Purpose

The purpose of this study is to assess effects of intermittent theta burst stimulation (iTBS) to left dorsolateral prefrontal cortex (dlPFC) and dorsomedial prefrontal cortex (dmPFC) compared to sham on electrophysiological indices of reward sensitivity and motivated attention in adults with cocaine use disorder.

Condition

Eligibility

Eligible Ages
Between 18 Years and 65 Years
Eligible Genders
All
Accepts Healthy Volunteers
No

Inclusion Criteria

  • non-treatment-seeking adults - meet Diagnostic and Statistical Manual of Mental Disorders (DSM)-5 criteria for current cocaine use disorder of at least moderate severity (≥ 4 symptoms) - have at least 1 positive urine Benzoylecgonine (BE) specimen (≥ 300 ng/mL) during intake - be able to understand the consent form and provide written informed consent - be able to provide the following verifiable information for a minimum of 2 contact persons: full legal name,email address, local mailing address, and as applicable, home, work, and cell phone numbers

Exclusion Criteria

  • current DSM-5 diagnosis for substance use disorder (of at least moderate severity) other than cocaine, marijuana, or nicotine - in the opinion of the principal investigator (PI), the presence of any medical, neurological, psychiatric, or physical condition, disease, or illness that, may: (a) compromise interfere, limit, effect or reduce the subject's ability to complete the study; or (b) adversely impact the safety of the subject or the integrity of the data - has current or recent (within 3 months of potential enrollment) suicidal ideation, suicidal behavior, homicidal ideation or a homicidal plan sufficient to raise subject safety concerns based on the following assessments according to the PI: 1. Structured Clinical Interview for DSM-5 (SCID-5) 2. Columbia Suicide Severity Rating Scale (C-SSRS) Screener - Answers YES to Questions 3, 4, 5, or 6 3. Assault & Homicidal Danger Assessment Tool - Key to Danger > 1 - medical implants contraindicating TMS (i.e., aneurysm clips or coils, stents, implanted stimulators, implanted vagus nerve or deep brain stimulators, implanted electrical devices such as pacemakers or medication pumps electrodes for monitoring brain activity, cochlear implants for hearing, any magnetic implants, bullet fragments, any other metal device or object implanted in your body closer than 30 cm from the coil) - history of brain surgery - history of an intracranial lesion or any medical or neurological diagnosis/condition associated with increased intracranial pressure (i.e., Idiopathic Intracranial Hypertension/Pseudotumor Cerebri) OR any of the following symptoms within 30 days of enrollment: headaches > 15 days/month, loss of vision or decreased vision - moderate-to-severe heart disease - history of stroke - is taking any antidepressant or antipsychotic medication at a dose above the maximum recommended dose or at a dose deemed to be potentially unsafe according to the PI; has taken any of the following medications, which are known to increase the risk of seizures, within 1 week of study enrollment; or does not agree to abstain from taking the following medications during study participation: 1. clozapine137 2. chlorpromazine137 3. bupropion 4. clomipramine hydrochloride 5. amoxapine 6. maprotiline hydrochloride 7. diphenhydramine 8. stimulants other than cocaine including the following: 1. Dextroamphetamine and amphetamine 2. Dextroamphetamine 3. Lisdexamfetamine dimesylate 4. Methamphetamine 5. Methylphenidate 9. tramadol 10. isoniazid - having conditions of probation or parole requiring reports of drug use to officers of the court - personal history of epilepsy or seizure disorder and/or family history including a first-degree relative - serious head injury with loss of consciousness - impending incarceration - pregnant or nursing for female patients - inability to read, write, or speak English - for adolescent aged participants (18-21 only): any risk factor for neurocardiogenic syncope (history of syncope/presyncope related to noxious stimuli, anxiety, micturition, or posture) - hair style that is incompatible with EEG nets

Study Design

Phase
N/A
Study Type
Interventional
Allocation
Randomized
Intervention Model
Crossover Assignment
Primary Purpose
Basic Science
Masking
Triple (Participant, Care Provider, Investigator)

Arm Groups

ArmDescriptionAssigned Intervention
Experimental
dlPFC then dmPFC then Sham iTBS
  • Device: TMS to dmPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dmPFC, approximately 25% of the nasion-inion distance or Talairah coordinates X 0 Y+60 Z+60 will be measured. The first session will begin with the acquisition of the resting motor threshold (rMT) on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last ~3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: TMS to dlPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dlPFC, position F3 will be measured, using probabilistic EEG placement. The first session will begin with the acquisition of the resting motor threshold on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last 3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: Sham iTBS
    Sham TMS will be delivered with the sham side of the MagVenture Cool B70 A/P coil. The software will be pre-programmed by a staff member that will not be involved in data analysis or collection for blinding purposes. The sham stimulation will match the number of pulses and length of time as the active condition and each participant will receive 3 sessions with a 15-20 min interval between sessions.
Experimental
dmPFC then dlPFC then sham iTBS
  • Device: TMS to dmPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dmPFC, approximately 25% of the nasion-inion distance or Talairah coordinates X 0 Y+60 Z+60 will be measured. The first session will begin with the acquisition of the resting motor threshold (rMT) on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last ~3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: TMS to dlPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dlPFC, position F3 will be measured, using probabilistic EEG placement. The first session will begin with the acquisition of the resting motor threshold on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last 3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: Sham iTBS
    Sham TMS will be delivered with the sham side of the MagVenture Cool B70 A/P coil. The software will be pre-programmed by a staff member that will not be involved in data analysis or collection for blinding purposes. The sham stimulation will match the number of pulses and length of time as the active condition and each participant will receive 3 sessions with a 15-20 min interval between sessions.
Experimental
dmPFC then sham iTBS then dlPFC
  • Device: TMS to dmPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dmPFC, approximately 25% of the nasion-inion distance or Talairah coordinates X 0 Y+60 Z+60 will be measured. The first session will begin with the acquisition of the resting motor threshold (rMT) on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last ~3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: TMS to dlPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dlPFC, position F3 will be measured, using probabilistic EEG placement. The first session will begin with the acquisition of the resting motor threshold on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last 3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: Sham iTBS
    Sham TMS will be delivered with the sham side of the MagVenture Cool B70 A/P coil. The software will be pre-programmed by a staff member that will not be involved in data analysis or collection for blinding purposes. The sham stimulation will match the number of pulses and length of time as the active condition and each participant will receive 3 sessions with a 15-20 min interval between sessions.
Experimental
dlPFC then sham iTBS then dmPFC
  • Device: TMS to dmPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dmPFC, approximately 25% of the nasion-inion distance or Talairah coordinates X 0 Y+60 Z+60 will be measured. The first session will begin with the acquisition of the resting motor threshold (rMT) on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last ~3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: TMS to dlPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dlPFC, position F3 will be measured, using probabilistic EEG placement. The first session will begin with the acquisition of the resting motor threshold on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last 3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: Sham iTBS
    Sham TMS will be delivered with the sham side of the MagVenture Cool B70 A/P coil. The software will be pre-programmed by a staff member that will not be involved in data analysis or collection for blinding purposes. The sham stimulation will match the number of pulses and length of time as the active condition and each participant will receive 3 sessions with a 15-20 min interval between sessions.
Experimental
sham iTBS then dlPFC then dmPFC
  • Device: TMS to dmPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dmPFC, approximately 25% of the nasion-inion distance or Talairah coordinates X 0 Y+60 Z+60 will be measured. The first session will begin with the acquisition of the resting motor threshold (rMT) on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last ~3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: TMS to dlPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dlPFC, position F3 will be measured, using probabilistic EEG placement. The first session will begin with the acquisition of the resting motor threshold on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last 3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: Sham iTBS
    Sham TMS will be delivered with the sham side of the MagVenture Cool B70 A/P coil. The software will be pre-programmed by a staff member that will not be involved in data analysis or collection for blinding purposes. The sham stimulation will match the number of pulses and length of time as the active condition and each participant will receive 3 sessions with a 15-20 min interval between sessions.
Experimental
shami iTBS then dmPFC then dl PFC
  • Device: TMS to dmPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dmPFC, approximately 25% of the nasion-inion distance or Talairah coordinates X 0 Y+60 Z+60 will be measured. The first session will begin with the acquisition of the resting motor threshold (rMT) on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last ~3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: TMS to dlPFC
    TMS will be delivered with a MagVenture Mag Pro R30 with the Cool-B70 A/P coil with active liquid cooling and active/sham sides. For dlPFC, position F3 will be measured, using probabilistic EEG placement. The first session will begin with the acquisition of the resting motor threshold on the contralateral hand. iTBS (triplet 50 Hz bursts, repeated at 5 Hz, 2 sec on and 8 sec off; 600 pulses per session) will be delivered at 110% of the rMT and will last 3 minutes. The stimulation will start at a lower percentage and ramp up over time to acclimate participant to the feeling of stimulation. The intensity will be lowered in participant cannot tolerate the stimulation. Each participant will receive 3 sessions per visit with a 15-20 minute interval between sessions to increase the likelihood of detecting acute effects.
  • Device: Sham iTBS
    Sham TMS will be delivered with the sham side of the MagVenture Cool B70 A/P coil. The software will be pre-programmed by a staff member that will not be involved in data analysis or collection for blinding purposes. The sham stimulation will match the number of pulses and length of time as the active condition and each participant will receive 3 sessions with a 15-20 min interval between sessions.

Recruiting Locations

The University of Texas Health Science Center at Houston
Houston, Texas 77030
Contact:
Heather Webber, PhD
713-486-2723
Heather.E.Webber@uth.tmc.edu

More Details

Status
Recruiting
Sponsor
The University of Texas Health Science Center, Houston

Study Contact

Heather Webber, PhD
713-486-2723
Heather.E.Webber@uth.tmc.edu

Notice

Study information shown on this site is derived from ClinicalTrials.gov (a public registry operated by the National Institutes of Health). The listing of studies provided is not certain to be all studies for which you might be eligible. Furthermore, study eligibility requirements can be difficult to understand and may change over time, so it is wise to speak with your medical care provider and individual research study teams when making decisions related to participation.