At a glance
ClinicalIndex Comparison RecordStandardized by ClinicalIndex from the ClinicalTrials.gov record · verify against the source.
Transcranial Magnetic Stimulation (TMS) Effects on Pain Perception
In Brief
A clinical study evaluating Real TMS 45 min, Sham TMS 45 min, and 2 other interventions for Gastric Bypass Surgery Pain Management. Completed, enrolled 108 participants across 1 site.
Detailed Summary
The purpose of this research study is to investigate the effects of Transcranial Magnetic Stimulation on pain perception. TMS is a non - invasive technique that uses electromagnetic pulses to temporarily stimulate specific brain areas in awake people (without the need for surgery, anesthetic, or other invasive procedures)
Study Details
Timeline
Interventions
Real TMS 45 minutes after surgery, first determined resting motor threshold (rMT) by starting with 40% of the machine output and 0.5 Hz stimulus frequency. The coil was positioned over the motor cortex and then adjusted until each pulse results in movement of the right thumb. The machine output was then adjusted to the lowest intensity that reliably produces thumb movement. Parameter estimation by sequential testing was used to determine the amount of machine energy necessary to visibly move the thumb 50% of the time. rMT was assessed before each rTMS treatment. The left prefrontal cortex was the cortical target for rTMS treatment. The EEG-10-20 system was used to locate the prefrontal cortex (F3).
Sham TMS 45 minutes after surgery used specifically designed rTMS coil that produces auditory signals identical to real (active) TMS coils but is shielded so that actual stimulation does not occur. The eSham system was used to mimic sensations of real rTMS. This system produces mild tingling on the scalp underneath the sham rTMS coil, making it difficult in differentiating between real and sham. The amount of electrical stimulation necessary to match real rTMS pulses was determined using an algorithm (parameter estimation by sequential testing). All subjects underwent the sham titration at the beginning of every rTMS session regardless of group assignment. The left prefrontal cortex was the cortical target for rTMS treatment, located using the EEG-10-20 system.
Real TMS 4 hours after surgery, first determined resting motor threshold (rMT) by starting with 40% of the machine output and 0.5 Hz stimulus frequency. The coil was positioned over the motor cortex and then adjusted until each pulse results in movement of the right thumb. The machine output was then adjusted to the lowest intensity that reliably produces thumb movement. Parameter estimation by sequential testing was used to determine the amount of machine energy necessary to visibly move the thumb 50% of the time. rMT was assessed before each rTMS treatment. The left prefrontal cortex was the cortical target for rTMS treatment. The EEG-10-20 system was used to locate the prefrontal cortex (F3).
Sham TMS 4 hours after surgery used specifically designed rTMS coil that produces auditory signals identical to real (active) TMS coils but is shielded so that actual stimulation does not occur. The eSham system was used to mimic sensations of real rTMS. This system produces mild tingling on the scalp underneath the sham rTMS coil, making it difficult in differentiating between real and sham. The amount of electrical stimulation necessary to match real rTMS pulses was determined using an algorithm (parameter estimation by sequential testing). All subjects underwent the sham titration at the beginning of every rTMS session regardless of group assignment. The left prefrontal cortex was the cortical target for rTMS treatment, located using the EEG-10-20 system.