The purpose of this double-blinded, parallel group randomized controlled trial is to investigate the effects of high definition transcranial direct current stimulation (HD-tDCS) on an experimental prolonged pain model in healthy subjects.
The purpose of this double-blinded, parallel group randomized controlled trial is to investigate the effects of high definition transcranial direct current stimulation (HD-tDCS) on an experimental prolonged pain model in healthy subjects. Forty healthy participants are administered the compound Nerve Growth Factor (NGF) in the right first dorsal interosseous muscle (FDI), which produced prolonged muscle soreness and hyperalgesia. The forty participants are randomly allocated to either the control group receiving a Sham-tDCS paradigm, or the intervention group receiving three consecutive days of multimodal HD-tDCS targeting primary motor cortex (M1) and dorsolateral prefrontal cortex (DLPFC) simultaneously. The somatosensory profile is assessed at baseline, before administration of NGF as well as prior and post each HD-tDCS session using standardised quantitative sensory testing. It is hypothesised that the active HD-tDCS will modulate the neurological changes induced by the experimental pain condition, which will alleviate the hyperalgesia and hypersensitivity.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
QUADRUPLE
Enrollment
40
Using the Starstim 32, HD-tDCS equipment we provide 20 minutes of 2 mA anodal multimodal stimulation of dorsolateral prefrontal cortex (DLPFC) and primary motor cortex simultaneously using ring-cathode configurations around the two anodes.
Using the Starstim 32, HD-tDCS equipment we provide sham stimulation with 30 seconds of ramping up to 2 mA intensity, then turning off for 19 minutes and then ramping down from 2 mA intensity to 0 in the last 30 seconds. This sham-configuration is intended to mimic the sensory experience of active HD-tDCS.
Center for Neuroplasticity and Pain
Aalborg, North Denmark, Denmark
RECRUITINGChange in pressure pain threshold.
A hand-held pressure algometer (Somedic, Hörby, Sweden) with a 1-cm2 probe will be used to record the pressure pain threshold. The pressure is increased gradually at a rate of 20 kPa/s. The measurement is repeated three times on the first dorsal interosseous muscle.
Time frame: Six assessments over three days: Baseline is assessed before any intervention at day one, and then the pain thresholds are assessed before and after each intervention on the subsequent two days.
Change in pressure pain tolerance.
A hand-held pressure algometer (Somedic, Hörby, Sweden) with a 1-cm2 probe will be used to record the pressure pain threshold at baseline. The pressure is increased gradually at a rate of 20 kPa/s. The measurement is repeated three times on the first dorsal interosseous muscle. The participant is asked to rate the pain on a numerical rating scale (NRS) from 0-10. 0 representing no pain at all, and 10 representing the worst pain imaginable.
Time frame: Six assessments over three days: Baseline is assessed before any intervention at day one, and then the pain thresholds are assessed before and after each intervention on the subsequent two days.
Change in tactile detection threshold
Tactile threshold will be measured using an anaesthesiometer consisting of a set of Von Frey filaments. The filaments are made of nylon fibre of various diameters so as to provide a range of forces of up to 300 grams. The minimum force that the subject can detect will be identified. This will be assessed on flexor carpi radialis on the right hand arm.
Time frame: Six assessments over three days: Baseline is assessed before any intervention at day one, and then the sensory thresholds are assessed before and after each intervention on the subsequent two days.
Change in mechanical pain threshold
Mechanical pain threshold (MPT) will be measured using a set of weighted pinprick stimulators with a flat contact area of 0.25 mm diameter that exert forces between 8 and 512 mN. Threshold procedures will use a method of limits with up to five series of ascending and descending stimulus intensities. This will be assessed on flexor carpi radialis on the right hand arm.
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Time frame: Six assessments over three days: Baseline is assessed before any intervention at day one, and then the sensory thresholds are assessed before and after each intervention on the subsequent two days.
Change in conditioned pain modulation (CPM)
A computer-controlled cuff pressure algometer (Nocitech, Denmark) with an air-filled tourniquet cuff (VBM, Germany) will be used to record cuff pressure-induced pain thresholds over the muscle bulk on the calfs. The pressure is increased gradually at a rate of 1 kPa/s to assess pain tolerance on a 0-10 VAS scale, where 0 is no pain at all and 10 is the worst pain imaginable. During CPM testing, the pain tolerance is first assessed on one leg marking the baseline. The pressure pain tolerance is then assessed on the same leg again, while the contralateral calf is applied a simultaneous painful pressure stimulus. The outcome of the CPM testing is the difference in pressure pain tolerance measured in kPA between the first and the second assessment. The larger the positive difference is between the baseline and the second assessment, the stronger CPM effect the subject has.
Time frame: Three assessments over three days: Baseline is assessed before the stimulation at day one, and then again after the stimulation on the two subsequent days.
Change in temporal summation of pain (TSP).
TSP will be applied using cuff pressure algometry. A total of 10 repeated mechanical pressure stimuli will be delivered at 0.5 Hz (1-s stimuli duration and 1-s interval between stimuli) to the test area. During the 10 repeated stimuli, subjects will continuously rate the pain intensity on a 10-cm continuous VAS. TSP is assessed on the calf of the right leg.
Time frame: Three assessments over three days: Baseline is assessed before the stimulation at day one, and then again after the stimulation on the two subsequent days.
Change in electroencephalography response (EEG).
EEG will be recorded for four minutes prior to the HD-tDCS, during the HD-tDCS and four minutes immediately after the HD-tDCS. In the four minutes before and after HD-tDCS, the subject will have their eyes open for two minutes and their eyes closed for two minutes. The EEG data will be analyzed with a focus on the resting state. In particular the Alpha frequency brain waves are of interest, but exploratory analysis will be conducted on the Beta, Theta and Gamma frequency bands as well.
Time frame: Three assessments over three days: The EEG will be recorded as a part of the HD-tDCS intervention.