¿Desempeña un papel decisivo la excitabilidad corticoespinal ipsilateral en el efecto cruzado provocado por el entrenamiento de fuerza unilateral? Una revisión sistemática / Does ipsilateral corticospinal excitability play a decisive role in the cross-education effect caused by unilateral resistance training? A systematic review

Introducción: El entrenamiento de fuerza unilateral ha demostrado provocar aumentos de fuerza tanto en la extremidad entrenada como en la no entrenada. Una de las teorías actuales más aceptadas defiende que el origen de dicho aumento de rendimiento se encuentra en adaptaciones en el sistema nervioso, concretamente en la corteza motora primaria, siendo los aumentos en la excitabilidad corticoespinal (EC) medida con estimulación magnética transcraneal una de las principales adaptaciones observadas tras periodos crónicos de entrenamiento. Por ello, el principal objetivo es hacer un análisis de la literatura actual para determinar el grado de adaptación que se da en la EC y su posible relación funcional con el aumento de fuerza de la extremidad no entrenada.DesarrolloSe llevó a cabo una búsqueda sistemática en la literatura existente entre enero de 1970 hasta diciembre de 2016 en las bases de datos online Medline (vía PubMed), Ovid, Web of Science y Science Direct con la siguiente estrategia de búsqueda: (Transcranial magnetic stimulation OR excitability) Y (strength training OR resistance training or force) Y (cross transfer OR contralateral limb OR cross education). Finalmente se incluyeron un total de 10 artículos.ConclusionesExiste cierta inconsistencia en los resultados referentes al aumento de la EC. Aunque no se puede descartar que dicha inconsistencia se deba a aspectos metodológicos, los resultados parecen indicar que el aumento de fuerza y el incremento en la EC podrían no estar funcionalmente relacionados. (AU)

Introduction: Unilateral resistance training has been shown to improve muscle strength in both the trained and the untrained limb. One of the most widely accepted theories is that this improved performance is due to nervous system adaptations, specifically in the primary motor cortex. According to this hypothesis, increased corticospinal excitability (CSE), measured with transcranial magnetic stimulation, is one of the main adaptations observed following prolonged periods of training. The principal aim of this review is to determine the degree of adaptation of CSE and its possible functional association with increased strength in the untrained limb.DevelopmentWe performed a systematic literature review of studies published between January 1970 and December 2016, extracted from Medline (via PubMed), Ovid, Web of Science, and Science Direct online databases. The search terms were as follows: (transcranial magnetic stimulation OR excitability) AND (strength training OR resistance training OR force) AND (cross transfer OR contralateral limb OR cross education). A total of 10 articles were found.ConclusionResults regarding increased CSE were inconsistent. Although the possibility that the methodology had a role in this inconsistency cannot be ruled out, the results appear to suggest that there may not be a functional association between increases in muscle strength and in CSE. (AU)

Does ipsilateral corticospinal excitability play a decisive role in the cross-education effect caused by unilateral resistance training? A systematic review. / ¿Desempeña un papel decisivo la excitabilidad corticoespinal ipsilateral en el efecto cruzado provocado por el entrenamiento de fuerza unilateral? Una revisión sistemática.

INTRODUCTION: Unilateral resistance training has been shown to improve muscle strength in both the trained and the untrained limb. One of the most widely accepted theories is that this improved performance is due to nervous system adaptations, specifically in the primary motor cortex. According to this hypothesis, increased corticospinal excitability (CSE), measured with transcranial magnetic stimulation, is one of the main adaptations observed following prolonged periods of training. The principal aim of this review is to determine the degree of adaptation of CSE and its possible functional association with increased strength in the untrained limb. DEVELOPMENT: We performed a systematic literature review of studies published between January 1970 and December 2016, extracted from Medline (via PubMed), Ovid, Web of Science, and Science Direct online databases. The search terms were as follows: (transcranial magnetic stimulation OR excitability) AND (strength training OR resistance training OR force) AND (cross transfer OR contralateral limb OR cross education). A total of 10 articles were found. CONCLUSION: Results regarding increased CSE were inconsistent. Although the possibility that the methodology had a role in this inconsistency cannot be ruled out, the results appear to suggest that there may not be a functional association between increases in muscle strength and in CSE.