RIS ID
114819
Abstract
Theincreasedparticipationofmasterathletes(i.e.,>40yearsold)inenduranceandultra-enduranceevents(>6hduration)overthepastfewdecadeshasbeenaccompaniedbyanimprovementintheirperformancesatamuchfasterratethantheiryoungercounterparts.Agingdoeshoweverresultinadecreaseinoverallenduranceperformance.Suchage-relateddeclinesinperformancedependuponthemodesoflocomotion,eventduration,andgenderoftheparticipant.Forexample,smallerage-relateddeclinesincyclingperformancethaninrunningandswimminghavebeendocumented.Therelativestabilityofgenderdifferencesobservedacrosstheagessuggeststhattheage-relateddeclinesinphysiologicalfunctiondidnotdifferbetweenmalesandfemales.Amongthemainphysiologicaldeterminantsofenduranceperformance,themaximaloxygenconsumption(VO2max)appearstobetheparameterthatismostalteredbyage.ExerciseeconomyandtheexerciseintensityatwhichahighfractionofVO2maxcanbesustained(i.e.,lactatethreshold),seemtodeclinetoalesserextentwithadvancingage.Theabilitytomaintainahighexercise-trainingstimuluswithadvancingageisemergingasthesinglemostimportantmeansoflimitingtherateofdeclineinenduranceperformance.Byconstantlyextendingthelimitsof(ultra)-endurance,masterathletesthereforerepresentanimportantinsightintotheabilityofhumanstomaintainphysicalperformanceandphysiologicalfunctionwithadvancingage.
Publication Details
Lepers, R. & Stapley, P. J. (2016). Master Athletes Are Extending the Limits of Human Endurance. Frontiers in Physiology, 7 613-1-613-8.