TY - JOUR
T1 - The potential of blood flow restriction exercise to overcome jetlag
T2 - Important implications for Tokyo 2020
AU - Kotopoulea Nikolaidi, Maria
AU - Muniz-Pardos, Borja
AU - Giannopoulou, Ifigeneia
AU - Guppy, Fergus M.
AU - Fossati, Chiara
AU - Janse Van Rensburg, Dina C.
AU - Constantinou, Demitri
AU - Pigozzi, Fabio
AU - Pitsiladis, Yannis
N1 - Funding Information:
Conflicts of interest.—Maria Kotopoulea Nikolaidi received a research grant from KAATSU Global (CA, USA). Authors’ contributions.—Maria Kotopoulea Nikolaidi, Borja Muniz-Pardos and Yannis Pitsiladis have given substantial contributions to study conception and manuscript draft; Ifigeneia Giannopoulou, Fergus M. Guppy, Chiara Fossati , Dina C. Janse Van Rensburg, Demitri Constantinou and Fabio Pigozzi contributed to the manuscript final draft. All authors read and approved the final version of the manuscript. History.—Manuscript accepted: July 23, 2021. - Manuscript received: July 17, 2021.
Publisher Copyright:
© 2021 EDIZIONI MINERVA MEDICA
PY - 2021/9
Y1 - 2021/9
N2 - The decision taken by the International Olympic Committee (IOC) to host the Olympic Games this summer brings new challenges for event organizers and athletes. One such measure taken by the IOC is to mandate that athletes may not enter the Olympic Village more than five days before competing at the Games in order to prevent the spread of COVID-19. As a result, athletes from around the globe that are unable to make alternative plans will need to travel to Tokyo and acclimatize within only 5 days before their event. Of particular concern are the adverse health and performance effects elicited by flight dysrhythmia, also known as jetlag, on those athletes travelling to the Olympic Games across multiple times zones. Blood flow restriction (BFR) is a safe exercise mode that can potentially diminish the impact of jetlag on performance through its numerous advantageous physiological adaptations that overlap with those of other jetlag mitigation strategies. Experimental data are required to confirm this intriguing possibility. The present commentary aims to encourage more research into the effects of BFR training in conjunction with other strategies to overcome the effects of jetlag prior to, during and after a long-haul flight on the subsequent performance of elite athletes, particularly during these difficult times of the COVID-19 pandemic.
AB - The decision taken by the International Olympic Committee (IOC) to host the Olympic Games this summer brings new challenges for event organizers and athletes. One such measure taken by the IOC is to mandate that athletes may not enter the Olympic Village more than five days before competing at the Games in order to prevent the spread of COVID-19. As a result, athletes from around the globe that are unable to make alternative plans will need to travel to Tokyo and acclimatize within only 5 days before their event. Of particular concern are the adverse health and performance effects elicited by flight dysrhythmia, also known as jetlag, on those athletes travelling to the Olympic Games across multiple times zones. Blood flow restriction (BFR) is a safe exercise mode that can potentially diminish the impact of jetlag on performance through its numerous advantageous physiological adaptations that overlap with those of other jetlag mitigation strategies. Experimental data are required to confirm this intriguing possibility. The present commentary aims to encourage more research into the effects of BFR training in conjunction with other strategies to overcome the effects of jetlag prior to, during and after a long-haul flight on the subsequent performance of elite athletes, particularly during these difficult times of the COVID-19 pandemic.
KW - Blood circulation
KW - Jet lag syndrome
KW - Sports
UR - http://www.scopus.com/inward/record.url?scp=85120378517&partnerID=8YFLogxK
U2 - 10.23736/S0025-7826.21.03993-4
DO - 10.23736/S0025-7826.21.03993-4
M3 - Article
AN - SCOPUS:85120378517
SN - 0025-7826
VL - 74
SP - 435
EP - 440
JO - Medicina dello Sport
JF - Medicina dello Sport
IS - 3
ER -