Effects of supraspinal feedback on human gait: rhythmic auditory distortion

Forner-Cordero, Arturo; Pinho, João Pedro; Umemura, Guilherme Silva; Lourenço, João Carlos; Mezêncio, Bruno; Itiki, Cinthia; Krebs, Hermano Igo

doi:10.1186/s12984-019-0632-7

Cited by 8 publications

(14 citation statements)

References 41 publications

(59 reference statements)

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“…Therapy satisfaction has recently been shown by Wang et al (2021) to be higher when music-based stimulation is used [ 41 ]. In order to maintain the metronome rhythm, gait speed is adapted subconsciously but Forner-Cornero et al (2019) found that the relation between the foot contact and the sound cue showed a mean error which increased when frequencies changed [ 42 ]. When frequencies changes from baseline, the foot contact tend to be before the sound cue.…”

Section: Discussionmentioning

confidence: 99%

“…When frequencies changes from baseline, the foot contact tend to be before the sound cue. Forner-Cornero suggested that two processes might be involved in rhythm entrainment, one a slow-adapting, supraspinal oscillator, which predicts the foot contact, and a second fast process related to sensory inputs, which adapts peripheral sensory input (foot contact) and supraspinal sensory input (auditory rhythm) [ 42 ]. Studies into supraspinal feedback errors with a music-based rhythmic auditory stimulation should be planned in future research.…”

Section: Discussionmentioning

confidence: 99%

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Effects of a Music-Based Rhythmic Auditory Stimulation on Gait and Balance in Subacute Stroke

Gonzalez-Hoelling

Bertrán-Noguer

Reig‐Garcia

et al. 2021

IJERPH

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Gait and balance impairments are common after stroke. This study aimed to evaluate the effect of a music-based rhythmic auditory stimulation (RAS) in combination with conventional physiotherapy on gait parameters and walking ability in subacute stroke. This single-blind, historical controlled trial, included 55 patients who had suffered a stroke within the three weeks prior to enrolment. Patients from 2018 (n = 27) were assigned as the historical control group whereas 2019 patients (n = 28) received music-based RAS three times a week. Both groups received 11 h of conventional physiotherapy per week during hospitalization. Primary outcomes were gait and balance parameters (Tinetti test and Timed Up&Go test) and walking ability (Functional Ambulation Category scale). Secondary outcomes were trunk control, assistive devices, functional independence (Functional Independence Measure, Barthel index), and stroke severity and disability (modified Rankin scale, National Institutes of Health Stroke Scale). Results: No between-group differences were identified for gait and balance parameters nor for secondary outcomes. Significant between-group differences were observed in the Functional Ambulation Category: the intervention group (Δmean ± SD; 3.43 ± 1.17) showed greater improvement (p = 0.002) than the control group (Δmean ± SD; 2.48 ± 1.09). Compared with conventional physiotherapy alone, our results suggest that the walking ability of subacute stroke patients might be improved with music-based RAS combined with conventional physiotherapy, but this treatment is not more effective than conventional physiotherapy in obtaining gait and balance gains.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Effects of a Music-Based Rhythmic Auditory Stimulation on Gait and Balance in Subacute Stroke

Gonzalez-Hoelling

Bertrán-Noguer

Reig‐Garcia

et al. 2021

IJERPH

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“…When the RAC frequency increases, the asynchrony between the stimulus and response decreases because the response is usually “advanced” with respect to the stimulus. On the other hand, when the RAC frequency decreases, the asynchrony increases 34 .…”

Section: Methodsmentioning

confidence: 99%

“…Therefore, the subliminal RAC changes could be used to “probe” the gait control system under sleep deprivation. We employed this unique paradigm that we previously developed 34 to provide a basic RAC at a given frequency and then applied the changes of increasing and decreasing frequencies at very small increments (1 ms). The rhythm is maintained for a time interval before returning to the original RAC frequency.…”

Section: Introductionmentioning

confidence: 99%

Sleep deprivation affects gait control

Umemura

Pinho

Duysens

et al. 2021

Sci Rep

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Different levels of sleep restriction affect human performance in multiple aspects. However, it is unclear how sleep deprivation affects gait control. We applied a paced gait paradigm that included subliminal rhythm changes to analyze the effects of different sleep restriction levels (acute, chronic and control) on performance. Acute sleep deprivation (one night) group exhibited impaired performance in the sensorimotor synchronization gait protocol, such as a decrease in the Period Error between the footfalls and the auditory stimulus as well as missing more frequently the auditory cues. The group with chronic sleep restriction also underperformed when compared to the control group with a tendency to a late footfall with respect to the RAC sound. Our results suggest that partial or total sleep deprivation leads to a decrease in the performance in the sensorimotor control of gait. The superior performance of the chronic sleep group when compared to the acute group suggests that there is a compensatory mechanism that helps to improve motor performance.

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“…As a result, one proposed approach has been to exploit the sensorimotor synchronization paradigm ( Repp, 2005 ; Torre et al, 2010 ), which evaluates a subject’s ability to match the rhythmic oscillations of a limb with an external (often auditory) stimulus, including infrequent temporal perturbations (where beats are presented earlier or later than expected). This paradigm therefore challenges the individual’s inherent rhythmicity during walking and assesses the elicited adaptive motor responses ( Chen et al, 2006 ; Roerdink et al, 2009 ; Pelton et al, 2010 ; Wagner et al, 2016 ; Forner-Cordero et al, 2019 ). The methodology has, in essence, several positive aspects: the effect of altering rhythms on walking behavior can provide controlled and reproducible access to non-steady-state behavior as encountered in the real-world (e.g., walking on uneven terrains, negotiating obstacles, etc.).…”

Section: Introductionmentioning

confidence: 99%

Adapting Footfall Rhythmicity to Auditory Perturbations Affects Resilience of Locomotor Behavior: A Proof-of-Concept Study

et al. 2021

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For humans, the ability to effectively adapt footfall rhythm to perturbations is critical for stable locomotion. However, only limited information exists regarding how dynamic stability changes when individuals modify their footfall rhythm. In this study, we recorded 3D kinematic activity from 20 participants (13 males, 18–30 years old) during walking on a treadmill while synchronizing with an auditory metronome sequence individualized to their baseline walking characteristics. The sequence then included unexpected temporal perturbations in the beat intervals with the subjects required to adapt their footfall rhythm accordingly. Building on a novel approach to quantify resilience of locomotor behavior, this study found that, in response to auditory perturbation, the mean center of mass (COM) recovery time across all participants who showed deviation from steady state (N = 15) was 7.4 (8.9) s. Importantly, recovery of footfall synchronization with the metronome beats after perturbation was achieved prior (+3.4 [95.0% CI +0.1, +9.5] s) to the recovery of COM kinematics. These results highlight the scale of temporal adaptation to perturbations and provide implications for understanding regulation of rhythm and balance. Thus, our study extends the sensorimotor synchronization paradigm to include analysis of COM recovery time toward improving our understanding of an individual’s resilience to perturbations and potentially also their fall risk.

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Effects of supraspinal feedback on human gait: rhythmic auditory distortion

Cited by 8 publications

References 41 publications

Effects of a Music-Based Rhythmic Auditory Stimulation on Gait and Balance in Subacute Stroke

Effects of a Music-Based Rhythmic Auditory Stimulation on Gait and Balance in Subacute Stroke

Sleep deprivation affects gait control

Adapting Footfall Rhythmicity to Auditory Perturbations Affects Resilience of Locomotor Behavior: A Proof-of-Concept Study

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