consequences and Other Considerations

Mündel

2017

Sports Med

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Nicotine use amongst athletes is high and increasing, especially in team sports. This narrative review examines the rationale behind its use and evidence of its effect on physical performance, and considers important factors that should determine future research efforts. To date, ten studies have assessed muscular strength and power, sub- or maximal endurance and high-intensity exercise when nicotine (medication) or smokeless tobacco was used as an intervention. Two studies observed an ergogenic effect, one an ergolytic with the remaining seven reporting no change. These studies have notable limitations and confounding factors that include participant tolerance to nicotine, interindividual responses, the nicotine delivery system used and failure to adhere to rigorous experimental/scientific design. Further research is encouraged to address these limitations and determine the extent to which anti-doping and governing bodies should consider promoting, coordinating and monitoring any effort against nicotine and nicotine-containing substances in sports.

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“…Much of the human literature is therefore confounded by conducting research in smokers who had abstained from smoking, making the interpretation of any net effects of nicotine difficult to disentangle from alleviation of decrements due to being in a state of a withdrawal. However, whilst there is plentiful evidence of nicotine exerting cardiovascular effects potentially relevant to improved physical performance in nicotine-naïve consumers [ 228 ], this evidence is not matched by any persuasive evidence of actual performance improvements [ 228 , 229 ]. The story with regard to brain function in a non-sporting context is better.…”

Section: Alkaloidsmentioning

confidence: 99%

Phytochemicals for Improving Aspects of Cognitive Function and Psychological State Potentially Relevant to Sports Performance

Kennedy

2019

Sports Med

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Subjective alertness and optimal cognitive function, including in terms of attention, spatial/working memory and executive function, are intrinsic to peak performance in many sports. Consumption of a number of plant-derived ‘secondary metabolite’ phytochemicals can modulate these psychological parameters, although there is a paucity of evidence collected in a sporting context. The structural groups into which these phytochemicals fall—phenolics, terpenes and alkaloids—vary in terms of the ecological roles they play for the plant, their toxicity and the extent to which they exert direct effects on brain function. The phenolics, including polyphenols, play protective roles in the plant, and represent a natural, benign component of the human diet. Increased consumption has been shown to improve cardiovascular function and is associated with long-term brain health. However, whilst short-term supplementation with polyphenols has been shown to consistently modulate cerebral blood-flow parameters, evidence of direct effects on cognitive function and alertness/arousal is currently comparatively weak. Terpenes play both attractant and deterrent roles in the plant, and typically occur less frequently in the diet. Single doses of volatile monoterpenes derived from edible herbs such as sage ( Salvia officinalis/lavandulaefolia ) and peppermint ( Mentha piperita ), diterpene-rich Ginkgo biloba extracts and triterpene-containing extracts from plants such as ginseng ( Panax ginseng/quinquefolius ) and Bacopa monnieri have all been shown to enhance relevant aspects of cognitive function and alertness. The alkaloids play toxic defensive roles in the plant, including via interference with herbivore brain function. Whilst most alkaloids are inappropriate in a sporting context due to toxicity and legal status, evidence suggests that single doses of nicotine and caffeine may be able to enhance relevant aspects of cognitive function and/or alertness. However, their benefits may be confounded by habituation and withdrawal effects in the longer term. The efficacy of volatile terpenes, triterpene-rich extracts and products combining low doses of caffeine with other phytochemicals deserves more research attention.

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Nicotine effects on exercise performance and physiological responses in nicotine‐naïve individuals: a systematic review

Cited by 23 publications

References 62 publications

Cardiopulmonary and Muscular Interactions: Potential Implications for Exercise (In)tolerance in Symptomatic Smokers Without Chronic Obstructive Pulmonary Disease

Cardiopulmonary and Muscular Interactions: Potential Implications for Exercise (In)tolerance in Symptomatic Smokers Without Chronic Obstructive Pulmonary Disease

Nicotine: Sporting Friend or Foe? A Review of Athlete Use, Performance Consequences and Other Considerations

Phytochemicals for Improving Aspects of Cognitive Function and Psychological State Potentially Relevant to Sports Performance

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