Despite the inevitable preoccupation with coronavirus, good old skin infections courtesy of pathogens such as MRSA are still all too common among athletes. PP explains why, and how the correct hygiene measures can ensure athlete health – especially in team and close-contact sports MORE
Sleep your way to better performance
Nobody feels good after a bad night’s sleep. However, does sleep loss affect physical performance? The early research suggested
that while it was detrimental to cognitive function, sleep loss didn’t really have a significant effect on physical performance. However,
more recent research has indicated that sleep loss is detrimental to endurance performance – for example, by increasing the
perceived exertion to maintain a given workload. Now a new French study has looked at the combined effects of sleep
deprivation on both endurance performance and cognitive function.
In the study, twelve fit males underwent two testing sessions. In one of these they had a normal night’s sleep and in the other, they were deprived of sleep (ie very tired!). On the first day, the subjects performed baseline cognitive and neuromuscular testing (testing of the function and activity of the muscles and the nerves that control them). After one night’s sleep deprivation or normal sleep, the subjects repeated the day 1 testing procedure and then performed a 40-minute sub-maximal cycling task and a much higher intensity cycling test to exhaustion.
Neuromuscular and cognitive functions were evaluated during both the cycling protocol and at task failure. The whole procedure was then repeated with those subjects who had been sleep-deprived having a normal night’s sleep and vice-versa. The researchers then looked at the data to see a) what effects the sleep deprivation had on physical and mental performance during the cycling task and b) whether the neurological results provided any insight into the mechanisms causing fatigue.
Unsurprisingly, perhaps, the sleep deprivation wasn’t great for cycling performance; the rate of perceived exertion during the sub-maximal ride was significantly higher and the time to exhaustion on the more intense cycling session was less – the cyclists managed an average of 20.6 minutes to exhaustion after a normal night’s sleep but only 18.9 minutes when they were sleep deprived. Also, some measures of muscle function showed a drop of between 5 and 7% in performance and response – however, there were no significant changes in neuromuscular function. One interesting effect, however, was that cycling seemed to help some measures of cognitive function when the cyclists were in a sleep-deprived state. For example, on the sleep deprived days, the cyclists’ reaction times were 8% faster after the cycling task than they were before the cycling. Likewise, they were better at completing cognitive tasks in a sleep-deprived state and after the cycling tests had taken place than before.
The first conclusion that can be drawn from this study is that it provides further evidence that sleep deprivation is harmful to endurance performance such as cycling (although the similar neurological test results didn’t help the researchers identify the precise mechanisms behind the fatigue). For those who are competing/racing, a severe lack of sleep could seriously harm your ability to keep on the pace. And even if your sport is performed at a more leisurely pace, it’ll feel like harder work at your normal training pace/riding speeds. Also of note is that if you have had a really bad night’s sleep, a blast on the bike could help you feel and perform better mentally afterwards. Overall,
though, if you have a big day on the bike looming, it’s almost certainly worth trying to get the best night’s sleep you can beforehand!
Med Sci Sports Exerc. 2013 Jun 10.