Oxigenación en músculos respiratorios y locomotores durante el ejercicio máximo en dos corredores de maratón
DOI:
https://doi.org/10.59856/arch.soc.chil.med.deporte.v65i1.11Keywords:
Ejercicio, oxigenación muscular, respiraci´´on, trabajo respiratorioAbstract
A high work of breathing (WOB) associated with pulmonary hyperventilation during physical exercise, may limit sports performance in long-distance runners (e.g. marathon). The assessment of changes in WOB during maximal oxygen consumption test (V̇O2-máx.) allows knowing the intensity of exercise at which the higher WOB limits the delivery of nutrients and oxygen in muscles involved during locomotion. The non-invasive assessment of muscle oxygenation (SmO2) by the interpretation of wavelengths of near-infrared range (Near-Infrared Spectroscopy, NIRS) is a useful and new method to quantify muscle work, used at intercostal muscles (SmO2-m. intercostales) to the WOB, and at locomotor muscles (SmO2-m.vastus laterallis) to external load. Thus, as the intensity of exercise increases, a higher decrease in SmO2 is showed. However, until now is unknown how the ventilatory strategy used to achieve pulmonary hyperventilation affects the SmO2 of these muscle groups, whose muscle work affects them reciprocally through the metabolic reflex.
As a report-case, we present the changes in SmO2-m.intercostales (WOB) and peripheral (SmO2-m.vastus laterallis) during the V̇O2-máx. test. in two competitive marathon runners with similar anthropometric characteristics, physical performance, training regimen and sports history. The objective is to give new information for identifying that the ventilatory strategy used during exercise can affect the local oxygenation in muscles with high demand during exercise. To evaluate this aspect, helping to coach improving the exercise performance in their athletes.
Downloads
References
Saltin B, Astrand PO. Maximal oxygen uptake in athletes. J Appl Physiol. 1967;23(3):353–8.
Longo AF, Aquilino GD, Cardey ML, Lentini NA. VO2 max assessment in athletes : A thoroughmethod comparison study between Yo-Yo test and direct measurement. Apunts. 2017;52(193):17–22.
Dominelli PB, Archiza B, Ramsook AH, Mitchell RA, Peters CM, Molgat-seon Y, et al. Effects ofrespiratory muscle work on respiratory and locomotor blood flow during exercise. Exp Physiol.2017;11:1535–47.
Guenette JA, Sheel AW. Physiological consequences of a high work of breathing during heavyexercise in humans. J Sci Med Sport. 2007;10(6):341–50.
Vella CA, Marks D, Robergs RA. Oxygen cost of ventilation during incremental exercise to VO 2 max.Respirology. 2006;11(2):175–81.
Aaron EA, Johnson BD, Seow CK, Dempsey JA. Oxygen cost of exercise hyperpnea: Measurement. JAppl Physiol. 1992;72(5):1810–7.
Dempsey JA, Romer L, Rodman J, Miller J, Smith C. Consequences of exercise-induced respiratorymuscle work. Respir Physiol Neurobiol. 2006;151(2–3):242–50.
Power GA, Handrigan GA, Basset FA. Ventilatory response during an incremental exercise test: Amode of testing effect. Eur J Sport Sci. 2012;12(6):491–8.
Guenette JA, Querido JS, Eves ND, Chua R, William Sheel A. Sex differences in the resistive andelastic work of breathing during exercise in endurance-trained athletes. Am J Physiol - Regul IntegrComp Physiol. 2009;297(1):166–75.
Reinhard PA, Gerson EAM, Sheel AW, Archiza B. Quantifying the mechanical work of breathing inmen and women during rowing. Eur J Appl Physiol. 2020;120(2):381–90.
Sheel AW, Romer LM. Ventilation and Respiratory Mechanics. Comprehensive Physiology.2012;2(April):1093–142.
Contreras-Briceño F, Espinosa-Ramirez M, Llambias D, Carrasco M, Cerda F, López- A, et al.Reliability of NIRS portable device for measuring intercostal muscles oxygenation during exercise.J Sports Sci. 2019;37(23):2653–9.
Harriss D., Macsween A, Atkinson G. Standards for Ethics in Sport and Exercise Science Research.Int J Sports Med. 2017;38(14):1126–31.
Taylor H, Buskirk E, Henschel A. Maximal oxygen intake as an objective measure of cardio-respiratory performance. J Appl Physiol. 1955;8(1):73–80.
Mezzani A, Hamm LF, Jones AM, McBride PE, Moholdt T, Stone JA, et al. Aerobic exercise intensityassessment and prescription in cardiac rehabilitation: A joint position statement of the EuropeanAssociation for Cardiovascular Prevention and Rehabilitation, the American Association of Cardiovascular and Pulmonary Rehabilitat. Eur J Prev Cardiol. 2013;20(3):442–67.
Seiler KS, Kjerland GØ. Quantifying training intensity distribution in elite endurance athletes: Isthere evidence for an “optimal” distribution? Scand J Med Sci Sport. 2006;16(1):49–56.
Vogiatzis I, Athanasopoulos D, Habazettl H, Kuebler WM, Wagner H, Roussos C, et al. Intercostalmuscle blood flow limitation in athletes during maximal exercise. J Physiol. 2009;587(14):3665–77.
Boone J, Barstow TJ, Celie B, Prieur F, Bourgois J. The interrelationship between muscleoxygenation, muscle activation, and pulmonary oxygen uptake to incremental ramp exercise:influence of aerobic fitness. Appl Physiol Nutr Metab. 2016;41(1):55–62.
Downloads
Published
Issue
Section
License
Copyright (c) 2020 Archivos de la Sociedad Chilena de Medicina del Deporte
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
