Effects of high-intensity interval training in more or less active mice on biomechanical, biophysical and biochemical bone parameters

Effects of high-intensity interval training in more or less active mice on biomechanical, biophysical and biochemical bone parameters

Abstract High-intensity interval training (HIIT) is of scientific interest due its role in improving physical fitness, but the effects of HIIT on bone health need be carefully explored. Further, it is necessary to know whether HIIT effects on bone health are dependent on the physical activity levels...

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Main Authors: Emanuel E. C. Polisel, Wladimir R. Beck, Pedro P. M. Scariot, Taciane M. M. Pejon, Claudio A. Gobatto, Fúlvia B. Manchado-Gobatto
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-85585-9
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spelling doaj-6e9912516e0f4d69b92e77de3cfc18532021-03-21T12:34:12ZengNature Publishing GroupScientific Reports2045-23222021-03-0111111110.1038/s41598-021-85585-9Effects of high-intensity interval training in more or less active mice on biomechanical, biophysical and biochemical bone parametersEmanuel E. C. Polisel0Wladimir R. Beck1Pedro P. M. Scariot2Taciane M. M. Pejon3Claudio A. Gobatto4Fúlvia B. Manchado-Gobatto5Laboratory of Applied Sport Physiology, School of Applied Sciences, University of CampinasLaboratory of Endocrine Physiology and Physical Exercise, Department of Physiological Sciences, Federal University of São CarlosLaboratory of Applied Sport Physiology, School of Applied Sciences, University of CampinasLaboratory of Endocrine Physiology and Physical Exercise, Department of Physiological Sciences, Federal University of São CarlosLaboratory of Applied Sport Physiology, School of Applied Sciences, University of CampinasLaboratory of Applied Sport Physiology, School of Applied Sciences, University of CampinasAbstract High-intensity interval training (HIIT) is of scientific interest due its role in improving physical fitness, but the effects of HIIT on bone health need be carefully explored. Further, it is necessary to know whether HIIT effects on bone health are dependent on the physical activity levels. This may be experimentally tested since we have built a large cage (LC) that allows animals to move freely, promoting an increase of spontaneous physical activity (SPA) in comparison to a small cage (SC). Thus, we examined the effects of HIIT on biophysical, biomechanical and biochemical parameters of bone tissue of C57BL/6J mice living in cages of two different sizes: small (SC) or large (LC) cages with 1320 cm2 and 4800 cm2 floor space, respectively. Male mice were subdivided into two groups within each housing type: Control (C) and Trained (T). At the end of the interventions, all mice were euthanized to extract the femur bone for biophysical, biomechanical and biochemical analyses. Based a significant interaction from two-way ANOVA, trained mice kept in large cage (but not for trained mice housed in SC) exhibited a reduction of tenacity and displacement at failure in bone. This suggests that long-term HIIT program, in addition with a more active lifestyle correlates with exerts negative effects on the bone of healthy mice. A caution must also be raised about the excessive adoption of physical training, at least regarding bone tissue. On the other hand, increased calcium was found in femur of mice housed in LC. In line with this, LC-C mice were more active (i.e. SPA) than other groups. This implies that an active lifestyle without long-term high intensity physical training seems to play a role in promoting benefits to bone tissue. Our data provides new insights for treatment of osteo-health related disorders.https://doi.org/10.1038/s41598-021-85585-9
collection DOAJ
language English
format Article
sources DOAJ
author Emanuel E. C. Polisel
Wladimir R. Beck
Pedro P. M. Scariot
Taciane M. M. Pejon
Claudio A. Gobatto
Fúlvia B. Manchado-Gobatto
spellingShingle Emanuel E. C. Polisel
Wladimir R. Beck
Pedro P. M. Scariot
Taciane M. M. Pejon
Claudio A. Gobatto
Fúlvia B. Manchado-Gobatto
Effects of high-intensity interval training in more or less active mice on biomechanical, biophysical and biochemical bone parameters
Scientific Reports
author_facet Emanuel E. C. Polisel
Wladimir R. Beck
Pedro P. M. Scariot
Taciane M. M. Pejon
Claudio A. Gobatto
Fúlvia B. Manchado-Gobatto
author_sort Emanuel E. C. Polisel
title Effects of high-intensity interval training in more or less active mice on biomechanical, biophysical and biochemical bone parameters
title_short Effects of high-intensity interval training in more or less active mice on biomechanical, biophysical and biochemical bone parameters
title_full Effects of high-intensity interval training in more or less active mice on biomechanical, biophysical and biochemical bone parameters
title_fullStr Effects of high-intensity interval training in more or less active mice on biomechanical, biophysical and biochemical bone parameters
title_full_unstemmed Effects of high-intensity interval training in more or less active mice on biomechanical, biophysical and biochemical bone parameters
title_sort effects of high-intensity interval training in more or less active mice on biomechanical, biophysical and biochemical bone parameters
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-03-01
description Abstract High-intensity interval training (HIIT) is of scientific interest due its role in improving physical fitness, but the effects of HIIT on bone health need be carefully explored. Further, it is necessary to know whether HIIT effects on bone health are dependent on the physical activity levels. This may be experimentally tested since we have built a large cage (LC) that allows animals to move freely, promoting an increase of spontaneous physical activity (SPA) in comparison to a small cage (SC). Thus, we examined the effects of HIIT on biophysical, biomechanical and biochemical parameters of bone tissue of C57BL/6J mice living in cages of two different sizes: small (SC) or large (LC) cages with 1320 cm2 and 4800 cm2 floor space, respectively. Male mice were subdivided into two groups within each housing type: Control (C) and Trained (T). At the end of the interventions, all mice were euthanized to extract the femur bone for biophysical, biomechanical and biochemical analyses. Based a significant interaction from two-way ANOVA, trained mice kept in large cage (but not for trained mice housed in SC) exhibited a reduction of tenacity and displacement at failure in bone. This suggests that long-term HIIT program, in addition with a more active lifestyle correlates with exerts negative effects on the bone of healthy mice. A caution must also be raised about the excessive adoption of physical training, at least regarding bone tissue. On the other hand, increased calcium was found in femur of mice housed in LC. In line with this, LC-C mice were more active (i.e. SPA) than other groups. This implies that an active lifestyle without long-term high intensity physical training seems to play a role in promoting benefits to bone tissue. Our data provides new insights for treatment of osteo-health related disorders.
url https://doi.org/10.1038/s41598-021-85585-9
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