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Comparing the effect of two different exercise types, mini-trampoline and fast-walking to gastrocnemius/soleus muscle elasticity by sonoelastrography

Year 2019, Volume: 5 Issue: 4, 588 - 593, 04.07.2019
https://doi.org/10.18621/eurj.407527

Abstract

Objectives: Sonoelastography is a newly introduced ultrasound
technique that evaluates tissue elasticity and thus provides additional
information to that offered by conventional ultrasound images.
Here,
we compared the effect of ballistic jumping on mini-trampolin with walk
exercise to the elasticity of gastrocnemius/soleus muscles with quantitative
measurements by s
onoelastography.

Methods: Forty volunteer healty male cases between the ages of 20-22
years were included the study. Initially, both exercise groups were subjected
to joint warm-up movements for 8 minutes. Twenty of the cases (40 legs) had
mini-trampoline (balistic jumping) exercise for 15 minutes. Another 20 cases
(40 legs) had 15 minutes fast-walk exercise. Measurements were made immediately
before and after the procedure (within 5 minutes) with the s
onoelastography.

Results: A
statistically significant difference was observed in the gastrocnemius/soleus
muscles after exercise in the trampoline group according to sonoelastography
strain value (SESV) data separately (p =
0.0001 / p = 0.0001). According to
this, when the SESV values evaluated after 15 minutes of jump with the
trampoline, we obtained that the elasticity increases and stifness decreases in
the calf muscles.
In the walking group, no statistically difference was
observed in the gastrocnemius/soleus muscles after exercise separately (p = 0.7925 / p = 0.1879).







Conclusions: According
to the study, in the trampoline group in general, a decrease in strain values
and an increase in elasticityin muscle groups were found; in the walking group,
a decrease in muscle elasticity, an increase in stiffness and muscle strain
were found eventually. We found that the 15-minutes exercise program on the
mini-trampoline is more effective as a heating technique and has more positive
effect on muscle elasticity than the 15-minutes walking exercise. 

References

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  • [2] Demirel A, Baykara M, Koca TT, Berk E. Ultrasound elastography-based assessment of the elasticity of the supraspinatus muscle in impingement syndrome: does elastography has any diagnostic value? Clin Rheumatol 2018;37:1661-5.
  • [3] Xiang X, Yan F, Yang Y, Tang Y, Wang L, Zeng J, et al. Quantitative assessment of healthy skin elasticity: reliability and feasibility of shear wave elastography. Ultrasound Med Biol 2017;43:2:445-52.
  • [4] Hou SW, Merkle AN, Babb JS, McCabe R, Gyftopoulos S, Adler RS. Shear wave ultrasound elastographic evaluation of the rotator cuff tendon. J Ultrasound Med 2017;36:95-106.
  • [5] Miklitsch C, Krewer C, Freivogel S. Effects of a predefined mini-trampoline training programme on balance, mobility and activities of daily living after stroke: a randomized controlled pilot study. Clin Rehabil 2013;27:939-47.
  • [6] Giagazoglou P, Kokaridas D, Sidiropoulou M. Effects of a trampoline exercise intervention on motor performance and balance ability of children with intellectual disabilities. Res Dev Disabil 2013;34:2701-7.
  • [7] Rosskopf AB, Ehrmann C, Buck FM, Gerber C, Flück M, Pfirrmann CW. Quantitative shear-wave US elastographyof the supraspinatus muscle: reliability of the method and relation to tendon integrity and muscle quality. Radiology 2016;278:465-74.
  • [8] Hoskins PR, Martin K, Thrush A. Diagnostic ultrasound : physics and equipment. 2nd ed. Cambridge medicine. Cambridge, UK; New York: Cambridge University Press. xi, 2010: p.263.
  • [9] Hasegawa H. Kanai H. Ultrasonic methods for measurement of small motion and deformation of biological tissues for assessment of viscoelasticity. Biomedical & Nanomedical Technologies. Momentum Press: New York, 2015: p.45.
  • [10] González Hidalgo M, Torres AM, Varona Gómez J. Deformation models : tracking, animation, and applications. Lecture notes in computational vision and biomechanics. Dordrecht; New York: Springer. xiv, 2013:p.297.
  • [11] Green MA, Sinkus R, Gandevia SC, Herbert RD, Bilston LE. Measuring changes in muscle stiffness after eccentric exercise using elastography. NMR Biomed 2012;25:852-8.
  • [12] Crawford SK, Haas C, Butterfield TA, Wang Q, Zhang X, Zhao Y, et al. Effects of immediate vs. delayed massage-like loading on skeletal muscle viscoelastic properties following eccentric exercise. Clin Biomech (Bristol, Avon) 2014;29:671-8.
  • [13] Koo TK, Guo JY, Cohen JH, Parker KJ. Quantifying the passive stretching response of human tibialis anterior muscle using shear wave elastography. Clin Biomech (Bristol, Avon) 2014;29:33-9.
  • [14] Terada S, Miaki H, Uchiyama K, Hayakawa S, Yamazaki T. Effects of isokinetic passive exercise and isometric muscle contraction on passive stiffness. J Phys Ther Sci 2013;25:1347-52.
  • [15] Hirata K, Kanehisa H, Miyamoto N. Acute effect of static stretching on passive stiffness of the human gastrocnemius fascicle measured by ultrasound shear wave elastography. Eur J Appl Physiol 2017;117:493-9.
  • [16] Hirata K, Miyamoto-Mikami E, Kanehisa H, Miyamoto N. Muscle-specific acute changes in passive stiffness of human triceps surae after stretching. Eur J Appl Physiol 2016;116:911-8.
  • [17] Chino K, Takahashi H. Measurement of gastrocnemius muscle elasticity by shear wave elastography: association with passive ankle joint stiffness and sex differences. Eur J Appl Physiol 2016;116:823-30.
  • [18] Chino K, Takahashi H. The association ofmuscleand tendon elasticity with passive joint stiffness: in vivo measurements using ultrasound shear wave elastography. Clin Biomech (Bristol, Avon) 2015;30:1230-5.
  • [19] Yanagisawa O, Niitsu M, Kurihara T, Fukubayashi T. Evaluation of human muscle hardness after dynamic exercise with ultrasound real-time tissue elastography: a feasibility study. Clin Radiol 2011;66:815-9.
  • [20] Aalizadeh B, Mohammadzadeh H, Khazani A, Dadras A. Effect of a trampoline exercise on the anthropometric measures and motor performance of adolescent students. Int J Prev Med 2016;7:91.
  • [21] Karakollukçu M, Aslan CS, Paoli A, Bianco A, Sahin FN. Effects of minitrampoline exerciseon male gymnasts' physiological parameters: a pilot study. J Sports Med Phys Fitness 2015;55:730-4.
  • [22] Giagazoglou P, Kokaridas D, Sidiropoulou M, Patsiaouras A, Karra C, Neofotistou K. Effects of a trampoline exercise intervention on motor performance and balance ability of children with intellectual disabilities. Res Dev Disabil 2013;34:2701-7.
  • [23] Melo X, Fernhall B, Santos DA, Pinto R, Pimenta NM, Sardinha LB, et al. The acute effect of maximal exercise on central and peripheral arterial stiffness indices and hemodynamics in children and adults. Appl Physiol Nutr Metab 2016;41:266-76.
  • [24] Klauser AS, Faschingbauer R, Jaschke WR. Is sonoelastography of value in assessing tendons? Semin Musculoskelet Radiol 2010;14:323-33.
Year 2019, Volume: 5 Issue: 4, 588 - 593, 04.07.2019
https://doi.org/10.18621/eurj.407527

Abstract

References

  • [1] Pedersen M, Fredberg U, Langberg H. Sonoelastography as a diagnostic tool in the assessment of musculoskeletal alterations: a systematic review. Ultraschall Med 2012;33:441-6.
  • [2] Demirel A, Baykara M, Koca TT, Berk E. Ultrasound elastography-based assessment of the elasticity of the supraspinatus muscle in impingement syndrome: does elastography has any diagnostic value? Clin Rheumatol 2018;37:1661-5.
  • [3] Xiang X, Yan F, Yang Y, Tang Y, Wang L, Zeng J, et al. Quantitative assessment of healthy skin elasticity: reliability and feasibility of shear wave elastography. Ultrasound Med Biol 2017;43:2:445-52.
  • [4] Hou SW, Merkle AN, Babb JS, McCabe R, Gyftopoulos S, Adler RS. Shear wave ultrasound elastographic evaluation of the rotator cuff tendon. J Ultrasound Med 2017;36:95-106.
  • [5] Miklitsch C, Krewer C, Freivogel S. Effects of a predefined mini-trampoline training programme on balance, mobility and activities of daily living after stroke: a randomized controlled pilot study. Clin Rehabil 2013;27:939-47.
  • [6] Giagazoglou P, Kokaridas D, Sidiropoulou M. Effects of a trampoline exercise intervention on motor performance and balance ability of children with intellectual disabilities. Res Dev Disabil 2013;34:2701-7.
  • [7] Rosskopf AB, Ehrmann C, Buck FM, Gerber C, Flück M, Pfirrmann CW. Quantitative shear-wave US elastographyof the supraspinatus muscle: reliability of the method and relation to tendon integrity and muscle quality. Radiology 2016;278:465-74.
  • [8] Hoskins PR, Martin K, Thrush A. Diagnostic ultrasound : physics and equipment. 2nd ed. Cambridge medicine. Cambridge, UK; New York: Cambridge University Press. xi, 2010: p.263.
  • [9] Hasegawa H. Kanai H. Ultrasonic methods for measurement of small motion and deformation of biological tissues for assessment of viscoelasticity. Biomedical & Nanomedical Technologies. Momentum Press: New York, 2015: p.45.
  • [10] González Hidalgo M, Torres AM, Varona Gómez J. Deformation models : tracking, animation, and applications. Lecture notes in computational vision and biomechanics. Dordrecht; New York: Springer. xiv, 2013:p.297.
  • [11] Green MA, Sinkus R, Gandevia SC, Herbert RD, Bilston LE. Measuring changes in muscle stiffness after eccentric exercise using elastography. NMR Biomed 2012;25:852-8.
  • [12] Crawford SK, Haas C, Butterfield TA, Wang Q, Zhang X, Zhao Y, et al. Effects of immediate vs. delayed massage-like loading on skeletal muscle viscoelastic properties following eccentric exercise. Clin Biomech (Bristol, Avon) 2014;29:671-8.
  • [13] Koo TK, Guo JY, Cohen JH, Parker KJ. Quantifying the passive stretching response of human tibialis anterior muscle using shear wave elastography. Clin Biomech (Bristol, Avon) 2014;29:33-9.
  • [14] Terada S, Miaki H, Uchiyama K, Hayakawa S, Yamazaki T. Effects of isokinetic passive exercise and isometric muscle contraction on passive stiffness. J Phys Ther Sci 2013;25:1347-52.
  • [15] Hirata K, Kanehisa H, Miyamoto N. Acute effect of static stretching on passive stiffness of the human gastrocnemius fascicle measured by ultrasound shear wave elastography. Eur J Appl Physiol 2017;117:493-9.
  • [16] Hirata K, Miyamoto-Mikami E, Kanehisa H, Miyamoto N. Muscle-specific acute changes in passive stiffness of human triceps surae after stretching. Eur J Appl Physiol 2016;116:911-8.
  • [17] Chino K, Takahashi H. Measurement of gastrocnemius muscle elasticity by shear wave elastography: association with passive ankle joint stiffness and sex differences. Eur J Appl Physiol 2016;116:823-30.
  • [18] Chino K, Takahashi H. The association ofmuscleand tendon elasticity with passive joint stiffness: in vivo measurements using ultrasound shear wave elastography. Clin Biomech (Bristol, Avon) 2015;30:1230-5.
  • [19] Yanagisawa O, Niitsu M, Kurihara T, Fukubayashi T. Evaluation of human muscle hardness after dynamic exercise with ultrasound real-time tissue elastography: a feasibility study. Clin Radiol 2011;66:815-9.
  • [20] Aalizadeh B, Mohammadzadeh H, Khazani A, Dadras A. Effect of a trampoline exercise on the anthropometric measures and motor performance of adolescent students. Int J Prev Med 2016;7:91.
  • [21] Karakollukçu M, Aslan CS, Paoli A, Bianco A, Sahin FN. Effects of minitrampoline exerciseon male gymnasts' physiological parameters: a pilot study. J Sports Med Phys Fitness 2015;55:730-4.
  • [22] Giagazoglou P, Kokaridas D, Sidiropoulou M, Patsiaouras A, Karra C, Neofotistou K. Effects of a trampoline exercise intervention on motor performance and balance ability of children with intellectual disabilities. Res Dev Disabil 2013;34:2701-7.
  • [23] Melo X, Fernhall B, Santos DA, Pinto R, Pimenta NM, Sardinha LB, et al. The acute effect of maximal exercise on central and peripheral arterial stiffness indices and hemodynamics in children and adults. Appl Physiol Nutr Metab 2016;41:266-76.
  • [24] Klauser AS, Faschingbauer R, Jaschke WR. Is sonoelastography of value in assessing tendons? Semin Musculoskelet Radiol 2010;14:323-33.
There are 24 citations in total.

Details

Primary Language English
Subjects Health Care Administration
Journal Section Original Articles
Authors

Tuba Tülay Koca 0000-0002-4596-858X

Murat Baykara 0000-0003-2588-9013

Adnan Demirel 0000-0002-2974-8560

Ejder Berk 0000-0002-0816-0960

Publication Date July 4, 2019
Submission Date March 19, 2018
Acceptance Date July 5, 2018
Published in Issue Year 2019 Volume: 5 Issue: 4

Cite

AMA Koca TT, Baykara M, Demirel A, Berk E. Comparing the effect of two different exercise types, mini-trampoline and fast-walking to gastrocnemius/soleus muscle elasticity by sonoelastrography. Eur Res J. July 2019;5(4):588-593. doi:10.18621/eurj.407527

e-ISSN: 2149-3189 


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