"Severe traumatic brain injury (TBI) is a serious condition, common in young adults. It leads to sensorimotor and cognitive sequelae that hinder social reintegration. Neuronal plasticity must be used quickly before natural recovery impedes neuronal regrowth. In this respect, stopping sedation as soon as possible and early mobilization, even if the patients are unconscious, are recognized as useful measures to promote recovery. However, at the early stage, the environment of the ICU and the acute condition of the patients limit the rehabilitation possibilities. In such a context, functional proprioceptive stimulations (Vibramoov™ system, Techno Concept, France) could be a tool of interest. By using the proprioceptive signatures of cyclic movements, proprioceptive stimulations can elicit the illusion of these movements. A motor response can even be obtained through the interactions between the peripheral nervous system and the central nervous system. Finally, such stimulations facilitate the initiation of the mimicked movements. Some studies have already shown the benefits of proprioceptive vibrations. However, so far, these benefits have only been studied at the chronic stage of neurological diseases. The investigators hypothesized that early functional proprioceptive stimulations (FPS) may reduce spasticity and promote recovery in patients with severe traumatic brain injury. To test the hypothesis, the investigators conduct a randomized controlled trial on patients with severe traumatic brain injury. Every patient will be included as soon as possible in the ICU and receive either FPS, either sham stimulations to the joints of the lower limbs, 4 times a week during 8 weeks. The primary outcome measures will assess spasticity. The investigators also assess pain, coma recovery; muscle wasting and cognitive impairments. "
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
50
Vibration treatment will last eight weeks for each patient, with 4 sessions per week, 30 minutes per session. Subjects of the intervention group will receive proprioceptive stimulations set to create illusions of movement.
Vibration treatment will last eight weeks for each patient, with 4 sessions per week, 30 minutes per session. Subjects of the control group will receive sham stimulations.
Bicêtre Hospital
Le Kremlin-Bicêtre, France
RECRUITINGChanges in the modified Ashworth scale (MAS)
The MAS enables to assess spasticity. The muscle whose spasticity will be assessed are the soleus, gastrocnemius, knee extensors, knee flexors, adductors and gracilis (Score range from 0 to 5 per muscle, higher values represent a higher severity of spasticity) adductors and gracilis
Time frame: Every week during the eight weeks of treatment, then at 2 months (end of treatment), 6 months and 1 year after the injury.
Changes in the angles of the muscle reaction in the modified Tardieu scale (MTS)
The MTS enables to assess the severity of spasticity. The muscle whose spasticity will be assessed are the soleus, gastrocnemius, knee extensors, knee flexors, adductors and gracilis (The outcome is reported in degree, from 0 to 180 degrees, higher values represent a higher dynamic component of spasticity)
Time frame: Every week during the eight weeks of treatment, then at 2 months (end of treatment), 6 months and 1 year after the injury.
Changes in the quality of the muscle reaction in the modified Tardieu scale (MTS)
The muscle whose spasticity will be assessed are the soleus, gastrocnemius, knee extensors, knee flexors, adductors and gracilis (Score range from 0 to 5 per muscle, higher values represent a higher severity of spasticity)
Time frame: Every week during the eight weeks of treatment, then at 2 months (end of treatment), 6 months and 1 year after the injury.
Changes in the Spinal cord assessment tool for spastic reflexes (SCATS)
This score enables to asses global spasticity (Score range from 0 to 18, higher values represent a higher degree of spasticity)
Time frame: Every week during the eight weeks of treatment, then at 2 months (end of treatment), 6 months and 1 year after the injury.
Changes in the visual analog scale for the auto-assessment of problematic spasticity
Score range from 0 to 100, higher values represent a higher degree of problematic spasticity.
Time frame: Every week during the eight weeks of treatment, then at 2 months (end of treatment), 6 months and 1 year after the injury.
Changes in the visual analog scale for the auto-assessment of problematic spasticity
Score range from 0 to 100, higher values represent a higher degree of problematic spasticity.
Time frame: Every week during the eight weeks of treatment, then at 2 months (end of treatment), 6 months and 1 year after the injury
Changes in the Coma recovery scale-revised (CRS-R)
This measure enables to assess coma recovery (Score range from 0 to 23, higher values represent a better outcome)
Time frame: At inclusion, and at one month, 2 months and 1 year after the injury.
Changes in the Glasgow outcome scale (GOS)
This measure enables to assess coma recovery (Score range from 0 to 5, higher values represent a better outcome)
Time frame: At inclusion, and at one month, 2 months and 1 year after the injury.
Changes in the Glasgow outcome scale-extended (GOS-E)
This measure enables to assess coma recovery (Score range from 0 to 8, higher values represent a better outcome)
Time frame: At inclusion, and at one month, 2 months and 1 year after the injury.
Changes in the Disability rating scale (DRS)
This measure enables to assess coma recovery (Score range from 0 to 29, lower values represent a better outcome)
Time frame: At inclusion, and at one month, 2 months and 1 year after the injury.
Changes in the quadriceps muscle thickness
"Measured with ultrasound, average of two measures (at the border between the lower third and upper two-thirds between the anterior superior iliac spine and the upper pole of the patella, and at the midpoint between the anterior superior iliac spine and the upper pole of the patella) (Measure in centimeters, higher values represent a better outcome)"
Time frame: At inclusion, then once a week during the first month, and at 2 months, 6 months and 1 year after the injury
Changes in the Montreal cognitive assessment (MoCA)
This measure enables to assess cognitive impairments (Score range from 0 to 30, higher values represent a better outcome)
Time frame: Up to 1 month, then at 2 months and 1 year after the injury
Changes in the time to complete the bells cancellation test to assess cognitive impairments
This measure enables to assess cognitive impairments (Measure in minutes and seconds, lower values represent a better outcome)
Time frame: Up to 1 month, then at 2 months and 1 year after the injury
Changes in the digit span test to assess cognitive impairments
This measure enables to assess cognitive impairments (Higher values represent a better outcome)
Time frame: Up to 1 month, then at 2 months and 1 year after the injury
Changes in the Posttraumatic stress disorder checklist scale (PCLS) to assess cognitive impairments
This measure enables to assess cognitive impairments (Score range from 17 to 85, lower values represent a better outcome)
Time frame: Up to 1 month, then at 2 months and 1 year after the injury
Changes in the Hospital anxiety and depression scale (HAD scale)
This measure enables to assess cognitive impairments (Score range from 0 to 42, lower values represent a better outcome)
Time frame: Up to 1 month, then at 2 months and 1 year after the injury
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