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UnknownNCT05786261

Exercise and Plasticity in Parkinson Disease

Exercise and Plasticity in PD: Functional and Structural Evidence in the Cortex and the Spinal Cord

Status
Unknown
Phase
N/A
Study type
Interventional
Enrollment
30 (estimated)
Sponsor
IRCCS Centro Neurolesi Bonino Pulejo · Academic / Other
Sex
All
Age
50 Years – 75 Years
Healthy volunteers
Accepted

Summary

We will study the effects of intensive rehabilitation in PD on plasticity with a multimodal approach. We will define first, whether exercise in PD restores the potentiation of the motor cortex to normal levels with both 5 Hz-rTMS PAS and beta modulation and whether such improvements are accompanied by structural changes studied with diffusion MRI tractography and network analysis (Aim 1). With the study of muscle synergies and spatiotemporal organization of the spinal motoneuronal output during gait and reaching movements we will define the presence of functional changes in spinal cord mechanisms and connectivity and whether such changes are global or involve selective districts (Aim 2). Finally, we will study post-exercise changes in sleep pattern, as sleep is impaired in PD and plays a crucial role in the definition of plasticity-related phenomena (Aim 3). This project will generate breakthrough data on the mechanisms of exercise, novel biomarkers to monitor efficacy of treatments and thus, possibly leading to better restorative, disease-modifying and symptomatic therapies for PD.

Detailed description

We will study the effects of intensive rehabilitation in PD on plasticity with a multimodal approach. We will define first, whether exercise in PD restores the potentiation of the motor cortex to normal levels with both 5 Hz-rTMS PAS and beta modulation and whether such improvements are accompanied by structural changes studied with diffusion MRI tractography and network analysis (Aim 1). With the study of muscle synergies and spatiotemporal organization of the spinal motoneuronal output during gait and reaching movements we will define the presence of functional changes in spinal cord mechanisms and connectivity and whether such changes are global or involve selective districts (Aim 2). Finally, we will study post-exercise changes in sleep pattern, as sleep is impaired in PD and plays a crucial role in the definition of plasticity-related phenomena (Aim 3)

Conditions

Interventions

TypeNameDescription
DEVICEexperimental group MIRTTask 1a: Assessing the effect of MIRT on cortical plasticity tested with rPAS Task 1b: Assessing the effect of MIRT on structural cortical plasticity and brain connectivity tested with MRI Task 1c: Assessing the effect of MIRT on movement-related beta modulation Task 1d: Assessing the effects of MIRT on motor skills formation with reaching tasks Task 1e: Assessing the effects of MIRT on EEG correlates of motor skills formation Task 2a: Assessing the effect of MIRT on muscle synergies during gait Task 2b: Assessing the effect of MIRT on muscle synergies during reaching movements Task 3a: Assessing the effect of MIRT on sleep microstructure
DEVICEEEG task rTMS, fMRIEEG task rTMS, fMRI

Timeline

Start date
2021-02-10
Primary completion
2024-02-10
Completion
2024-02-10
First posted
2023-03-27
Last updated
2023-03-29

Locations

1 site across 1 country: Italy

Source: ClinicalTrials.gov record NCT05786261. Inclusion in this directory is not an endorsement.