Skip to main content
Hauptrubriken
CME Facharzt-Training Webinare Zeitschriften Bücher e.Medpedia Podcast
Service
Jobbörse Info & Hilfe
Fachgebiete
Anästhesiologie Allgemeinmedizin Arbeitsmedizin Augenheilkunde Chirurgie Dermatologie Gynäkologie und Geburtshilfe HNO Innere Medizin Kardiologie Neurologie Onkologie und Hämatologie Orthopädie und Unfallchirurgie Pädiatrie Pathologie Psychiatrie Radiologie Rechtsmedizin Urologie Zahnmedizin
Themen
Klimawandel und Gesundheit Neues aus dem Markt COVID-19 Praxis und Beruf Seltene Erkrankungen GOÄ & EBM Panorama
Sammlungen
Kasuistiken Algorithmen & Infografiken Blickdiagnosen Arthropedia FlapFinder (für Dermatochirurgen) Videos Kongressberichterstattung Medizin für Apothekerinnen und Apotheker Für Ärztinnen und Ärzte in Weiterbildung Für Medizinstudierende
Erweiterte Suche
Anmelden
nach oben
European Journal of Applied Physiology
Erschienen in: European Journal of Applied Physiology 9/2020

26.06.2020 | Original Article

5 km front crawl in pool and open water swimming: breath-by-breath energy expenditure and kinematic analysis

verfasst von: Rodrigo Zacca, Vânia Neves, Tiago da Silva Oliveira, Susana Soares, Luís Manuel Pinto Lopes Rama, Flávio Antônio de Souza Castro, João Paulo Vilas-Boas, David B. Pyne, Ricardo J. Fernandes

Erschienen in: European Journal of Applied Physiology | Ausgabe 9/2020

Einloggen, um Zugang zu erhalten

Abstract

Purpose

Breath-by-breath energy expenditure during open water swimming has not yet been explored in an ecological environment. This study aimed to investigate and compare energetics and kinematics of 5 km swimming, in both swimming pool and open water conditions.

Methods

Through four independent studies, oxygen uptake (\(\dot{V}\text{O}\)2) kinetics, heart rate (HR), blood lactate concentration ([La]) and glucose level (BGL), metabolic power (\(\dot{E}\)), energy cost (C) and kinematics were assessed during 5 km front crawl trials in a swimming pool and open water conditions. A total of 38 competitive open water swimmers aged 16–27 years volunteered for this four part investigation: Study A (pool, ten females, 11 males), Study B (pool, four females, six males), Study C (pool case study, one female) and Study D (open water, three females, four males).

Results

In the swimming pool, swimmers started with an above average swimming speed (v), losing efficiency along the 5 km, despite apparent homeostasis for [La], BGL, \(\dot{V}\text{O}\)2, \(\dot{E}\) and C. In open water, swimmers started the 5 km with a below average v, increasing the stroke rate (SR) in the last 1000 m. In open water, \(\dot{V}\text{O}\)2 kinetics parameters, HR, [La], BGL, respiratory exchange ratio and C were affected by the v and SR fluctuations along the 5 km.

Conclusions

Small fluctuations were observed for energetic variables in both conditions, but changes in C were lower in swimming pool than in open water. Coaches should adjust the training plan accordingly to the specificity of open water swimming.
Literatur
Abbiss CR, Laursen PB (2008) Describing and understanding pacing strategies during athletic competition. Sports Med 38(3):239–252PubMed
Baldassarre R, Bonifazi M, Zamparo P, Piacentini MF (2017) Characteristics and challenges of open-water swimming performance: a review. Int J Sports Physiol Perform 12(10):1275–1284PubMed
Baldassarre R, Pennacchi M, La Torre A, Bonifazi M, Piacentini MF (2019) Do the fastest open-water swimmers have a higher speed in middle- and long-distance pool swimming events? J Funct Morphol Kinesiol 4(1):15
Barbosa TM, Fernandes RJ, Keskinen KL, Vilas-Boas JP (2008) The influence of stroke mechanics into energy cost of elite swimmers. Eur J Appl Physiol 103(2):139–149PubMed
Brooks GA (2012) Bioenergetics of exercising humans. Compr Physiol 2(1):537–562PubMed
Brooks GA (2018) The science and translation of lactate shuttle theory. Cell Metab 27(4):757–785PubMed
Capelli C, Pendergast DR, Termin B (1998) Energetics of swimming at maximal speeds in humans. Eur J Appl Physiol Occup Physiol 78(3):385–393PubMed
Cermak NM, van Loon LJC (2013) The use of carbohydrates during exercise as an ergogenic aid. Sports Med 43:1139–1155PubMed
Chatard JC, Millet G (1996) Effects of wetsuit use in swimming events. Practical recommendations. Sports Med 22(2):70–75PubMed
Chatard JC, Senegas X, Selles M, Dreanot P, Geyssant A (1995) Wet suit effect: a comparison between competitive swimmers and triathletes. Med Sci Sports Exerc 27(4):580–586PubMed
Costill DL, Kovaleski J, Porter D, Kirwan J, Fielding R, King D (1985) Energy expenditure during front crawl swimming: predicting success in middle-distance events. Int J Sports Med 06(5):266–270
de Jesus K, Guidetti L, de Jesus K, Vilas-Boas JP, Baldari C, Fernandes RJ (2014) Which are the best VO2 sampling intervals to characterize low to severe swimming intensities? Int J Sports Med 35(12):1030–1036PubMed
de Jesus K, Sousa A, de Jesus K, Ribeiro J, Machado L, Rodríguez F, Keskinen K, Vilas-Boas JP, Fernandes RJ (2015) The effects of intensity on O2 kinetics during incremental free swimming. Appl Physiol Nutr Metab 40(9):918–923PubMed
di Prampero PE (1986) The energy cost of human locomotion on land and in water. Int J Sports Med 7(2):55–72PubMed
Ferguson CJ (2009) An effect size primer: a guide for clinicians and researchers. Prof Psychol Res Pr 40(5):532–538
Fernandes RJ, Cardoso CS, Soares SM, Ascensao A, Colaco PJ, Vilas-Boas JP (2003) Time limit and VO2 slow component at intensities corresponding to VO2max in swimmers. Int J Sports Med 24(8):576–581PubMed
Ferreira S, Carvalho D, Monteiro AS, Abraldes JA, Vilas-Boas JP, Toubekis A, Fernandes R (2019) Physiological and biomechanical evaluation of a training macrocycle in children swimmers. Sports (Basel) 7(3):57
Figueiredo P, Zamparo P, Sousa A, Vilas-Boas JP, Fernandes RJ (2011) An energy balance of the 200 m front crawl race. Eur J Appl Physiol 111(5):767–777PubMed
Foster C, Schrager M, Snyder AC, Thompson NN (1994) Pacing strategy and athletic performance. Sports Med (Auckland, NZ) 17(2):77–85
Gaesser GA, Poole DC (1996) The slow component of oxygen uptake kinetics in humans. Exerc Sport Sci Rev 24:35–71PubMed
Gastin PB (2001) Energy system interaction and relative contribution during maximal exercise. Sports Med 31(10):725–741PubMed
Gay A, López-Contreras G, Fernandes RJ, Arellano R (2020) Is swimmers’ performance influenced by wetsuit use? Int J Sports Physiol Perform 15(1):46–51
Gløersen Ø, Gilgien M, Dysthe DK, Malthe-Sørenssen A, Losnegard T (2020) Oxygen demand, uptake, and deficits in elite cross-country skiers during a 15-km race. Med Sci Sports Exerc 52(4):983–992PubMed
Grassi B, Poole DC, Richardson RS, Knight DR, Erickson BK, Wagner PD (1996) Muscle O2 uptake kinetics in humans: implications for metabolic control. J Appl Physiol 80(3):988–998PubMed
Hellard P, Scordia C, Avalos M, Mujika I, Pyne DB (2017) Modelling of optimal training load patterns during the 11 weeks preceding major competition in elite swimmers. Appl Physiol Nutr Metab 42(10):1106–1117PubMed
Hill AV, Lupton H (1922) The oxygen consumption during running—proceedings of the physiological society. J Physiol 56:32–33
Jeukendrup AE, Raben A, Gijsen A, Stegen JH, Brouns F, Saris WH, Wagenmakers AJ (1999) Glucose kinetics during prolonged exercise in highly trained human subjects: effect of glucose ingestion. J Physiol 515(Pt 2):579–589PubMedPubMedCentral
Jones AM, Burnley M (2009) Oxygen uptake kinetics: an underappreciated determinant of exercise performance. Int J Sports Physiol Perform 4(4):524–532PubMed
Koschate J, Gerlich L, Wirtz V, Thieschäfer L, Drescher U, Hoffmann U (2019) Cardiorespiratory kinetics: comparisons between athletes with different training habits. Eur J Appl Physiol 119(8):1875–1883PubMed
Liljestrand G, Lindhard J (1920) Über das Minutenvolumen des Herzens beim Schwimmen. Skandinavisches Archiv Für Physiologie 39:64–77
Liljestrand G, Stenström N (1920) Studien über die Physiologie des Schwimmens. Skandinavisches Archiv Für Physiologie 39:1–63
Lipinska P, Allen SV, Hopkins WG (2016) Relationships between pacing parameters and performance of elite male 1500-m swimmers. Int J Sports Physiol Perform 11(2):159-163PubMed
Ma S, Rossiter HB, Barstow TJ, Casaburi R, Porszasz J (2010) Clarifying the equation for modeling of VO2 kinetics above the lactate threshold. J Appl Physiol (1985) 109(4):1283–1284
McGibbon KE, Pyne DB, Shephard ME, Thompson KG (2018) Pacing in swimming: a systematic review. Sports Med 48(7):1621–1633PubMed
Pelarigo JG, Greco CC, Denadai BS, Fernandes RJ, Vilas-Boas JP, Pendergast DR (2016) Do 5% changes around maximal lactate steady state lead to swimming biophysical modifications? Hum Mov Sci 49:258–266PubMed
Pelarigo JG, Machado L, Fernandes RJ, Greco CC, Vilas-Boas JP (2017) Oxygen uptake kinetics and energy system's contribution around maximal lactate steady state swimming intensity. PLoS ONE 12(2): e0167263PubMedPubMedCentral
Pla R, Aubry A, Resseguier N, Merino M, Toussaint JF, Hellard P (2019) Training organization, physiological profile and heart rate variability changes in an open-water world champion. Int J Sports Med 40(8):519–527PubMed
Ribeiro J, Figueiredo P, Sousa A, Monteiro J, Pelarigo J, Vilas-Boas JP, Toussaint HM, Fernandes RJ (2015) VO2 kinetics and metabolic contributions during full and upper body extreme swimming intensity. Eur J Appl Physiol 115(5):1117–1124PubMed
Ribeiro J, Figueiredo P, Guidetti L, Alves F, Toussaint H, Vilas-Boas JP, Baldari C, Fernandes RJ (2016) AquaTrainer® Snorkel does not increase hydrodynamic drag but influences turning time. Int J Sports Med 37(4):324–328
Rodriguez L, Veiga S (2018) Effect of the pacing strategies on the open-water 10-km world swimming championships performances. Int J Sports Physiol Perform 13(6):694–700PubMed
Sengoku Y, Nakamura K, Takeda T, Nabekura Y, Tsubakimoto S (2011) Glucose response after a ten-week training in swimming. Int J Sports Med 32(11):835–838PubMed
Sousa A, Figueiredo P, Zamparo P, Pyne DB, Vilas-Boas JP, Fernandes RJ (2015) Exercise modality effect on bioenergetical performance at VO2max intensity. Med Sci Sports Exerc 47(8):1705–1713PubMed
Suh SH, Paik IY, Jacobs K (2007) Regulation of blood glucose homeostasis during prolonged exercise. Mol Cells 23(3):272–279PubMed
Toussaint HM, Bruinink L, Coster R, De Looze M, Van Rossem B, Van Veenen R, De Groot G (1989) Effect of a triathlon wet suit on drag during swimming. Med Sci Sports Exerc 21(3):325–328PubMed
Ulsamer S, Rust CA, Rosemann T, Lepers R, Knechtle B (2014) Swimming performances in long distance open-water events with and without wetsuit. BMC Sports Sci Med Rehabil 6:20PubMedPubMedCentral
van Loon LJC, Greenhaff PL, Constantin-Teodosiu D, Saris WHM, Wagenmakers AJM (2001) The effects of increasing exercise intensity on muscle fuel utilisation in humans. J Physiol 536(Pt 1): 295–304PubMedPubMedCentral
Vanheest JL, Mahoney CE, Herr L (2004) Characteristics of elite open-water swimmers. J Strength Cond Res 18(2):302–305PubMed
Veiga S, Rodriguez L, González-Frutos P, Navandar A (2019) Race strategies of open water swimmers in the 5-km, 10-km, and 25-km races of the 2017 FINA World Swimming Championships. Front Psychol 10:654PubMedPubMedCentral
Vogt P, Rüst CA, Rosemann T, Lepers R, Knechtle B (2013) Analysis of 10 km swimming performance of elite male and female open-water swimmers. Springerplus 2:603–603PubMedPubMedCentral
Xu F, Rhodes EC (1999) Oxygen uptake kinetics during exercise. Sports Med 27(5):313–327PubMed
Zacca R, Azevedo R, Figueiredo P, Vilas-Boas JP, Castro FAS, Pyne DB, Fernandes RJ (2019b) VO2FITTING: a free and open-source software for modelling oxygen uptake kinetics in swimming and other exercise modalities. Sports (Basel) 7(2):31
Zacca R, Toubekis A, Freitas L, Silva AF, Azevedo R, Vilas-Boas JP, Pyne DP, Castro FAS, Fernandes RJ (2019a) Effects of detraining in age-group swimmers performance, energetics and kinematics. J Sports Sci 37(13):1490–1498PubMed
Zamparo P, Bonifazi M, Faina M, Milan A, Sardella F, Schena F, Capelli C (2005a) Energy cost of swimming of elite long-distance swimmers. Eur J Appl Physiol 94(5-6):697–704PubMed
Zamparo P, Pendergast DR, Mollendorf J, Termin A, Minetti AE (2005b) An energy balance of front crawl. Eur J Appl Physiol 94(1-2):134–144PubMed
Zamparo P, Capelli C, Pendergast D (2011) Energetics of swimming: a historical perspective. Eur J Appl Physiol 111(3):367–378PubMed
Zamparo P, Cortesi M, Gatta G (2020) The energy cost of swimming and its determinants. Eur J Appl Physiol 120(1):41–66PubMed
Zingg MA, Rust CA, Rosemann T, Lepers R, Knechtle B (2014a) Analysis of swimming performance in FINA World Cup long-distance open water races. Extrem Physiol Med 3(1):2PubMedPubMedCentral
Zingg MA, Rüst CA, Rosemann T, Lepers R, Knechtle B (2014b) Analysis of sex differences in open-water ultra-distance swimming performances in the FINA World Cup races in 5 km, 10 km and 25 km from 2000 to 2012. BMC Sports Sci Med Rehabil 6:7–7PubMedPubMedCentral
Metadaten
Titel
5 km front crawl in pool and open water swimming: breath-by-breath energy expenditure and kinematic analysis
verfasst von
Rodrigo Zacca
Vânia Neves
Tiago da Silva Oliveira
Susana Soares
Luís Manuel Pinto Lopes Rama
Flávio Antônio de Souza Castro
João Paulo Vilas-Boas
David B. Pyne
Ricardo J. Fernandes
Publikationsdatum
26.06.2020
Verlag
Springer Berlin Heidelberg
Erschienen in
European Journal of Applied Physiology / Ausgabe 9/2020
Print ISSN: 1439-6319
Elektronische ISSN: 1439-6327
DOI
https://doi.org/10.1007/s00421-020-04420-7

Weitere Artikel der Ausgabe 9/2020

European Journal of Applied Physiology 9/2020 Zur Ausgabe

Original Article

Long-term athletic training does not alter age-associated reductions of left-ventricular mid-diastolic lengthening or expansion at rest

Original Article

A brief bout of exercise in hypoxia reduces ventricular filling rate and stroke volume response during muscle metaboreflex activation

Original Article

Custom foot orthoses improve performance, but do not modify the biomechanical manifestation of fatigue, during repeated treadmill sprints

Reply

Response to Letter to the Editor: Are five 60-min sessions of isothermic heat acclimation sufficient to elicit beneficial physiological adaptations?

Original Article

Association between muscle aerobic capacity and whole-body peak oxygen uptake

Original Article

Effect of intensive prior exercise on muscle fiber activation, oxygen uptake kinetics, and oxygen uptake plateau occurrence

Neu im Fachgebiet Arbeitsmedizin

Elterliches Belastungserleben, Unaufmerksamkeits‑/Hyperaktivitätssymptome und elternberichtete ADHS bei Kindern und Jugendlichen: Ergebnisse aus der KiGGS-Studie

Open Access ADHS Leitthema

Die Aufmerksamkeitsdefizit‑/Hyperaktivitätsstörung (ADHS) ist eine der häufigsten psychischen Störungen im Kindes- und Jugendalter [ 1 ]. In Deutschland beträgt die Prävalenz einer elternberichteten ADHS-Diagnose bei Kindern und Jugendlichen 4,4 % …

Substanzkonsum und Nutzung von sozialen Medien, Computerspielen und Glücksspielen unter Auszubildenden an beruflichen Schulen

Open Access Leitthema

Die Begrenzung von Schäden durch Substanzkonsum und andere abhängige Verhaltensweisen von Jugendlichen und jungen Erwachsenen ist ein wichtiges Anliegen der öffentlichen Gesundheit. Der Übergang von der Adoleszenz zum jungen Erwachsenenalter ist …

Berufsbelastung und Stressbewältigung von weiblichen und männlichen Auszubildenden

Leitthema

In der Öffentlichkeit wird die berufliche Ausbildung oftmals unter ökonomischen Gesichtspunkten diskutiert: Mit den geburtenstarken Jahrgängen gehen erfahrene Fachkräfte in Rente und von nachfolgenden Generationen rücken zu wenige Arbeitskräfte …

Rauschtrinken in der frühen Adoleszenz

COVID-19 Leitthema

Alkohol ist in Deutschland die mit Abstand am häufigsten konsumierte psychoaktive Substanz. Mehr als 2 Drittel aller Erwachsenen im Alter von 18 bis 64 Jahren (70,5 %) hat 2021 in den letzten 30 Tagen Alkohol konsumiert [ 1 ]. Von diesen …