BACKGROUND: Early interventions maximizing patient's involvement are essential to promote gait restoration and motor recovery after stroke.AIM: The aim of this study is to evaluate the effects of a multimodal biofeedback training involving cycling augmented by functional electrical stimulation (FES) and balance exercises on walking ability and motor recovery.DESIGN: Randomized controlled trial (NCT02439515).SETTING: Inpatient rehabilitation facility.POPULATION: Subacute stroke survivors (less than 6 months from the first event) aged up to 90 years old.METHODS: Sixty-eight participants were randomly allocated to an experimental group, performing 15 sessions of biofeedback FES-cycling training followed by 15 sessions of biofeedback balance tr...
Among the new rehabilitation strategies aimed at improving independent walking after stroke, the bod...
BACKGROUND: Muscle synergies analysis can provide a deep understanding of motor impairment after str...
Background. Many stroke survivors suffer from leg muscle paresis, resulting in asymmetrical gait pat...
BACKGROUND: Early interventions maximizing patient's involvement are essential to promote gait resto...
Early interventions maximizing patient's involvement are essential to promote gait restoration and m...
AbstractThis study aimed to investigate the effectiveness of biofeedback cycling training on lower l...
Background. This study was designed to determine whether or not gait training based on the use of tr...
BACKGROUND: Many stroke survivors suffer from paresis of lower limb muscles, resulting in compensato...
BACKGROUND AND PURPOSE - This study aimed to assess the effectiveness of gait training using an elec...
Walking function disorders are typical for patients after cerebral stroke. Biofeedback technology (B...
Objective: To determine if the inclusion of visual biofeedback in physiotherapy rehabilitation sessi...
BackgroundEvidence-based guidelines are needed to inform rehabilitation practice, including the effe...
Background. Locomotor training using partial body weight– supported treadmill (BWST) walking has bee...
Among the new rehabilitation strategies aimed at improving independent walking after stroke, the bod...
BACKGROUND: Muscle synergies analysis can provide a deep understanding of motor impairment after str...
Background. Many stroke survivors suffer from leg muscle paresis, resulting in asymmetrical gait pat...
BACKGROUND: Early interventions maximizing patient's involvement are essential to promote gait resto...
Early interventions maximizing patient's involvement are essential to promote gait restoration and m...
AbstractThis study aimed to investigate the effectiveness of biofeedback cycling training on lower l...
Background. This study was designed to determine whether or not gait training based on the use of tr...
BACKGROUND: Many stroke survivors suffer from paresis of lower limb muscles, resulting in compensato...
BACKGROUND AND PURPOSE - This study aimed to assess the effectiveness of gait training using an elec...
Walking function disorders are typical for patients after cerebral stroke. Biofeedback technology (B...
Objective: To determine if the inclusion of visual biofeedback in physiotherapy rehabilitation sessi...
BackgroundEvidence-based guidelines are needed to inform rehabilitation practice, including the effe...
Background. Locomotor training using partial body weight– supported treadmill (BWST) walking has bee...
Among the new rehabilitation strategies aimed at improving independent walking after stroke, the bod...
BACKGROUND: Muscle synergies analysis can provide a deep understanding of motor impairment after str...
Background. Many stroke survivors suffer from leg muscle paresis, resulting in asymmetrical gait pat...