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SPOR BİLİMLERİNDE ELEKTROMİYOGRAFİ KULLANIMI

Yıl 2010, Cilt: 8 Sayı: 2, 43 - 49, 01.06.2010
https://doi.org/10.1501/Sporm_0000000175

Öz

Yüzeyel elektromiyografi (sEMG), uzun yıllar boyunca laboratuar araştırmalarında kullanılan bir araç olarak karşımıza çıkmasına rağmen, elektrik, elektronik, bilgisayar ve biyomedikal alanlarda teknolojinin de gelişmesiyle birlikte kinesiyoloji, rehabilitasyon, spor tıbbı, spor bilimleri ve birçok spor branşında farklı amaçlarla kullanılmaya başlanmıştır. EMG uygulamaları sonucunda elde edilen veriler; merkezi kontrol stratejileri, sinir hücreleri boyunca olan sinyalin sinir kas kavşağına transferi, motor ünitede kas hücrelerinin elektriksel aktivasyonu, karmaşık biyomekaniksel olaylar zinciri, agonist ve antagonist kas tendonları üzerine etki eden ve kemiklere taşınan baskının üretimi hakkında bilgi edinilmesini sağlar. Spor bilimlerinde kassal aktivasyonun değerlendirildiği elektromiyografi uygulamaları ise, teknik gelişimin değerlendirilmesi, uygun antrenman programlarının oluşturulması, sporcunun gelişiminin takip edilmesi, yetenek seçimi amaçlarıyla kullanılabilmektedir Yüzeyel EMG spor bilimlerinde tek başına ölçüm aracı olarak kullanıldığı gibi, görüntü analizi, kuvvet platformu, izokinetik dinamometre vb. cihazlardan alınan bilgileri destekleyici unsur olarak da kullanılmaktadır. Bu bilgiler doğrultusunda antrenör ve spor bilimciler farklı antrenman yaklaşımlarını ortaya koyabilirler

Kaynakça

  • Cerny FJ., Burton HW., Exercise Physiology for Health Care Professionals, Human Kinetics, s.142, United States of America, 2001.
  • Wilmore JH., Costil DL., Physiology of Sport and Exercise, Human Kinetics, s. 45-53, 39-44, Hong Kong, 2004. 3. http-1:
  • Chusid JG., Correlative Neuroanatomy and Functional Neurology, Lange Medical, s.17-18, California, 1993.
  • Basmajian JV., Latif A., “Integrated actions and functions of the chief flexors of the elbow”, J. Bone Joint Surg, 39, pp.1106-1118, 1957.
  • Soderberg, G.L., Recording techniques. In: Selected topics in surface electromyography for use in the occupational setting: expert perspectives, G.L., Soderberg (Eds). DHHS (NIOSH) Publication, USA, No. 91-100, 24-41, (1992).
  • Mc Ardle WD., Katch FI., Katch VL., Exercise Physiology, Energy, Nurition and Human Performance, Lea and Febiyer, s.359, Philadelhia, 1981.
  • Jones NL., Mc Cartney N., Mc Comas AJ., Human Muscle Power, Human Kinetics, s.27, United States of America, 1986.
  • Powers SK., Howley ET., Exercise Physiology Theory and Application to Fitness and Performance, Mc Grow Hill, s.130-136, United States of America, 2001.
  • Brooks GA., Fahey TD., White TP., Baldwin KM., Exercise Physiology; Human Bioenergetics And Its Applications, Mc Grow Hill, s.339, United States of America, 2000.
  • Zatsiorsky VM., Biomechanics in Sport, Blackwell Science, s.56, United Kingdom, 2005.
  • Robertson T., Glover S., Senior Physical Education, Coghill Publishing, s.48-56, Australia, 1989.
  • Solomonow M., Barata R., Zhou BH., R D'Ambrosia., “Electromyogram coactivation patterns of the elbow antagonist muscles during slow isokinetic movement”. Exp. Neurol., 1, pp.470-477, 1988.
  • Barata R., Solomonow M., Zhou BH., Letson D., Churnard R., D'Ambrosia R., “Muscular coactivation: The role of antagonistic musculature in maintaining knee stability”, Am. J. Sports. Med., 16, pp.113-122, 1988.
  • Gans C., “Fiber architecture and muscle function”. Exercise and Sport Science Review, 10,pp.160-207,1982
  • http-2 Delsys, surface electromyography: detection and recording, http://serveroersted.dtu.dk/personal/jw/Courses/31 654/pdf/semgintro.pdf (16.11.2008).
  • De Luca CJ., “The use of surface electromyography in biomechanics, J. Appl. Biomech., 13(2),pp.135-163, 1997.
  • http-3 The ABC of EMG, http://reseau.risc.cnrs.fr/fichiers/apercu.php?numero=1 (18.11.2008).
  • Gerleman DG., Cook TM, Instrumentation, In: Selected topics in surface electromyography for use in the occupational setting: expert perspectives, GL., Soderberg (Eds). DHHS (NIOSH) Publication, USA, No. 91-100, pp.44-68, 1992.
  • Barkhause, PE., Nandekar SD., “Recording characteristics of the surface electrodes”, Muscle Nerve, 17(11), pp.1317-1323,1994.
  • http-4 Electromyography Fundamentals, myweb.facstaff.wwu.edu/chalmers/EMG fundamentals.pdf (19.11.2008).
  • Basmajian JV., De Luca C.J., Muscles Alive. Their Function Revealed by Electromyography. Williams & Wilkens, s.39, 68, 95, Baltimore, 1985.
  • Soderberg GL., Cook TM., “Electromyography in biomechanics”, Phys. Ther., 64(12), pp.1813-1820, 1984.
  • http-5 Applications of surface electromyography in strength and conditioning, http://www.nsca-lift.org/HotTopic / download/EMG.pdf (19.11.2008).
  • http-6 Important factors in surface emg measurement, http://www.bortec.ca/ Images/pdf/EMG%20measurement %20 and%20recording.pdf (19.11.2008).
  • http-7 Seniam: Surface electromyography for the non-invasive assessment of muscles, http://www.seniam.org (10.10.2008).
  • Merletti R., “The standards for reporting EMG data”, J. Electromyogr. Kinesiol., 9, pp.1,1999.
  • Latash ML., Neurophysiological Basis of Movement, Human Kinetics, s.48-49, United States of America, 1998.
  • Miller DJ., “EMG normalization (Letters and Responses)”, Phys. Ther., 66 (2), pp.270 272, 1986.
  • Hof A., Elzinga H., Grimmius W., Halbertsma J., “Detection of non-standard EMG profiles in walking, Gait and Posture”, 21, pp.171–177, 2005.
  • Bogey R.A., Perry J., Gitter, AJ., “An EMG-to-force processing approach for determining ankle muscle forces during normal human gait”. IEEE Trans. Neural Syst. Rehabil. Eng., 13, pp.302–310, 2005.
  • LeVeau B., Andersson GBJ., Data analysis and applications ınterpretation of the electromyographic signal. In: Selected Topics In Surface Electromyography For Use In The Occupational Setting: Expert Perspectives, G.L., Soderberg (Eds). DHHS (NIOSH) Publication, No. 91-100, pp.10-102, 1992.
  • Cerrah AO., “Futbolda Farklı Vuruş Tekniklerinde Kassal Aktivasyonların Ve Top Hızı-İzokinetik Kuvvet İlişkisinin Değerlendirilmesi”. Yayımlanmamış yüksek lisans tezi. Eskişehir: Anadolu Üniversitesi, 2009.
  • Merletti, R., Parker, P. Electromyography. Hoboken, NJ: Wiley, s.IV, Canada, 2004.
  • Ertan H., Kentel B., Tümer ST., Korkusuz F., “Activation patterns in forearm muscles during archery shooting”. Human Movement Science, 22(1), pp.37-45, 2003.
  • Hatch GF., Pink MM., Mohr KJ., Sethi PM., Jobe FW, “The Effect of Tennis Racket Grip Size on Forearm Muscle Firing Patterns”, Am J Sports Med, 1(34), pp.1977-1983, 2006.
  • Aggarwal A., Shenoy S., Sandhu JS., Comparison of Lumbar and Abdominal Muscles Activation Pattern in two Different Skill Level Golf Players: An EMG Analysis, Med Sport., 12(4), pp.109-114, 2008
  • Maffet MW, Jobe FW, Pink MM, Brault J, Mathiyakom W., “Shoulder muscle firing patterns during the windmill softball pitch” Am J Sports Med., 25, pp.369–374, 1997.
  • Charnock BL, Lewis CL, Garrett WE., Queen RM., Adductor longus mechanics during the maximal effort soccer kick. Sports Biomech.8(3). pp.223-34. 2009.
  • Salci Y., Kentel BB., Heycan C., Akin S., Korkusuz F., “Comparison of landing maneuvers between male and female college volleyball players”. Clinical Biomechanics, 19, pp.622–628, 2004.
  • Ertan H., Soylu AR., Korkusuz F., Quantification the relationship between FITA scores and EMG skill indexes in archery, J. Electromyogr. Kinesiol., 15, pp. 222-227, 2005.

USE OF ELECTROMYOGRAPHY IN SPORT SCIENCE

Yıl 2010, Cilt: 8 Sayı: 2, 43 - 49, 01.06.2010
https://doi.org/10.1501/Sporm_0000000175

Öz

Even though surface electromyography (sEMG) is used as a tool in laboratory research for many years, it is started to used in kinesiology, rehabilitation, sports medicine, sports science and many branches of sport in the different purposes with the development of electrical, electronic, computer and biomedical areas of technology. The gathered data after EMG application provides information about; central control strategies, signal transmission along nerve fibers and across neuromuscular junctions, electrical activation of the muscle fibers organized in elementary motors and, through a chain of complex biochemical events, the production of forces acting on the tendons of the agonist and/or antagonist muscles and moving the bones. The EMG applications which muscular activation evaluated in sport sciences, is used for the aim of evaluation of the technical development, creating appropriate training programs, following improvement of athletes and talent identification. As surface EMG can be used individual measurement tool, it is used as supporting elements of the information that is gathered from image analyses, force plate, isokinetic dynamometer, etc. In line with this information, trainers and sport sciences can reveal different training approaches

Kaynakça

  • Cerny FJ., Burton HW., Exercise Physiology for Health Care Professionals, Human Kinetics, s.142, United States of America, 2001.
  • Wilmore JH., Costil DL., Physiology of Sport and Exercise, Human Kinetics, s. 45-53, 39-44, Hong Kong, 2004. 3. http-1:
  • Chusid JG., Correlative Neuroanatomy and Functional Neurology, Lange Medical, s.17-18, California, 1993.
  • Basmajian JV., Latif A., “Integrated actions and functions of the chief flexors of the elbow”, J. Bone Joint Surg, 39, pp.1106-1118, 1957.
  • Soderberg, G.L., Recording techniques. In: Selected topics in surface electromyography for use in the occupational setting: expert perspectives, G.L., Soderberg (Eds). DHHS (NIOSH) Publication, USA, No. 91-100, 24-41, (1992).
  • Mc Ardle WD., Katch FI., Katch VL., Exercise Physiology, Energy, Nurition and Human Performance, Lea and Febiyer, s.359, Philadelhia, 1981.
  • Jones NL., Mc Cartney N., Mc Comas AJ., Human Muscle Power, Human Kinetics, s.27, United States of America, 1986.
  • Powers SK., Howley ET., Exercise Physiology Theory and Application to Fitness and Performance, Mc Grow Hill, s.130-136, United States of America, 2001.
  • Brooks GA., Fahey TD., White TP., Baldwin KM., Exercise Physiology; Human Bioenergetics And Its Applications, Mc Grow Hill, s.339, United States of America, 2000.
  • Zatsiorsky VM., Biomechanics in Sport, Blackwell Science, s.56, United Kingdom, 2005.
  • Robertson T., Glover S., Senior Physical Education, Coghill Publishing, s.48-56, Australia, 1989.
  • Solomonow M., Barata R., Zhou BH., R D'Ambrosia., “Electromyogram coactivation patterns of the elbow antagonist muscles during slow isokinetic movement”. Exp. Neurol., 1, pp.470-477, 1988.
  • Barata R., Solomonow M., Zhou BH., Letson D., Churnard R., D'Ambrosia R., “Muscular coactivation: The role of antagonistic musculature in maintaining knee stability”, Am. J. Sports. Med., 16, pp.113-122, 1988.
  • Gans C., “Fiber architecture and muscle function”. Exercise and Sport Science Review, 10,pp.160-207,1982
  • http-2 Delsys, surface electromyography: detection and recording, http://serveroersted.dtu.dk/personal/jw/Courses/31 654/pdf/semgintro.pdf (16.11.2008).
  • De Luca CJ., “The use of surface electromyography in biomechanics, J. Appl. Biomech., 13(2),pp.135-163, 1997.
  • http-3 The ABC of EMG, http://reseau.risc.cnrs.fr/fichiers/apercu.php?numero=1 (18.11.2008).
  • Gerleman DG., Cook TM, Instrumentation, In: Selected topics in surface electromyography for use in the occupational setting: expert perspectives, GL., Soderberg (Eds). DHHS (NIOSH) Publication, USA, No. 91-100, pp.44-68, 1992.
  • Barkhause, PE., Nandekar SD., “Recording characteristics of the surface electrodes”, Muscle Nerve, 17(11), pp.1317-1323,1994.
  • http-4 Electromyography Fundamentals, myweb.facstaff.wwu.edu/chalmers/EMG fundamentals.pdf (19.11.2008).
  • Basmajian JV., De Luca C.J., Muscles Alive. Their Function Revealed by Electromyography. Williams & Wilkens, s.39, 68, 95, Baltimore, 1985.
  • Soderberg GL., Cook TM., “Electromyography in biomechanics”, Phys. Ther., 64(12), pp.1813-1820, 1984.
  • http-5 Applications of surface electromyography in strength and conditioning, http://www.nsca-lift.org/HotTopic / download/EMG.pdf (19.11.2008).
  • http-6 Important factors in surface emg measurement, http://www.bortec.ca/ Images/pdf/EMG%20measurement %20 and%20recording.pdf (19.11.2008).
  • http-7 Seniam: Surface electromyography for the non-invasive assessment of muscles, http://www.seniam.org (10.10.2008).
  • Merletti R., “The standards for reporting EMG data”, J. Electromyogr. Kinesiol., 9, pp.1,1999.
  • Latash ML., Neurophysiological Basis of Movement, Human Kinetics, s.48-49, United States of America, 1998.
  • Miller DJ., “EMG normalization (Letters and Responses)”, Phys. Ther., 66 (2), pp.270 272, 1986.
  • Hof A., Elzinga H., Grimmius W., Halbertsma J., “Detection of non-standard EMG profiles in walking, Gait and Posture”, 21, pp.171–177, 2005.
  • Bogey R.A., Perry J., Gitter, AJ., “An EMG-to-force processing approach for determining ankle muscle forces during normal human gait”. IEEE Trans. Neural Syst. Rehabil. Eng., 13, pp.302–310, 2005.
  • LeVeau B., Andersson GBJ., Data analysis and applications ınterpretation of the electromyographic signal. In: Selected Topics In Surface Electromyography For Use In The Occupational Setting: Expert Perspectives, G.L., Soderberg (Eds). DHHS (NIOSH) Publication, No. 91-100, pp.10-102, 1992.
  • Cerrah AO., “Futbolda Farklı Vuruş Tekniklerinde Kassal Aktivasyonların Ve Top Hızı-İzokinetik Kuvvet İlişkisinin Değerlendirilmesi”. Yayımlanmamış yüksek lisans tezi. Eskişehir: Anadolu Üniversitesi, 2009.
  • Merletti, R., Parker, P. Electromyography. Hoboken, NJ: Wiley, s.IV, Canada, 2004.
  • Ertan H., Kentel B., Tümer ST., Korkusuz F., “Activation patterns in forearm muscles during archery shooting”. Human Movement Science, 22(1), pp.37-45, 2003.
  • Hatch GF., Pink MM., Mohr KJ., Sethi PM., Jobe FW, “The Effect of Tennis Racket Grip Size on Forearm Muscle Firing Patterns”, Am J Sports Med, 1(34), pp.1977-1983, 2006.
  • Aggarwal A., Shenoy S., Sandhu JS., Comparison of Lumbar and Abdominal Muscles Activation Pattern in two Different Skill Level Golf Players: An EMG Analysis, Med Sport., 12(4), pp.109-114, 2008
  • Maffet MW, Jobe FW, Pink MM, Brault J, Mathiyakom W., “Shoulder muscle firing patterns during the windmill softball pitch” Am J Sports Med., 25, pp.369–374, 1997.
  • Charnock BL, Lewis CL, Garrett WE., Queen RM., Adductor longus mechanics during the maximal effort soccer kick. Sports Biomech.8(3). pp.223-34. 2009.
  • Salci Y., Kentel BB., Heycan C., Akin S., Korkusuz F., “Comparison of landing maneuvers between male and female college volleyball players”. Clinical Biomechanics, 19, pp.622–628, 2004.
  • Ertan H., Soylu AR., Korkusuz F., Quantification the relationship between FITA scores and EMG skill indexes in archery, J. Electromyogr. Kinesiol., 15, pp. 222-227, 2005.
Toplam 40 adet kaynakça vardır.

Ayrıntılar

Diğer ID JA82ZK46FN
Bölüm Araştırma Makalesi
Yazarlar

Ali Onur Cerrah Bu kişi benim

Hayri Ertan Bu kişi benim

A. Ruhi Soylu Bu kişi benim

Yayımlanma Tarihi 1 Haziran 2010
Yayımlandığı Sayı Yıl 2010 Cilt: 8 Sayı: 2

Kaynak Göster

APA Cerrah, A. O., Ertan, H., & Soylu, A. R. (2010). SPOR BİLİMLERİNDE ELEKTROMİYOGRAFİ KULLANIMI. SPORMETRE Beden Eğitimi Ve Spor Bilimleri Dergisi, 8(2), 43-49. https://doi.org/10.1501/Sporm_0000000175

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