Physiological response to nordic walking with anti-shock poles
The purpose of present study was clarified to the physiological response to nordic walking with anti-shock poles. The healthy 6 men subjects who familiar with nordic walking participated in this study. They performed three incremental tests( 20m shuttle walk test), walking( W),nordic walking (NNP),...
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| Published in | Walking Research Vol. 26; pp. 29 - 36 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
Japanese Academy of Sciences in Walking
2023
日本ウォーキング学会 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2758-8904 |
| DOI | 10.60255/walkingresearch.26.0_29 |
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| Abstract | The purpose of present study was clarified to the physiological response to nordic walking with anti-shock poles. The healthy 6 men subjects who familiar with nordic walking participated in this study. They performed three incremental tests( 20m shuttle walk test), walking( W),nordic walking (NNP), and nordic walking with anti-shock poles (ASNP). Heart rate (HR), respiratory metabolism, muscles oxygenation,perceived of exertion (RPE) and stride length were measured during experiments. HR, V4 O2, muscle oxygenation of triceps brachii, and stride were significantly different in the NNP and ASNP compared to the W. Especially, V4 O2 and total hemoglobin content of triceps brachii of ASNP were significantly higher than those of W only for ASNP at specific speeds. There were no differences between the conditions in muscle oxygenation dynamics in the vastus lateralis. In RPE, NNP and ASNP were higher than W only in upper extremities, with no differences in lower extremities and whole body. It is concluded that ASNP does not compromise the features of NW and provides additional physiological responses depending on the speed. |
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| AbstractList | The purpose of present study was clarified to the physiological response to nordic walking with anti-shock poles. The healthy 6 men subjects who familiar with nordic walking participated in this study. They performed three incremental tests( 20m shuttle walk test), walking( W),nordic walking (NNP), and nordic walking with anti-shock poles (ASNP). Heart rate (HR), respiratory metabolism, muscles oxygenation,perceived of exertion (RPE) and stride length were measured during experiments. HR, V4 O2, muscle oxygenation of triceps brachii, and stride were significantly different in the NNP and ASNP compared to the W. Especially, V4 O2 and total hemoglobin content of triceps brachii of ASNP were significantly higher than those of W only for ASNP at specific speeds. There were no differences between the conditions in muscle oxygenation dynamics in the vastus lateralis. In RPE, NNP and ASNP were higher than W only in upper extremities, with no differences in lower extremities and whole body. It is concluded that ASNP does not compromise the features of NW and provides additional physiological responses depending on the speed. |
| Author | Sugiyama, Koji Tsuchiya, Ryota Takamiya, Keisuke Nagatsu, Koki Tsujikawa, Hiroto Uchimaru, Jin |
| Author_FL | 内丸 仁 高宮 佳祐 杉山 康司 Nagatsu Koki 辻川 比呂斗 Tsuchiya Ryota |
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| References | 3) Crum EM, O'Connor WJ, Van Loo L, Valckx M, Stannard SR (2017) : Validity and reliability of the Moxy oxygen monitor during incremental cycling exercise. Eur J Sport Sci, 17(8);1037-43 17) Stöggl T, Born DP (2021) : Near Infrared Spectroscopy for Muscle Specific Analysis of Intensity and Fatigue during Cross-Country Skiing Competition-A Case Report. Sensors (Basel).21(7); 2535 5) Feldmann A, Schmitz R, Erlacher D (2019) : Near-infrared spectroscopy-derived muscle oxygen saturation on a 0% to 100% scale: reliability and validity of the Moxy Monitor. J Biomed Opt, 24(11); 1-11 8) Hagen M, Hennig EM, Stieldorf P (2011) : Lower and upper extremity loading in nordic walking in comparison with walking and running. J Appl Biomech, 27(1); 22-31 9) Jensen SB, Henriksen M, Aaboe J, Hansen L, Simonsen EB,Alkjaer T (2011) : Is it possible to reduce the knee joint compression force during level walking with hiking poles? Scand J Med Sci Sports, 21(6); e195-200 16) Stief F, Kleindienst FI, Wiemeyer J, Wedel F, Campe S, Krabbe B (2008) : Inverse dynamic analysis of the lower extremities during nordic walking, walking,and running. J Appl Biomech,24; 351-9 13) Marciniak K, Maciaszek J, Cyma-Wejchenig M, Szeklicki R,Stemplewski R(2021) : The Effect of Nordic Walking Training with Poles with an Integrated Resistance Shock Absorber on the Body Balance of Women over the Age of 60. Healthcare (Basel), 9(3); 267 6) Figard-Fabre H, Fabre N, Leonardi A (2010) : Physiological and perceptual responses to Nordic walking in obese middle aged women in comparison with the normal walk. Eur J Appl Physiol, 108; 1141-51 20) Whipp BJ, Ward SA, Lamarra N, Davis JA, Wasserman K(1982): Parameters of ventilatory and gas exchange dynamics during exercise. J Appl Physiol Respir Environ Exerc Physiol, 52(6);1506-13 2) Contreras-Briceño F, Espinosa-Ramirez M, Hevia G, Llambias D,Carrasco M, Cerda F, López-Fuenzalida A, García P, Gabrielli L, Viscor G (2019) : Reliability of NIRS portable device for measuring intercostal muscles oxygenation during exercise. J Sports Sci, 37(23); 2653-59 18) Sugiyama K, Kawamura M, Tomita H, Katamoto S (2013) :Oxygen uptake, heart rate, perceived exertion, and integrated electromyogram of the lower andupper extremities during level and Nordic walking on a treadmill. J Physiol Anthropol. 32(2 11) Kime R, Im J, Moser D, Nioka S, Katsumura T, Chance B(2009): Noninvasive determination of exercise-induced vasodilation during bicycle exercise using near infrared spectroscopy. Med Sci Monit, 15(3); 89-94 10) Jordan AN, Olson TP, Earnest CP (2001) : Metabolic cost of high intensity poling while Nordic walking versus normal walking. Med Sci Sports Exerc, 33; S86 12) Marciniak K, Maciaszek J, Cyma-Wejchenig M, Szeklicki R,Maćkowiak Z, Sadowska D, Stemplewski R( 2020) : The Effect of Nordic Walking Training with Poles with an Integrated Resistance Shock Absorber on the Functional Fitness of Women over the Age of 60. Int J Environ Res Public Health, 17(7); 2197 4) Domaszewska K, Koper M, Wochna K, Czerniak U, Marciniak K,Wilski M, Bukowska D( 2020) : The Effects of Nordic Walking With Poles With an Integrated Resistance Shock Absorber on Cognitive Abilities and Cardiopulmonary Efficiency in Postmenopausal Women. Front Aging Neurosci, 12; 586286 15) Schiffer T, Knicker A, Hoffman U, Harwig B, Hollmann W,Strüder HK( 2006) : Physiological responses to nordic walking,walking and jogging. Eur J Appl Physiol, 98(1); 56-61 7) Green DJ, Hopman MT, Padilla J, Laughlin MH, Thijssen DH (2017) : Vascular Adaptation to Exercise in Humans: Role of Hemodynamic Stimuli. Physiol Rev, 97(2); 495-528 1) Church TS, Earnest CP, Morss GM (2002) : Field testing of physiological responses associated with Nordic Walking. Res Q Exerc Sport, 73(3):296-300 19) Tschentscher M, Niederseer D, Niebauer J (2013) : Health benefits of Nordic walking: a systematic review. Am J Prev Med, 44(1); 76-84 14) Porcari JP, Hendrickson TL, Walter PR, Terry L, Walsko G (1997) : The physiological responses to walking with and without Power Poles on treadmill exercise. Res Q Exerc Sport,68(2); 161-6 |
| References_xml | – reference: 3) Crum EM, O'Connor WJ, Van Loo L, Valckx M, Stannard SR (2017) : Validity and reliability of the Moxy oxygen monitor during incremental cycling exercise. Eur J Sport Sci, 17(8);1037-43 – reference: 15) Schiffer T, Knicker A, Hoffman U, Harwig B, Hollmann W,Strüder HK( 2006) : Physiological responses to nordic walking,walking and jogging. Eur J Appl Physiol, 98(1); 56-61 – reference: 1) Church TS, Earnest CP, Morss GM (2002) : Field testing of physiological responses associated with Nordic Walking. Res Q Exerc Sport, 73(3):296-300 – reference: 5) Feldmann A, Schmitz R, Erlacher D (2019) : Near-infrared spectroscopy-derived muscle oxygen saturation on a 0% to 100% scale: reliability and validity of the Moxy Monitor. J Biomed Opt, 24(11); 1-11 – reference: 16) Stief F, Kleindienst FI, Wiemeyer J, Wedel F, Campe S, Krabbe B (2008) : Inverse dynamic analysis of the lower extremities during nordic walking, walking,and running. J Appl Biomech,24; 351-9 – reference: 9) Jensen SB, Henriksen M, Aaboe J, Hansen L, Simonsen EB,Alkjaer T (2011) : Is it possible to reduce the knee joint compression force during level walking with hiking poles? Scand J Med Sci Sports, 21(6); e195-200 – reference: 11) Kime R, Im J, Moser D, Nioka S, Katsumura T, Chance B(2009): Noninvasive determination of exercise-induced vasodilation during bicycle exercise using near infrared spectroscopy. Med Sci Monit, 15(3); 89-94 – reference: 20) Whipp BJ, Ward SA, Lamarra N, Davis JA, Wasserman K(1982): Parameters of ventilatory and gas exchange dynamics during exercise. J Appl Physiol Respir Environ Exerc Physiol, 52(6);1506-13 – reference: 4) Domaszewska K, Koper M, Wochna K, Czerniak U, Marciniak K,Wilski M, Bukowska D( 2020) : The Effects of Nordic Walking With Poles With an Integrated Resistance Shock Absorber on Cognitive Abilities and Cardiopulmonary Efficiency in Postmenopausal Women. Front Aging Neurosci, 12; 586286 – reference: 18) Sugiyama K, Kawamura M, Tomita H, Katamoto S (2013) :Oxygen uptake, heart rate, perceived exertion, and integrated electromyogram of the lower andupper extremities during level and Nordic walking on a treadmill. J Physiol Anthropol. 32(2) – reference: 6) Figard-Fabre H, Fabre N, Leonardi A (2010) : Physiological and perceptual responses to Nordic walking in obese middle aged women in comparison with the normal walk. Eur J Appl Physiol, 108; 1141-51 – reference: 17) Stöggl T, Born DP (2021) : Near Infrared Spectroscopy for Muscle Specific Analysis of Intensity and Fatigue during Cross-Country Skiing Competition-A Case Report. Sensors (Basel).21(7); 2535 – reference: 12) Marciniak K, Maciaszek J, Cyma-Wejchenig M, Szeklicki R,Maćkowiak Z, Sadowska D, Stemplewski R( 2020) : The Effect of Nordic Walking Training with Poles with an Integrated Resistance Shock Absorber on the Functional Fitness of Women over the Age of 60. Int J Environ Res Public Health, 17(7); 2197 – reference: 19) Tschentscher M, Niederseer D, Niebauer J (2013) : Health benefits of Nordic walking: a systematic review. Am J Prev Med, 44(1); 76-84 – reference: 14) Porcari JP, Hendrickson TL, Walter PR, Terry L, Walsko G (1997) : The physiological responses to walking with and without Power Poles on treadmill exercise. Res Q Exerc Sport,68(2); 161-6 – reference: 2) Contreras-Briceño F, Espinosa-Ramirez M, Hevia G, Llambias D,Carrasco M, Cerda F, López-Fuenzalida A, García P, Gabrielli L, Viscor G (2019) : Reliability of NIRS portable device for measuring intercostal muscles oxygenation during exercise. J Sports Sci, 37(23); 2653-59 – reference: 10) Jordan AN, Olson TP, Earnest CP (2001) : Metabolic cost of high intensity poling while Nordic walking versus normal walking. Med Sci Sports Exerc, 33; S86 – reference: 13) Marciniak K, Maciaszek J, Cyma-Wejchenig M, Szeklicki R,Stemplewski R(2021) : The Effect of Nordic Walking Training with Poles with an Integrated Resistance Shock Absorber on the Body Balance of Women over the Age of 60. Healthcare (Basel), 9(3); 267 – reference: 7) Green DJ, Hopman MT, Padilla J, Laughlin MH, Thijssen DH (2017) : Vascular Adaptation to Exercise in Humans: Role of Hemodynamic Stimuli. Physiol Rev, 97(2); 495-528 – reference: 8) Hagen M, Hennig EM, Stieldorf P (2011) : Lower and upper extremity loading in nordic walking in comparison with walking and running. J Appl Biomech, 27(1); 22-31 |
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| Title | Physiological response to nordic walking with anti-shock poles |
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