Improving Postural Control Through Innovative Stimulation of the Proprioceptive System

Not Applicable

Completed

• Conditions: Sensorimotor Disorder
• Interventions: Other: POSTUR; Other: Localised Vibration; Other: Somatosensory Electrical Stimulation

• Registration Number: NCT05367791
• Lead Sponsor: Centre Hospitalier Universitaire de Saint Etienne

Brief Summary

Every movement humans make in everyday life is based on a continuous integration of sensory information. A good interaction between sensory processes and motor control, called sensorimotor integration, is necessary for the efficiency of movements. Sensorimotor integration in the context of posture and walking is based on proprioception. Proprioception is the conscious and unconscious perception of the spatial and mechanical state of the musculoskeletal system. Proprioceptive information transmitted through the neuromuscular spindles in particular is suggested to play a role in motor rehabilitation.

Detailed Description

This is particularly important when considering populations with impaired proprioception resulting in impaired posture and gait control. This is particularly the case for older adults and children with cerebral palsy (CP). Nevertheless, drastic differences exist between the two populations in the nature of these alterations: stable (children with CP) vs. progressive (older adults); brain lesion/upper motor neuron (children with CP) vs. processing deficits and peripheral sensory degradation (older adults); growing (children with CP) vs. fully developed individuals (older adults). However, both populations can improve their postural control with postural exercise programmes. In humans, the proprioceptive system can also be stimulated non-invasively by mechanical vibrations applied to tendons or muscles (localised vibration; LV), or by electrical stimulation of peripheral nerves (somatosensory electrical stimulation; SES). As a result, chronically applied SES can improve sensorimotor function in healthy adults and some clinical cohorts. Similarly, a 6-week weight-bearing and weight-shifting training programme combined with LV has been reported to provide improved benefits in postural control, again in stroke patients.The greater improvement in motor function when LV or SES is added to active muscles may reflect an adjuvant effect: the sensory signal from LV or SES stimulation is integrated with the sensory signals from the task being performed, thus acting as an associative conditioning of the proprioceptive system, and leading to improved sensorimotor integration. The present project aims to study the effectiveness of a short-term intervention combining postural exercises with LV, SES, or the combination of both.

In particular, this study will focus on the effects of these interventions on proprioception, postural control and walking in children with CP and older adults.Confirmation of hypotheses will open up new avenues for rehabilitation therapies and preventive interventions, and may be extended to other purposes and clinical populations.

Study Timeline

• Study First Submitted: 2022-05-02
• Study First Submitted QC: 2022-05-05
• Study First Posted: 2022-05-10
• Study Start: 2022-06-29
• Primary Completion: 2024-02-07
• Status Verified: 2024-07
• Study Completion: 2024-07-22
• Last Update Submitted: 2024-07-26
• Last Update Posted: 2024-07-29

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 51

Inclusion Criteria

Older Adults:

• Affiliated or beneficiaries of a social security plan
• Who have freely given their written consent after having been informed of the purpose, the procedure and the potential risks involved

Children with Cerebral Palsy:

• Children between the ages of 7 and 18 years, diagnosed with Spastic Cerebral Palsy, presenting with a clinical picture of infantile cerebral hemiplegia or diplegia.
• Children able to understand and follow the simple instructions of the examination
• Children walking GMFCS (Gross Motor Functional Classification system) I to II.
• Children with at least one parent and the child having given and signed the consent agreement
• Children who are members or beneficiaries of a social security system

Exclusion Criteria

Older adults:

• Pathology or surgery resulting in a locomotor disorder, within 6 months prior to the study,

• Chronic neurological, motor or psychological pathologies

• Use of neuro-active substances likely to alter cortico-spinal excitability (hypnotics, anti-epileptics, psychotropic drugs, muscle relaxants) during the study.

• Contraindication to transcranial magnetic stimulation:

  • Cardiac or respiratory insufficiency.
  • Wearing a cardiac pace maker.
  • Wearing a heart valve and severe cardiovascular diseases.
  • Presence of prosthetic material or ferromagnetic foreign bodies in the head.
  • Presence of cochlear implants or ocular prosthetic material.
  • History of neurosurgical procedures.
  • Neurological diseases that may affect brain structures and cognitive abilities (e.g., intracranial tumor, multiple sclerosis, history of stroke or head injury).

• Participation at the same time in another interventional trial or having participated in a such a study within 30 days prior to this study.

• Obesity (body mass index ≥ 30.0 kg/m²)

Children with cerebral palsy:

• Children with concomitant muscle disease (e.g., myopathy...).
• Children who have received a baclofen injection in the 6 months preceding the evaluation.
• Children who have undergone neuro-orthopedic surgery on the lower limbs within the last 6 months
• Children who have received a botulinum toxin injection within the last 6 months
• Children participating in therapeutic programs other than their usual physical therapy sessions.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
POSTUR+SES (somatosensory electrical stimulation)	POSTUR	Postural training combined with somatosensory electrical stimulation
POSTUR+LV-SES	Somatosensory Electrical Stimulation	Postural training combined with somatosensory electrical stimulation and localized vibration
POSTUR + LV (localized vibration)	Localised Vibration	Postural training combined with localized vibration
POSTUR+SES (somatosensory electrical stimulation)	Somatosensory Electrical Stimulation	Postural training combined with somatosensory electrical stimulation
POSTUR+LV-SES	POSTUR	Postural training combined with somatosensory electrical stimulation and localized vibration
POSTUR+LV-SES	Localised Vibration	Postural training combined with somatosensory electrical stimulation and localized vibration
POSTUR	POSTUR	Postural training only.
POSTUR + LV (localized vibration)	POSTUR	Postural training combined with localized vibration

Primary Outcome Measures

Name	Time	Method
Evaluation of body balance with the Berg Balance Scale (BBS)	Change from Week 8 to Week 16	Variation of postural control

Secondary Outcome Measures

Name	Time	Method
Evaluation of body balance with the Berg Balance Scale (BBS)	Change from Week 1 to Week 22	Variation of postural control
Displacement of the centrer of pressure with application of localized vibration in centimeter	Change from Week 1 to Week 22	Proprioceptive contribution to postural control
Evaluation of the displacement of the center of pressure with force platform in centimeter	Change from Week 1 to Week 22	Variation of postural control
Coefficient of variation muscle force control in percent	Change from Week 1 to Week 22	Muscle force control measurement
Measure 10 meter walk test (10MWT) in seconds	Change from Week 1 to Week 22	Walking ability evaluation
Measure of the angular position error in degrees	Change from Week 1 to Week 22	Variation of the position direction
Measure 6-minute walk test (6MWT) in meters	Change from Week 1 to Week 22	Walking ability evaluation
Measure Timed Up & Go Test (TUG) in seconds	Change from Week 1 to Week 22	Walking ability evaluation
Quantifying spinal excitability with H-reflex in milliVolt	Change from Week 1 to Week 22	Underlying neural adaptations evaluation in older adults only
Quantifying corticospinal excitability with motor evoked potentials in milliVolt	Change from Week 1 to Week 22	Underlying neural adaptations evaluation in older adults only

Trial Locations

Locations (1)

Centre Hospitalier de Saint-Etienne; 🇫🇷 Saint-Étienne, France