New Technological Pathway for Gait Rehabilitation

Summary

\*\*Brief Summary\*\*

The study aims to explore how the integration of visual and motor systems can be trained and enhanced to improve gait rehabilitation in patients with various neurological and cardiovascular conditions. Scientific evidence highlights that physical activity requires coordination and precise processing of visual, auditory, and sensory information from the external environment, which is then integrated at the brain level. This process establishes synaptic connections that direct the movement of arms, hands, legs, and the trunk through bottom-up and top-down mechanisms. However, inaccurate or incomplete perceptual information can impair performance, even when accurate visual stimuli are provided, emphasizing the importance of assessing and enhancing visuo-motor integration.

The research investigates the central mechanisms controlling peripheral muscle activation patterns during gait. While over-ground walking in healthy individuals generally does not activate the prefrontal cortex except in dual-task scenarios, evidence suggests that post-stroke patients exhibit increased prefrontal cortex metabolism during walking. Recent studies have shown that gait training with exoskeletal systems improves walking patterns in post-stroke patients by altering muscle activation patterns and increasing fronto-parietal connectivity.

This study seeks to answer the following question: How do central and peripheral mechanisms interact to influence gait rehabilitation outcomes, and what role do visuo-motor integration and neuroplasticity play in this process? To address this, advanced neuroimaging technologies such as fMRI, dtMRI, and NIRS will be employed to investigate these mechanisms in vivo.

Conditions

• Neurological Diseases or Conditions
• Cardiovascular Diseases
• Neuromuscular Disease

Interventions

DEVICE

Innovative technology pathway for gait neurorehabilitation

Participants will be assigned to either an advanced or traditional training pathway based on the protocol. The innovative tehcnology pathway for gait rehabilitation will incorporate devices such as exoskeletons, virtual reality systems, and body-weight suspension (BWS) devices to enhance gait rehabilitation. At the end of the training period, participants will undergo follow-up evaluation tests to assess outcomes.

OTHER

Conventional gait rehabilitation strategy

The control group will undergo a traditional rehabilitation program that follows standard clinical protocols for gait recovery. This program will include conventional therapeutic exercises aimed at improving strength, balance, coordination, and functional mobility

Sponsors & Collaborators

• IRCCS Centro Neurolesi Bonino Pulejo

  lead OTHER

Study Design

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

SINGLE

Model

PARALLEL

Eligibility

Min Age

18 Years

Max Age

60 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2025-03-31

Primary Completion

2026-10-31

Completion

2027-02-28

Countries

• Italy

Study Locations