Rating of intra-operative neuro-monitoring results in operative correction of the spinal deformities

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Purpose of the work was filing the electrophysiological phenomena observed in the process of intra-operative neuromonitoring followed by development of the results’ scale of intra-operative neuro-physiological testing of the pyramidal tract. Materials and мethods. The selection for evaluation included data of 147 protocols of intra-operative neuromonitoring in 135 patients (53 males, 82 females), aged from 1 y. 5 m. to 52 years (14,1±0,7 years) with spinal deformities of different etiology who underwent instrumentation spinal correction followed by fixation of thoracic / thoracolumbar spine segments using various variants of internal systems of trans-pedicular fixation. Intra-operative neuro-monitoring was performed using system «ISIS IOM» (Inomed Medizintechnik GmbH, Germany). The changes of motor evoked potentials were evaluated according to this scale. Results. Five types of pyramidal system reaction to operative invasion were revealed. According to neurophysiological criteria three grades of the risk of neurological disorders development during operative spinal deformity correction and, correspondingly, three levels of anxiety for the surgeon were defined. Conclusion. Intra-operative neurophysiological monitoring is the effective highly technological instrument to prevent neurological disorders in the spinal deformity. Offered rating scale of the risk of neurological complications gives the possibility to highlight three levels of anxiety during operative invasion.

作者简介

A. Skripnikov

Ilizarov Russian Scientific Center «Restorative Traumatology and Orthopedics»

编辑信件的主要联系方式.
Email: skripnikov2007@mail.ru
researcher of the laboratory of axial skeleton pathology and neurosurgery 俄罗斯联邦

M. Saiphutdinov

Ilizarov Russian Scientific Center «Restorative Traumatology and Orthopedics»

Email: fake@neicon.ru
leading researcher of laboratory of axial skeleton pathology and neurosurgery 俄罗斯联邦

S. Ryabykh

Ilizarov Russian Scientific Center «Restorative Traumatology and Orthopedics»

Email: fake@neicon.ru
head of laboratory of axial skeleton pathology and neurosurgery 俄罗斯联邦

G. Krivoruchko

Ilizarov Russian Scientific Center «Restorative Traumatology and Orthopedics»

Email: fake@neicon.ru
senior researcher of laboratory of axial skeleton pathology and neurosurgery, 俄罗斯联邦

A. Shein

Ilizarov Russian Scientific Center «Restorative Traumatology and Orthopedics»

Email: fake@neicon.ru
professor leading researcher of laboratory of axial skeleton pathology and neurosurgery 俄罗斯联邦

参考

  1. Команцев В.Н., Заболотных В.А. Методические основы клинической электронейромиографии. СПб.: Лань; 2001. 349 с.
  2. Новиков В.В., Новикова М.В., Цветовский С.Б., Лебедева М.Н., Михайловский М.В., Васюра А.С., Долотин Д.Н., Удалова И.Г. Профилактика неврологических осложнений при хирургической коррекции грубых деформаций позвоночника. Хирургия позвоночника. 2011; (3):66-76.
  3. Рябых С.О., Савин Д.М., Медведева С.Н., Губина Е.Б. Опыт лечения нейрогенных деформаций позвоночника. Гений ортопедии. 2013; (1):87-92.
  4. Рябых С.О. Применение двойного деротационного маневра для коррекции сколиозов тяжелой степени. Гений ортопедии. 2013; (4):71-75.
  5. Рябых С.О., Савин Д.М., Третьякова А.Н. Хирургия тяжелых комбинированных кифозов на фоне миелоцеле: первый отечественный опыт. Хирургия позвоночника. 2014; (1):65-70.
  6. Рябых С.О. Алгоритм выбора хирургической тактики при врожденных деформациях позвоночника на фоне множественных пороков позвонков. Хирургия позвоночника. 2014; (2):21-28.
  7. Хить М.А., Колесов С.В., Колбовский Д.А., Морозова Н.С. Роль интраоперационного нейрофизиологического мониторинга в предотвращении развития послеоперационных неврологических осложнений в хирургии сколиотической деформации позвоночника. Нервно-мышечные болезни. 2014; (2):36-41.
  8. Gibson P.R.J. Anaesthesia for correction of scoliosis in children. Anaesth Intensive Care. 2004; 32:548-559.
  9. H su B., Cree A.K., Lagopoulos J., Cummine J.L. Transcranial motor-evoked potentials combined with response recording through compound muscle action potential as the sole modality of spinal cord monitoring in spinal deformity surgery. Spine. 2008; 33:1100-1106.
  10. Koruk S., Mizrak A., Kaya B. et al. Propofol/dexmedetomidine and propofol/ketamine combinations for anesthesia in pediatric patients undergoing transcatheter atrial septal defect closure: a prospective randomized study. Clin Ther. 2010; 32:701-709.
  11. Pelosi L., Lamb J., Grevitt M, et al. Combined monitoring of motor and somatosensory evoked potentials in orthopaedic spinal surgery. Clin Neurophysiol. 2002; 113:1082-1091.

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