RAINDROP: Neural, Behavioural, and Clinical Effects of tDCS in PDOC; Feasibility Study
Study Details
Study Description
Brief Summary
This study evaluates the feasibility of an experimental protocol that combines advanced multi-modal imaging of the brain with clinical and behavioural scales to characterise the neural, behavioural, and clinical effects of transcranial direct current stimulation (tDCS) for rehabilitation in PDOC
Condition or Disease | Intervention/Treatment | Phase |
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N/A |
Detailed Description
Patients with prolonged disorders of consciousness (PDOC) have very limited therapeutic options, and they often show little to no progress over time. Here, the investigators will assess whether transcranial direct current stimulation can improve patients' responsiveness. The investigators will use a protocol designed to target specific brain networks that have been shown to play a key role in explaining the lack of voluntary responses in PDOC. The study will focus on characterising the mechanisms of action of tDCS and the bases for potential individual differences in responsiveness to the stimulation across participants. This feasibility study is the first step towards developing personalised tDCS interventions to restore external responsiveness in PDOC patients. Its results will inform the design of a future trial fully powered for characterising neural, behavioural, and clinical effects of tDCS in PDOC as well as the mechanisms underlying individual differences in responsiveness.
Study Design
Arms and Interventions
Arm | Intervention/Treatment |
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Experimental: MRI stream In this stream all patients receive 2 experimental interventions (anodal tDCS and cathodal tDCS) and a sham intervention (sham tDCS). These are delivered in randomised order, ensuring a balanced distribution of participants across possible orders. They will receive 5 sessions per condition (on consecutive days), for a total of 15 sessions. I. Anodal, cathodal, sham II. Anodal, sham, cathodal III. Cathodal, anodal, sham IV. Cathodal, sham, anodal V. Sham, anodal, cathodal VI. Sham, cathodal, anodal |
Other: Transcranial direct current stimulation
tDCS alters neural excitability in a polarity-specific manner via a weak direct electric current delivered through electrodes placed on the scalp. There are 3 types of stimulation: anodal, cathodal, and sham. In anodal tDCS, the positive electrode is placed over the target brain area to increase neuronal excitability. In cathodal tDCS, the negative electrode is placed over the target brain area to decrease neuronal excitability. Sham tDCS emulates the physical sensations of active (anodal/cathodal) tDCS but current is only delivered for a short period of time and is not enough to cause any neuromodulations
Other Names:
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Experimental: Bedside stream In this stream all patients receive 1 experimental interventions (either anodal tDCS or cathodal tDCS) and 1 sham intervention (sham tDCS). These include only 1 session per condition and are delivered in randomised order, resulting in the following possible combinations: I. Anodal, sham II. Cathodal, sham III. Sham, anodal IV. Sham, cathodal Participants will be randomly assigned to the above groups ensuring a balanced distribution of participants across them. |
Other: Transcranial direct current stimulation
tDCS alters neural excitability in a polarity-specific manner via a weak direct electric current delivered through electrodes placed on the scalp. There are 3 types of stimulation: anodal, cathodal, and sham. In anodal tDCS, the positive electrode is placed over the target brain area to increase neuronal excitability. In cathodal tDCS, the negative electrode is placed over the target brain area to decrease neuronal excitability. Sham tDCS emulates the physical sensations of active (anodal/cathodal) tDCS but current is only delivered for a short period of time and is not enough to cause any neuromodulations
Other Names:
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Outcome Measures
Primary Outcome Measures
- Retention at end of active phase [through completion of active phase of study (tDCS intervention), on average 4 weeks for bedside stream and 8 weeks for MRI stream]
percentage of participants on study at pre-specified time points counted from the start of participation in the study (i.e., first study procedure)
- Retention at 3 months [3 months after start of participation]
percentage of participants on study at pre-specified time points counted from the start of participation in the study (i.e., first study procedure). This Outcome applies to the bedside stream only
- Retention at 6 months [6 months after start of participation]
percentage of participants on study at pre-specified time points counted from the start of participation in the study (i.e., first study procedure). This Outcome applies to the bedside stream only
- Completion [through completion of active phase of study (tDCS intervention), on average 4 weeks for bedside stream and 8 weeks for MRI stream]
percentage of tDCS, MRI, and electrophysiology assessments completed per polarity
Secondary Outcome Measures
- Structural MRI [day 1 and day 5 of tDCS each polarity]
This will include assessments of the gross macrostructure, and microstructure of brain tissue grey matter, white matter, and cerebrospinal fluid
- Functional MRI in response to task instructions [day 1 and day 5 of tDCS each polarity]
This will include assessments of the BOLD (blood oxygen level-dependent) response to characterise brain activity and connectivity during command following
- EEG power in the alpha band in response to task instructions [days 1 and 4 of each polarity in the MRI stream and day 1 of each polarity in the bedside stream]
Envelope of bandpass filtered EEG data between 8-12 Hertz
- EEG power in the beta band in response to task instructions [days 1 and 4 of each polarity in the MRI stream and day 1 of each polarity in the bedside stream]
Envelope of bandpass filtered EEG data between 13-30 Hertz
- EMG (electromyography) amplitude changes [days 1-4 and day 2 of each polarity in the MRI and bedside streams respectively]
Changes in the amplitude of the rectified EMG signal (high-pass filtered > 50Hz) in response to instructions to move
- Coma recovery scale -revised [regularly through active phase of study (baseline and outcome assessments), on average 4 weeks for bedside stream and 8 weeks for MRI stream]
clinical diagnostic scale for disorders of consciousness. Total score ranges from 0 to 23, where higher scores mean a higher level of functioning and awareness
- Glasgow Outcome Scale-extended [at 3 and 6 months after start of participation]
Scale for functional outcome after brain injury. Total score ranges from 1 to 8, where higher values correspond to better outcome
Eligibility Criteria
Criteria
Inclusion Criteria:
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Aged 18 years or older
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Receiving care at a recruitment site, with a consensus clinical diagnosis of PDOC from any aetiology (i.e. traumatic or non-traumatic injury).
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Stable and with no need of mechanical support (i.e. respirator, etc.)
Exclusion Criteria:
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Scalp skin sores or any skin damage at the electrode sites
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Metallic implants in the face or skull
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Craniectomy or cranioplasty
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No evidence of auditory startle in clinical observations, or absent brainstem auditory evoked potentials in recent clinical history (if data available)
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MRI incompatible: metal plates incompatible with MRI scanners, pacemaker, inability to lay flat for prolonged periods of time, aneurysm clips, neurostimulators, brain/subdural electrodes, etc. (MRI stream ONLY)
Contacts and Locations
Locations
Site | City | State | Country | Postal Code | |
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1 | Moseley Hall Hospital | Birmingham | West Midlands | United Kingdom | B13 8JL |
2 | The Wellington Hospital | London | United Kingdom | NW8 9LE |
Sponsors and Collaborators
- University of Birmingham
- Wellington Hospital
Investigators
None specified.Study Documents (Full-Text)
None provided.More Information
Publications
None provided.- RG_18-269