Neuro-Physiological Adaptations Associated with Cross-Education of Strength

Farthing, Jonathan P.; Borowsky, Ron; Chilibeck, Philip D.; Binsted, Gordon; Sarty, Gordon E.

doi:10.1007/s10548-007-0033-2

Cited by 118 publications

(132 citation statements)

References 51 publications

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“…Given that much of the cross-education literature has only considered cross-education effects following unilateral strength training of the dominant right limb (Farthing et al 2007;Hortobagyi et al 2011;Kidgell et al 2011;Lee et al 2009), the objective of this study was to examine the directionality effects of crosseducation following unilateral strength training of either the dominant or non-dominant wrist in right-handed individuals. A secondary objective was to examine the corticospinal responses associated with unilateral strength training and cross-education.…”

Section: Introductionmentioning

confidence: 99%

Cross-education of wrist extensor strength is not influenced by non-dominant training in right-handers

et al. 2016

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2 ABSTRACTPurpose: Cross-education of strength has been proposed to be greater when completed by the dominant limb in right handed humans. We investigated whether the direction of cross-education of strength and corticospinal plasticity are different following right or left limb strength training in right-handed participants. Methods: Changes in strength, muscle thickness and indices of corticospinal plasticity were analyzed in 23 adults who were exposed to 3-weeks of either right-hand strength training (RHT) or left-hand strength training (LHT). Results: Maximum voluntary wrist extensor strength in both the trained and untrained limb increased, irrespective of which limb was trained, with TMS revealing reduced corticospinal inhibition. Conclusions: Cross-education of strength was not limited by which limb was trained and reduced corticospinal inhibition was not just confined to the trained limb.Critically, from a behavioral perspective, the magnitude of cross-education was not limited by which limb was trained.

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Section: Introductionmentioning

confidence: 99%

Cross-education of wrist extensor strength is not influenced by non-dominant training in right-handers

et al. 2016

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“…Our results have shown that MIT training also added benefits to improve paretic muscle strength in hip flexors and extensors, knee extensors and dorsiflexors. Neural adaptation is a key factor for strength gain in voluntary skeletal muscle training [36]. Earlier studies on MIT and muscle strength had shown that mental practice with motor imagery actively changes in central programming process such as motor planning which enhances for neural adaptation for maximal voluntary contraction (MVC) [37] and also kinesthetic imagery training could alter the greater activation in motor units which may attribute for our present findings [38][39][40].…”

Section: Discussionmentioning

confidence: 54%

Motor Imagery Training on Muscle Strength and Gait Performance in Ambulant Stroke Subjects: A Randomized Clinical Trial

Kumar

2015

Archives of Physical Medicine and Rehabilitation

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“…Many related studies have been undertaken recently, as cross-training can strengthen the muscular power of body parts that are hard to train directly 12) . These studies have shown that muscular and endurance training for limbs of one side can enhance the muscular power, function, and endurance of the limbs on the other side due to the interlateral transfer of training 13) and can enhance their performance function 14) . Muun et al (2004) conducted a meta-analysis to examine the effect of training on one side on muscular strength of the other side and reported that cross-training can be effective.…”

Section: Discussionmentioning

confidence: 99%

The Effects of Self-induced and Therapist-assisted Lower-limb PNF Pattern Training on the Activation of Contralateral Muscles

Park

et al. 2012

J Phys Ther Sci

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Abstract.[Purpose] The purpose of this study was to compare the effects of therapist-assisted and self-induced lower-limb PNF pattern training on the activation of contralateral muscles, with the objective of discovering whether self-led PNF pattern training can be effective.[Subjects] Six male and 15 female students participated in the experiment; after being introduced to the methods, they voluntarily signed a consent form.[Method] Members of the self-led treadmill exercise group went through three sets of extension, abduction, and internal rotation-the lower-limb pattern of PNF training-according to a researcher's spoken instructions. The other group went through three sets of the same exercises, receiving direct resistance training from a therapist. A surface EMG was used for measurement, and the average values of three measurements were used for both groups. [Result] In the treadmill group, muscular activation of the opposite-side lower limbs showed a significant difference. There were also changes in muscular activation in the PNF pattern group conducted by a therapist. It was found that muscular activation of the gastrocnemius was higher in the group that received training from a therapist, while semitendinosus activation was higher in the self-led treadmill group. [Conclusion] In conclusion, these findings suggest that PNF training on a treadmill can be effective in promoting muscular activation of the contralateral semitendinosus, while therapist-led PNF training promotes muscular activation of the gastrocnemius. Overall, lower-limb PNF pattern training of one side of the body can be an effective treatment method for promoting muscular activation of the opposite side.

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Neuro-Physiological Adaptations Associated with Cross-Education of Strength

Cited by 118 publications

References 51 publications

Cross-education of wrist extensor strength is not influenced by non-dominant training in right-handers

Cross-education of wrist extensor strength is not influenced by non-dominant training in right-handers

Motor Imagery Training on Muscle Strength and Gait Performance in Ambulant Stroke Subjects: A Randomized Clinical Trial

The Effects of Self-induced and Therapist-assisted Lower-limb PNF Pattern Training on the Activation of Contralateral Muscles

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