Our understanding of the neural control of human walking has changed significantly over the
last twenty years and mobile brain imaging methods have contributed substantially to …

Electroencephalographic and magnetoencephalographic data have characterized two types
of brain–body interactions observed during various types of motor actions,“corticokinematic” …

Maintaining balance is a complex process requiring multisensory processing and
coordinated muscle activation. Previous studies have indicated that the cortex is directly …

When walking speed is increased, the frequency ratio between the arm and leg swing
switches spontaneously from 2: 1 to 1: 1. We examined whether these switches are …

Background: Neurological diseases are a leading cause of disability and mortality. Gait, or
human walking, is a significant predictor of quality of life, morbidity, and mortality. Gait …

Abstract Changes in human gait resulting from ageing or neurodegenerative diseases are
multifactorial. Here we assess the effects of age and Parkinson's disease (PD) on …

Coupling behavioral measures and brain imaging in naturalistic, ecological conditions is key
to comprehend the neural bases of spatial navigation. This highly integrative function …

We determined beta-band intermuscular (IMC) and corticomuscular coherence (CMC) as a
function of age and walking balance difficulty. Younger (n= 14, 23y) and older individuals …

Abstract Parkinson's Disease (PD)-typical declines in gait coordination are possibly
explained by weakness in bilateral cortical and muscular connectivity. Here, we seek to …

An important challenge in the study of functional corticomuscular coupling (FCMC) is an
accurate capture of the coupling relationship between the cerebral cortex and the effector …