Determining characteristics of the Achilles tendon properties on metabolic cost and 3000 m running performance

Detalhes bibliográficos
Autor(a) principal: Santos, Esthevan Machado dos
Data de Publicação: 2020
Tipo de documento: Trabalho de conclusão de curso
Idioma: eng
Título da fonte: Repositório Institucional da UFRGS
Texto Completo: http://hdl.handle.net/10183/248887
Resumo: Tendons play a fundamental role in storing and releasing elastic energy, minimizing metabolic cost (CMET) in distance running. This behavior is related to the tendon's ability to resist deformation (e.g. stiffness), which is controlled by changes in the tendon morphological [cross-sectional area (CSA)], and material (e.g. Young’s modulus) properties. However, the relationship between Achilles tendon properties, CMET, and running performance is still uncertain. This study aimed to correlate the Achilles tendon properties, CMET and 3000 m running performance. 7 trained male long-distance runners (31 ± 8 years) participated in this study (Ethics Committee approval number: 2.437.616). Ultrasound was used to determine the Achilles tendon CSA, length, and elongation as a function of plantar flexion torque during voluntary plantar flexion. Tendon force- elongation and stress-strain relationships were determined by maximum voluntary isometric contractions on a dynamometer. Then, the maximal incremental test was performed until exhaustion on a treadmill. After 24 hours, CMET was measured in the running economy test for 5 minutes at 12 and 16 km.h-1 on a treadmill. After 10 minutes at rest, the 3000 m running performance test on an athletics track was performed. The oxygen uptake was measured by spirometry. Correlations between Achilles tendon properties, CMET (12 and 16 km.h-1), and 3000 m running performance were obtained through Pearson’s test (p<0.05). Correlation coefficient was classified as null (0), low (0-0.3), moderate (0.3-0.6), high (0.6-0.9), very high (0.9-1), and perfect (1). CMET at 16 km.h-1 correlated with CSA (r=-0.834, p=0.02), stress (r=0.901, p=0.006) and Young’s modulus (r=0.880, p=0.009). Moreover, stress also correlated with CSA (r=- 0.886, p=0.008) and Young’s modulus (r=0.878, p=0.009). Tendon stiffness showed a very high correlation with strain (r=-0.931, p=0.002). Finally, 3000m running performance correlated with vVO2MAX (r=-0.781, p=0.038). There was no correlation with TL or TL-SL, plantar flexor force, CMET at 12 km.h-1, VO2MAX, first and second ventilatory threshold. We concluded that runners with lower Young’s modulus, mainly due to greater CSA (related to lower stress) and greater stiffness (related to lower strain), presented better RE at 16 km.h-1 due to the greater tendon work at this speed, minimizing the CMET. Moreover, RE at 16 km.h-1 is indirectly related to the 3000 m running performance, due to the high correlation between vVO2MAX and 3000 m running performance.
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spelling Santos, Esthevan Machado dosPeyré-Tartaruga, Leonardo AlexandreSilva, Edson Soares da2022-09-14T04:54:12Z2020http://hdl.handle.net/10183/248887001149651Tendons play a fundamental role in storing and releasing elastic energy, minimizing metabolic cost (CMET) in distance running. This behavior is related to the tendon's ability to resist deformation (e.g. stiffness), which is controlled by changes in the tendon morphological [cross-sectional area (CSA)], and material (e.g. Young’s modulus) properties. However, the relationship between Achilles tendon properties, CMET, and running performance is still uncertain. This study aimed to correlate the Achilles tendon properties, CMET and 3000 m running performance. 7 trained male long-distance runners (31 ± 8 years) participated in this study (Ethics Committee approval number: 2.437.616). Ultrasound was used to determine the Achilles tendon CSA, length, and elongation as a function of plantar flexion torque during voluntary plantar flexion. Tendon force- elongation and stress-strain relationships were determined by maximum voluntary isometric contractions on a dynamometer. Then, the maximal incremental test was performed until exhaustion on a treadmill. After 24 hours, CMET was measured in the running economy test for 5 minutes at 12 and 16 km.h-1 on a treadmill. After 10 minutes at rest, the 3000 m running performance test on an athletics track was performed. The oxygen uptake was measured by spirometry. Correlations between Achilles tendon properties, CMET (12 and 16 km.h-1), and 3000 m running performance were obtained through Pearson’s test (p<0.05). Correlation coefficient was classified as null (0), low (0-0.3), moderate (0.3-0.6), high (0.6-0.9), very high (0.9-1), and perfect (1). CMET at 16 km.h-1 correlated with CSA (r=-0.834, p=0.02), stress (r=0.901, p=0.006) and Young’s modulus (r=0.880, p=0.009). Moreover, stress also correlated with CSA (r=- 0.886, p=0.008) and Young’s modulus (r=0.878, p=0.009). Tendon stiffness showed a very high correlation with strain (r=-0.931, p=0.002). Finally, 3000m running performance correlated with vVO2MAX (r=-0.781, p=0.038). There was no correlation with TL or TL-SL, plantar flexor force, CMET at 12 km.h-1, VO2MAX, first and second ventilatory threshold. We concluded that runners with lower Young’s modulus, mainly due to greater CSA (related to lower stress) and greater stiffness (related to lower strain), presented better RE at 16 km.h-1 due to the greater tendon work at this speed, minimizing the CMET. Moreover, RE at 16 km.h-1 is indirectly related to the 3000 m running performance, due to the high correlation between vVO2MAX and 3000 m running performance.application/pdfengRunning economyStiffnessLong-distance runnersDetermining characteristics of the Achilles tendon properties on metabolic cost and 3000 m running performanceinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/bachelorThesisUniversidade Federal do Rio Grande do SulEscola de Educação Física, Fisioterapia e DançaPorto Alegre, BR-RS2020Educação Física: Licenciaturagraduaçãoinfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFRGSinstname:Universidade Federal do Rio Grande do Sul (UFRGS)instacron:UFRGSTEXT001149651.pdf.txt001149651.pdf.txtExtracted Texttext/plain111190http://www.lume.ufrgs.br/bitstream/10183/248887/2/001149651.pdf.txtfb9279fca0b87e47a090e5464fbfdea1MD52ORIGINAL001149651.pdfTexto completoapplication/pdf1787885http://www.lume.ufrgs.br/bitstream/10183/248887/1/001149651.pdf12f48a1175326d932b920adf724276a2MD5110183/2488872022-09-15 05:01:14.559579oai:www.lume.ufrgs.br:10183/248887Repositório de PublicaçõesPUBhttps://lume.ufrgs.br/oai/requestopendoar:2022-09-15T08:01:14Repositório Institucional da UFRGS - Universidade Federal do Rio Grande do Sul (UFRGS)false
dc.title.pt_BR.fl_str_mv Determining characteristics of the Achilles tendon properties on metabolic cost and 3000 m running performance
title Determining characteristics of the Achilles tendon properties on metabolic cost and 3000 m running performance
spellingShingle Determining characteristics of the Achilles tendon properties on metabolic cost and 3000 m running performance
Santos, Esthevan Machado dos
Running economy
Stiffness
Long-distance runners
title_short Determining characteristics of the Achilles tendon properties on metabolic cost and 3000 m running performance
title_full Determining characteristics of the Achilles tendon properties on metabolic cost and 3000 m running performance
title_fullStr Determining characteristics of the Achilles tendon properties on metabolic cost and 3000 m running performance
title_full_unstemmed Determining characteristics of the Achilles tendon properties on metabolic cost and 3000 m running performance
title_sort Determining characteristics of the Achilles tendon properties on metabolic cost and 3000 m running performance
author Santos, Esthevan Machado dos
author_facet Santos, Esthevan Machado dos
author_role author
dc.contributor.author.fl_str_mv Santos, Esthevan Machado dos
dc.contributor.advisor1.fl_str_mv Peyré-Tartaruga, Leonardo Alexandre
dc.contributor.advisor-co1.fl_str_mv Silva, Edson Soares da
contributor_str_mv Peyré-Tartaruga, Leonardo Alexandre
Silva, Edson Soares da
dc.subject.eng.fl_str_mv Running economy
Stiffness
Long-distance runners
topic Running economy
Stiffness
Long-distance runners
description Tendons play a fundamental role in storing and releasing elastic energy, minimizing metabolic cost (CMET) in distance running. This behavior is related to the tendon's ability to resist deformation (e.g. stiffness), which is controlled by changes in the tendon morphological [cross-sectional area (CSA)], and material (e.g. Young’s modulus) properties. However, the relationship between Achilles tendon properties, CMET, and running performance is still uncertain. This study aimed to correlate the Achilles tendon properties, CMET and 3000 m running performance. 7 trained male long-distance runners (31 ± 8 years) participated in this study (Ethics Committee approval number: 2.437.616). Ultrasound was used to determine the Achilles tendon CSA, length, and elongation as a function of plantar flexion torque during voluntary plantar flexion. Tendon force- elongation and stress-strain relationships were determined by maximum voluntary isometric contractions on a dynamometer. Then, the maximal incremental test was performed until exhaustion on a treadmill. After 24 hours, CMET was measured in the running economy test for 5 minutes at 12 and 16 km.h-1 on a treadmill. After 10 minutes at rest, the 3000 m running performance test on an athletics track was performed. The oxygen uptake was measured by spirometry. Correlations between Achilles tendon properties, CMET (12 and 16 km.h-1), and 3000 m running performance were obtained through Pearson’s test (p<0.05). Correlation coefficient was classified as null (0), low (0-0.3), moderate (0.3-0.6), high (0.6-0.9), very high (0.9-1), and perfect (1). CMET at 16 km.h-1 correlated with CSA (r=-0.834, p=0.02), stress (r=0.901, p=0.006) and Young’s modulus (r=0.880, p=0.009). Moreover, stress also correlated with CSA (r=- 0.886, p=0.008) and Young’s modulus (r=0.878, p=0.009). Tendon stiffness showed a very high correlation with strain (r=-0.931, p=0.002). Finally, 3000m running performance correlated with vVO2MAX (r=-0.781, p=0.038). There was no correlation with TL or TL-SL, plantar flexor force, CMET at 12 km.h-1, VO2MAX, first and second ventilatory threshold. We concluded that runners with lower Young’s modulus, mainly due to greater CSA (related to lower stress) and greater stiffness (related to lower strain), presented better RE at 16 km.h-1 due to the greater tendon work at this speed, minimizing the CMET. Moreover, RE at 16 km.h-1 is indirectly related to the 3000 m running performance, due to the high correlation between vVO2MAX and 3000 m running performance.
publishDate 2020
dc.date.issued.fl_str_mv 2020
dc.date.accessioned.fl_str_mv 2022-09-14T04:54:12Z
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