Barss, Trevor S.Collins, David F.Miller, DylanPujari, Amit N.2021-06-042021-06-042021-05-17Barss, T S, Collins, D F, Miller, D & Pujari, A N 2021, 'Indirect Vibration of the Upper Limbs Alters Transmission Along Spinal but Not Corticospinal Pathways', Frontiers in Human Neuroscience, vol. 15, 617669. https://doi.org/10.3389/fnhum.2021.6176691662-5161Jisc: b3cdb7a259aa47a2937f3257231597f1ORCID: /0000-0003-1688-4448/work/95223232Jisc: af2972df5ebf4482b9ad6065b0a80631https://hdl.handle.net/2164/16628Funding Support for this research was provided by the Churchill Travelling Fellowship through Winston Churchill Memorial Trust (to AP) and a Campus Alberta Neuroscience Postdoctoral Fellowship (TB). The vibration stimulation device used in this work was supported by funding from the Scottish Funding Council, United Kingdom (SFC) (to AP). Acknowledgments The authors wish to acknowledge the participants for their contributions during data acquisition.114141206engHuman Neuroscienceindirect vibrationH-reflexcutaneous reflexmotor evoked potentialelectromyographytranscranial magnetic stimulationsensorimotor integrationupper limb vibrationTranscranial magnetic stimulationUpper Limb VibrationMotor Evoked PotentialCutaneous ReflexSensorimotor IntegrationIndirect VibrationElectromyographyQP PhysiologyQPJournal article10.3389/fnhum.2021.61766915