Electric myographic control of electric therapeutic apparatus -ceragem master cgm 3500 influence on backbone of patients with scoliosis
DOI:
https://doi.org/10.15561/18189172.2015.0906Keywords:
scoliosis, muscles of back, physical rehabilitation, electric myographic controlAbstract
Purpose: determination of effectiveness of electric therapeutic apparatus Ceragem master CGM 3500 in its influence on backbone of patients with scoliosis. Material: in examination 11 female patients with scoliosis of age from 21 to 35 years and 12 practically healthy persons participated. The research of para-vertebral muscles of back was fulfilled with method of electric myography. Results: we determined positive effect in nervous-muscular functioning of back. The proof was increase of integrated amplitude of back muscles’ electric activity on convex and concave sides of scolytinae arc; increase of maximal amplitude of H-reflex and M-response. Conclusions: standard electric myography permits to receive objective information about functional state of muscles of patients with scoliosis and assess effectiveness of rehabilitation process with application of electric therapeutic apparatus - - Ceragem Master CGM 3500.References
<p>Adriianova EIu, Gorodnichev PM. <i>Elektromiograficheskie pokazateli i mekhanizmy razvitiia poiasnichno-krestcovogo osteokhondroza</i> [Electric myographic indicators and mechanisms of lumbar sacral osteochondrosis progressing], Great Luke, 2006. (in Russian)</p>
<p>Bojko AL, Rozorinov GN. Elektromiograficheskij kontrol' vozdejstviia elektrostimuliacii i elektrostaticheskogo polia pri lechenii osteokhondroza poiasnichno-krestcovogo otdela pozvonochnika [Electric myographic control of electric stimulation and electrostatic field impact in treatment of lumbar sacral osteochondrosis]. <i>Biomedicinskie pribory i sistemy</i>, 2010; 5: 185-188. (in Russian)</p>
<p>Burygina AA, Golubova TF. Sostoianie nervno-myshechnogo apparata u bol'nykh skoliozom v period adaptacii i kompleksnogo sanatorno-kurortnogo lecheniia [Status of nervous-muscular apparatus of patients with scoliosis in period of adaptation and complex sanatorium and resort treatment]. <i>Voprosy kurortologii, fizioterapii i lechebnoj fizkul'tury</i>, 1985; 3: 25-28. (in Russian)</p>
<p>Dudin MG, Pinchuk DIu. <i>Idiopaticheskij skolioz: nejrofiziologiia, nejrokhimiia</i>. [Idiopathic scoliosis: neuro-physiology, neuro-chemistry], St. Petersburg, Man; 2013 (in Russian)</p>
<p>Zajdman AM, Mikhajlovskij MV, Sadovoj MA. <i>Nejrofibromatoz i skolioz</i> [Neurofibromatosis and scoliosis], Novosibirsk: Science; 2011. (in Russian)</p>
<p>Zenkov LR, Ronki MA. <i>Funkcional'naia diagnostika nervnykh boleznej</i> [Functional diagnostics of nervous diseases], Moscow: MEDpress inform; 2004 (in Russian)</p>
<p>Lomaga IA, Mal'mberg SA. Progressiruiushchie skoliozy: nevrologicheskie aspekty [Progressing scoliosis: neurological aspects]. <i>Vestnik RGMU</i>, 2008; 6:56 – 59. (in Russian)</p>
<p>Makarova EV, Vilachev SO. Zastosuvannia aparata Ceragem Master CGM – M3500 v reabilitacijnikh ta ozdorovchikh zakhodakh [Application of apparatus Ceragem Master CGM – M3500 in rehabilitation and health related measures], <i>II Vseukrains'kij z’izd fakhivciv zi sportivnoi medicini ta likuval'noi fizkul'turi “Liudina, sport i zdorov’ia”</i> [II All-Ukrainian congress of specialists in sports medicine and therapeutic physical culture “Man, sports and health”], Kiev, 2008. p. 99–100. (in Ukrainian)</p>
<p>Shcherbin SL. Elektromiografiia, stabilometriia i pal'paciia - kak metody vyiavleniia raznicy dlin nizhnikh konechnostej i sedalishchnykh bugrov pri skolioze [Electric myography, stabilometry and palpation as the methods of detection of difference in length of lower limbs and ischial tuberosity with scoliosis]. <i>1-j vserossijskij s"ezd vosstanovitel'noj mediciny</i> [1st all-Russian congress of recreational medicine], Moscow: REASPOMED; 2007. p. 311-312. (in Russian)</p>
<p>Maksimova IuA, Il'in VN, Kolosova EV, Vilachev SO. Elektronejromiograficheskij kontrol' vozdejstviia elektroterapevticheskogo apparata «Ceragem Master CGM» na pozvonochnik sportsmenov [Electric-neuro-myographic control of electric therapeutic apparatus «Ceragem Master CGM» impact on backbone of sportsmen]. <i>Sportivna medicina</i>, 2008; 2:125–129. (in Ukrainian)</p>
<p>Korshunova TA, Norkin IA, Gerasimov VA. i dr. Elektronejromiograficheskoe issledovanie u bol'nykh skoliozom [Electric-neuro-myographic researches of patients with scoliosis]. <i>Simpozium detskikh travmatologov i ortopedov Rossii “Optimal'nye tekhnologii diagnostiki i lecheniia v detskoj travmatologii i ortopedii: Oshibki i oslozhneniia”, 17–19 sentiabria 2003 </i>[Symposium of pediatric traumatology and orthopedic specialists of Russia “Optimal technologies of diagnostic and treatment in pediatric traumatology and orthopedics: mistakes and complications”, September 17-19, 2003], Volgograd, 2003. p. 208. (in Russian).</p>
<p>Oliva-Pascual-Vaca Á, Heredia-Rizo AM, Barbosa-Romero A, Oliva-Pascual-Vaca J, Rodríguez-Blanco C, Tejero-García S. Assessment of paraspinal muscle hardness in subjects with a mild single scoliosis curve: a preliminary myotonometer study. <i>J Manipulative Physiol Ther.</i> 2014;37(5):326-33. http://dx.doi.org/10.1016/j.jmpt.2014.03.001.</p>
<p>Berven S, Bradford DS. Neuromuscular scoliosis: causes of deformity and principles for evaluation and management<i>. Semin Neurol.</i> 2002;22(2):167-78.</p>
<p>Brooks WJ, Krupinski EA, Hawes MC. Reversal of childhood idiopathic scoliosis in an adult, without surgery: a case report and literature review. <i>Scoliosis</i>. 2009;15;4:27. http://dx.doi.org/10.1186/1748-7161-4-27</p>
<p>Chwała W, Koziana A, Kasperczyk T, Walaszek R, Płaszewski M. Electromyographic assessment of functional symmetry of paraspinal muscles during static exercises in adolescents with idiopathic scoliosis. <i>Biomed Res Int.</i> 2014;5:732-776. http://dx.doi.org/10.1155/2014/573276.</p>
<p>de Oliveira AS, Gianini PE, Camarini PM, Bevilaqua-Grossi D. Electromyographic analysis of paravertebral muscles in patients with idiopathic scoliosis. <i>Spine</i>, 2011;36(5):334-339. http://dx.doi.org/10.1097/BRS.0b013e3181f516cd.</p>
<p>Chwała W, Płaszewski M, Kowalski P. Variations in bioelectric activity during symmetric loading and asymmetric stretching of paraspinal extensors in young adult women with mild single curve scoliosis. <i>Studies in Health Technology and Informatics.</i> 2012;176:129–132.</p>
<p>Gremeaux V, Casillas JM, Fabbro-Peray P, Pelissier J, Herisson C, Perennou D. Analysis of low back pain in adults with scoliosis. <i>Spine</i>. 2008;33:402–405. http://dx.doi.org/10.1097/BRS.0b013e318163fa42.</p>
<p>Miriutinova NF, Suleĭmanov RR. Peculiarities of clinical manifestations and physiotherapy of discogenic scoliosis in young subjects. <i>Vopr Kurortol Fizioter Lech Fiz Kult</i>. 2011;5:6-10.</p>
<p>Marty-Poumarat C, Scattin L, Marpeau M, Garreau de Loubresse C. Natural history of progressive adult scoliosis. <i>Spine</i>. 2007;32:1227–1234.</p>
<p>Schmid AB, Dyer L, Böni T, Held U, Brunner F. Paraspinal muscle activity during symmetrical and asymmetrical weight training in idiopathic scoliosis. <i>Journal of Sport Rehabilitation</i>. 2010;19(3):315–327.</p>
<p>Bojko AL, Rozorinov GN. Elektromiograficheskij kontrol' vozdejstviia elektrostimuliacii i elektrostaticheskogo polia pri lechenii osteokhondroza poiasnichno-krestcovogo otdela pozvonochnika [Electric myographic control of electric stimulation and electrostatic field impact in treatment of lumbar sacral osteochondrosis]. <i>Biomedicinskie pribory i sistemy</i>, 2010; 5: 185-188. (in Russian)</p>
<p>Burygina AA, Golubova TF. Sostoianie nervno-myshechnogo apparata u bol'nykh skoliozom v period adaptacii i kompleksnogo sanatorno-kurortnogo lecheniia [Status of nervous-muscular apparatus of patients with scoliosis in period of adaptation and complex sanatorium and resort treatment]. <i>Voprosy kurortologii, fizioterapii i lechebnoj fizkul'tury</i>, 1985; 3: 25-28. (in Russian)</p>
<p>Dudin MG, Pinchuk DIu. <i>Idiopaticheskij skolioz: nejrofiziologiia, nejrokhimiia</i>. [Idiopathic scoliosis: neuro-physiology, neuro-chemistry], St. Petersburg, Man; 2013 (in Russian)</p>
<p>Zajdman AM, Mikhajlovskij MV, Sadovoj MA. <i>Nejrofibromatoz i skolioz</i> [Neurofibromatosis and scoliosis], Novosibirsk: Science; 2011. (in Russian)</p>
<p>Zenkov LR, Ronki MA. <i>Funkcional'naia diagnostika nervnykh boleznej</i> [Functional diagnostics of nervous diseases], Moscow: MEDpress inform; 2004 (in Russian)</p>
<p>Lomaga IA, Mal'mberg SA. Progressiruiushchie skoliozy: nevrologicheskie aspekty [Progressing scoliosis: neurological aspects]. <i>Vestnik RGMU</i>, 2008; 6:56 – 59. (in Russian)</p>
<p>Makarova EV, Vilachev SO. Zastosuvannia aparata Ceragem Master CGM – M3500 v reabilitacijnikh ta ozdorovchikh zakhodakh [Application of apparatus Ceragem Master CGM – M3500 in rehabilitation and health related measures], <i>II Vseukrains'kij z’izd fakhivciv zi sportivnoi medicini ta likuval'noi fizkul'turi “Liudina, sport i zdorov’ia”</i> [II All-Ukrainian congress of specialists in sports medicine and therapeutic physical culture “Man, sports and health”], Kiev, 2008. p. 99–100. (in Ukrainian)</p>
<p>Shcherbin SL. Elektromiografiia, stabilometriia i pal'paciia - kak metody vyiavleniia raznicy dlin nizhnikh konechnostej i sedalishchnykh bugrov pri skolioze [Electric myography, stabilometry and palpation as the methods of detection of difference in length of lower limbs and ischial tuberosity with scoliosis]. <i>1-j vserossijskij s"ezd vosstanovitel'noj mediciny</i> [1st all-Russian congress of recreational medicine], Moscow: REASPOMED; 2007. p. 311-312. (in Russian)</p>
<p>Maksimova IuA, Il'in VN, Kolosova EV, Vilachev SO. Elektronejromiograficheskij kontrol' vozdejstviia elektroterapevticheskogo apparata «Ceragem Master CGM» na pozvonochnik sportsmenov [Electric-neuro-myographic control of electric therapeutic apparatus «Ceragem Master CGM» impact on backbone of sportsmen]. <i>Sportivna medicina</i>, 2008; 2:125–129. (in Ukrainian)</p>
<p>Korshunova TA, Norkin IA, Gerasimov VA. i dr. Elektronejromiograficheskoe issledovanie u bol'nykh skoliozom [Electric-neuro-myographic researches of patients with scoliosis]. <i>Simpozium detskikh travmatologov i ortopedov Rossii “Optimal'nye tekhnologii diagnostiki i lecheniia v detskoj travmatologii i ortopedii: Oshibki i oslozhneniia”, 17–19 sentiabria 2003 </i>[Symposium of pediatric traumatology and orthopedic specialists of Russia “Optimal technologies of diagnostic and treatment in pediatric traumatology and orthopedics: mistakes and complications”, September 17-19, 2003], Volgograd, 2003. p. 208. (in Russian).</p>
<p>Oliva-Pascual-Vaca Á, Heredia-Rizo AM, Barbosa-Romero A, Oliva-Pascual-Vaca J, Rodríguez-Blanco C, Tejero-García S. Assessment of paraspinal muscle hardness in subjects with a mild single scoliosis curve: a preliminary myotonometer study. <i>J Manipulative Physiol Ther.</i> 2014;37(5):326-33. http://dx.doi.org/10.1016/j.jmpt.2014.03.001.</p>
<p>Berven S, Bradford DS. Neuromuscular scoliosis: causes of deformity and principles for evaluation and management<i>. Semin Neurol.</i> 2002;22(2):167-78.</p>
<p>Brooks WJ, Krupinski EA, Hawes MC. Reversal of childhood idiopathic scoliosis in an adult, without surgery: a case report and literature review. <i>Scoliosis</i>. 2009;15;4:27. http://dx.doi.org/10.1186/1748-7161-4-27</p>
<p>Chwała W, Koziana A, Kasperczyk T, Walaszek R, Płaszewski M. Electromyographic assessment of functional symmetry of paraspinal muscles during static exercises in adolescents with idiopathic scoliosis. <i>Biomed Res Int.</i> 2014;5:732-776. http://dx.doi.org/10.1155/2014/573276.</p>
<p>de Oliveira AS, Gianini PE, Camarini PM, Bevilaqua-Grossi D. Electromyographic analysis of paravertebral muscles in patients with idiopathic scoliosis. <i>Spine</i>, 2011;36(5):334-339. http://dx.doi.org/10.1097/BRS.0b013e3181f516cd.</p>
<p>Chwała W, Płaszewski M, Kowalski P. Variations in bioelectric activity during symmetric loading and asymmetric stretching of paraspinal extensors in young adult women with mild single curve scoliosis. <i>Studies in Health Technology and Informatics.</i> 2012;176:129–132.</p>
<p>Gremeaux V, Casillas JM, Fabbro-Peray P, Pelissier J, Herisson C, Perennou D. Analysis of low back pain in adults with scoliosis. <i>Spine</i>. 2008;33:402–405. http://dx.doi.org/10.1097/BRS.0b013e318163fa42.</p>
<p>Miriutinova NF, Suleĭmanov RR. Peculiarities of clinical manifestations and physiotherapy of discogenic scoliosis in young subjects. <i>Vopr Kurortol Fizioter Lech Fiz Kult</i>. 2011;5:6-10.</p>
<p>Marty-Poumarat C, Scattin L, Marpeau M, Garreau de Loubresse C. Natural history of progressive adult scoliosis. <i>Spine</i>. 2007;32:1227–1234.</p>
<p>Schmid AB, Dyer L, Böni T, Held U, Brunner F. Paraspinal muscle activity during symmetrical and asymmetrical weight training in idiopathic scoliosis. <i>Journal of Sport Rehabilitation</i>. 2010;19(3):315–327.</p>
Downloads
Published
2015-09-28
How to Cite
1.
Kupreenko MV. Electric myographic control of electric therapeutic apparatus -ceragem master cgm 3500 influence on backbone of patients with scoliosis. Pedagogics, psychology, medical-biological problems of physical training and sports. 2015;19(9):38-44. https://doi.org/10.15561/18189172.2015.0906
Issue
License
Copyright Holder - Author(s).
Authors who publish with this journal agree to the following terms: more
Statistics
Abstract views: 1342 / PDF downloads: 450
