tDCS: Transcranial Direct Current Stimulation and Chronic Pain

Sponsor

University of Arizona (Other)

Overall Status

Recruiting

CT.gov ID

NCT05863494

Collaborator

ni20 (Other)

Enrollment

Location

Arms

Anticipated Duration (Months)

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

This clinical trial uses transcranial direct current stimulation (tDCS) using the patented tKIWI system to safely reduce self-reported chronic pain with little to no side effects to improve our understanding and ability to accurately diagnose pain disorders which would facilitate the development of pharmacologic and non-pharmacologic treatment modalities using deep learning architecture built into the tKIWI.

Condition or Disease	Intervention/Treatment	Phase
Chronic Pain	Device: Transcranial Direct Current Stimulation (tDCS) Device: Transcranial Direct Current Stimulation (tDCS) sham	N/A

Detailed Description

Pain is a severe and growing problem in the United States with more than 116 million Americans suffering from chronic pain and more than $635 billion is spent annually on pain and its related healthcare costs. Additionally, opioid addiction has become a national crisis with nearly 50,000 deaths every year as a result of opioid-involved overdoses and nearly $78.5 billion spent annually on opioid misuse and addiction. Currently available treatments for pain, namely opioid analgesics, have limited effectiveness and can lead to a significant number of side effects and complications including dependence, pharmacodynamic tolerance, sedation, gastrointestinal issues, respiratory depression, immunosuppression, and hormonal changes. Effectively treating pain requires an accurate assessment of pain, however current methods of diagnosing and evaluating pain depend on subjective self-reporting including the use of visual and numerical pain scales. The subjective nature of describing pain makes it virtually impossible to quantify and therefore difficult to treat and monitor. To overcome this subjectivity, through a non-invasive neuromodulation technique called transcranial direct current stimulation (tDCS) and deep learning, pain can be measured objectively using electroencephalograph (EEG) to assess and personalize treatment. The overarching goal of this project is to apply transcranial direct current stimulation (tDCS) as an alternative to opioids for the reduction in chronic pain. The investigator's long-term goal is to use these data to analyze EEG signals and generate personalized tDCS treatment in real time.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

40 participants

Allocation:

Randomized

Intervention Model:

Parallel Assignment

Intervention Model Description:

The proposed study employs a randomized, double-blind, sham-controlled design to evaluate the effects of the tDCS using the tKIWI device on chronic pain. The participant will be randomly assigned to the treatment (tx) or sham/placebo group. Up to 40 participants will be recruited and randomly placed in either the treatment or the sham group. The randomization ratio is 1:1. Each participant has an equal chance of being assigned to each condition and each participant will be assigned to a condition independently of the other participants. The sample is small (20 each group), so in order to ensure random assignment, we will assign a unique number to every participant of the study's sample. Then, we will use a lottery method to randomly assign each number to the control or experimental group.The proposed study employs a randomized, double-blind, sham-controlled design to evaluate the effects of the tDCS using the tKIWI device on chronic pain. The participant will be randomly assigned to the treatment (tx) or sham/placebo group. Up to 40 participants will be recruited and randomly placed in either the treatment or the sham group. The randomization ratio is 1:1. Each participant has an equal chance of being assigned to each condition and each participant will be assigned to a condition independently of the other participants. The sample is small (20 each group), so in order to ensure random assignment, we will assign a unique number to every participant of the study's sample. Then, we will use a lottery method to randomly assign each number to the control or experimental group.

Masking:

Double (Participant, Investigator)

Masking Description:

Participants will be assigned a random unique number which will be randomly correlated with either treatment group or sham group. The participant will not have access to see in the redcap system which arm they are in. The sham group will receive 1 minute from 0.0mA to no more than 0.5mA at the initiation of the treatment after which the current will be turned off. This is to maintain a blind trial. 0.5mA is negligible current but mimics treatment with an initial small tingle. The investigator who is not involved in assigning groups will receive data with de-identification.

Primary Purpose:

Treatment

Official Title:

Toward Personalized Treatment of Chronic Pain Using Transcranial Direct Current Stimulation Paired With Deep Learning

Anticipated Study Start Date :

Jun 1, 2023

Anticipated Primary Completion Date :

Jul 1, 2023

Anticipated Study Completion Date :

Oct 1, 2023

Arms and Interventions

Arm	Intervention/Treatment
Experimental: Treatment For visits 1-5 (tDCS treatment visits), the investigators will start with 0.5mA ramping up to 0.75mA for 5 minutes. Followed by a brief (8 sec) EEG recording. Then, the investigators will apply .75mA to 1mA for 5 minutes. This will also be followed by 8 second EEG recording. The final application of current will be 1mA to 1.75mA for 10 minutes followed again by 8 second EEG recording.	Device: Transcranial Direct Current Stimulation (tDCS) TDCS is a non-invasive brain stimulation that uses electrical currents to stimulate specific areas of the brain. A constant, low-intensity current passes through two to four electrodes, which can be placed on various locations on the head, to modulate neuronal activity. tDCS can administer anodal and cathodal stimulation to excite (depolarization) or inhibit (hyperpolarization) neuronal activity, respectively. Using low-amplitude direct currents applied via scalp electrodes to alter cortical excitability is not a novel concept. This non-pharmacological approach has held promise for decades as a way to treat a plethora of neurological and psychiatric disorders. Although tDCS is not currently FDA-approved it is considered a non-significant-risk therapy with no record of serious adverse effects. Other Names: tKIWI ni2o
Sham Comparator: Sham For visits 1-5 (tDCS treatment visits),The sham group will receive 1 minute from 0.0mA to no more than 0.5mA at the initiation of the treatment after which the current will be turned off. They will still proceed with the full 20 minutes as does the treatment group but no current will be further applied as indicated in the treatment group. They will still receive EEG readings at the indicated 8 seconds after "current" is applied but will not receive the current. This is to maintain a blind trial. 0.5mA is negligible current but mimics treatment with an initial small tingle.	Device: Transcranial Direct Current Stimulation (tDCS) sham TDCS is a non-invasive brain stimulation that uses electrical currents to stimulate specific areas of the brain. A constant, low-intensity current passes through two to four electrodes, which can be placed on various locations on the head, to modulate neuronal activity. tDCS can administer anodal and cathodal stimulation to excite (depolarization) or inhibit (hyperpolarization) neuronal activity, respectively. Using low-amplitude direct currents applied via scalp electrodes to alter cortical excitability is not a novel concept. This non-pharmacological approach has held promise for decades as a way to treat a plethora of neurological and psychiatric disorders. The sham group will receive 1 minute from 0.0mA to no more than 0.5mA at the initiation of the treatment after which the current will be turned off. This is to maintain a blind trial. 0.5mA is negligible current, but mimics treatment with an initial small tingle.

Arm

Intervention/Treatment

Experimental: Treatment

For visits 1-5 (tDCS treatment visits), the investigators will start with 0.5mA ramping up to 0.75mA for 5 minutes. Followed by a brief (8 sec) EEG recording. Then, the investigators will apply .75mA to 1mA for 5 minutes. This will also be followed by 8 second EEG recording. The final application of current will be 1mA to 1.75mA for 10 minutes followed again by 8 second EEG recording.

Device: Transcranial Direct Current Stimulation (tDCS)

TDCS is a non-invasive brain stimulation that uses electrical currents to stimulate specific areas of the brain. A constant, low-intensity current passes through two to four electrodes, which can be placed on various locations on the head, to modulate neuronal activity. tDCS can administer anodal and cathodal stimulation to excite (depolarization) or inhibit (hyperpolarization) neuronal activity, respectively. Using low-amplitude direct currents applied via scalp electrodes to alter cortical excitability is not a novel concept. This non-pharmacological approach has held promise for decades as a way to treat a plethora of neurological and psychiatric disorders. Although tDCS is not currently FDA-approved it is considered a non-significant-risk therapy with no record of serious adverse effects.

Other Names:

tKIWI

ni2o

Sham Comparator: Sham

For visits 1-5 (tDCS treatment visits),The sham group will receive 1 minute from 0.0mA to no more than 0.5mA at the initiation of the treatment after which the current will be turned off. They will still proceed with the full 20 minutes as does the treatment group but no current will be further applied as indicated in the treatment group. They will still receive EEG readings at the indicated 8 seconds after "current" is applied but will not receive the current. This is to maintain a blind trial. 0.5mA is negligible current but mimics treatment with an initial small tingle.

Device: Transcranial Direct Current Stimulation (tDCS) sham

TDCS is a non-invasive brain stimulation that uses electrical currents to stimulate specific areas of the brain. A constant, low-intensity current passes through two to four electrodes, which can be placed on various locations on the head, to modulate neuronal activity. tDCS can administer anodal and cathodal stimulation to excite (depolarization) or inhibit (hyperpolarization) neuronal activity, respectively. Using low-amplitude direct currents applied via scalp electrodes to alter cortical excitability is not a novel concept. This non-pharmacological approach has held promise for decades as a way to treat a plethora of neurological and psychiatric disorders. The sham group will receive 1 minute from 0.0mA to no more than 0.5mA at the initiation of the treatment after which the current will be turned off. This is to maintain a blind trial. 0.5mA is negligible current, but mimics treatment with an initial small tingle.

Outcome Measures

Primary Outcome Measures

Determine the impact of tDCS on pain in chronic pain participants using pain perception scale [14 months]
The investigators will compare the baseline pain perception scale results of subjects in treatment and placebo arms to pain perception scales results on the final day of the treatment and again one week later, enabling investigators to determine any short-term change or durable change to pain. The scale is the Wong-Baker FACES® Pain Rating Scale "Based on the visual representations and descriptions below, please rate your chronic pain on a scale from 1 (no pain) to 10 (worst possible pain)." The measurement is done using the ranking of 1 to 10 in pain, adding up to the total of the response and the larger numbers indicate higher pain levels with no units.
Determine the impact of tDCS on the self-reported reduction in opioid use, or the desire for opioid use. [14 months]
The investigators will compare baseline opioid use and desire to use opioids to final visit in both treatment and sham arms. The measurement will be a comparison in the self-reported survey "Medication for Pain Management Survey". This survey has questions such as, "My need for using opioid pain medication is less than before I participated in this study", and "My desire to use opioid pain medication is less than before I participated in this study". These are answered using "yes, no, or unknown".
Compare the safety of the tDCS system (tKIWI) versus placebo (sham) utilizing blood pressure [14 months]
The investigators will achieve this aim by monitoring subjects' vitals during the entire session of each visit. The measurement is blood pressure (mmHg).
Compare the safety of the tDCS system (tKIWI) versus placebo (sham) utilizing heart rate [14 months]
The investigators will achieve this aim by monitoring subjects' vitals during the entire session of each visit. The measurement is heart rate (bpm).
Compare the safety of the tDCS system (tKIWI) versus placebo (sham) utilizing heart rate [14 months]
The investigators will achieve this aim by monitoring subjects' vitals during the entire session of each visit. The measurement is temperature (degrees C).

Secondary Outcome Measures

Compare changes in brain waves during tDCS treatment sessions in the treatment (tDCS) and placebo (sham) arms. [14 months]
This aim will be achieved by capturing EEG readings of the entire brain for subjects in each treatment arm at baseline, during the treatment phase, and at final study visit 1 week post treatment. The EEG showcases brain wave activity in microvolts (mV).
Compare the tolerability of the tDCS system (tKIWI) versus placebo (sham) [14 months]
We will achieve this aim by evaluating the results of a questionnaire after each treatment session and after the final study visit, enabling us to capture reported discomfort. The questions state "Please report any side-effects as well as the intensity and persistence of reported side-effects you may have experienced during the application of transcranial direct current stimulation (tDCS).", and evaluate if there is itching, tingling, burning, redness, and headaches. If there is a symptom then the participant will note the intensity as "very, a little, or barely"

Eligibility Criteria

Criteria

Ages Eligible for Study:

18 Years to 79 Years

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

Age: 18-79 years old
Gender: Any
Ethnicity: Any
Chronic pain (> 3-months); No current use of nonprescription opioids (< 1 month); Able and willing to comply with scheduled visits and other study-related procedures to complete the study; Willing and able to give informed consent.

Exclusion Criteria:

Diagnosis (as defined by DSM-IV) of: any psychotic disorder (lifetime); eating disorder (current or within the past year); obsessive compulsive disorder (lifetime)); mental retardation.
History of drug or alcohol abuse or dependence (as per DSM-IV criteria) within the last 3 months (except nicotine and caffeine).
Subject is on regular benzodiazepine medication which it is not clinically appropriate to discontinue.
Subject requires a rapid clinical response due to inanition, psychosis or high suicide risk.
Neurological disorder or insult, e.g., recent stroke (CVA), which places subject at risk of seizure or neuronal damage with tDCS.
Subject has metal in the cranium, skull defects, or skin lesions on scalp (cuts, abrasions, rash) at proposed electrode sites.
Female subject who is pregnant.
Participants who are not fluent in English will not be included in the trial for safety reasons: a) It is usually not possible to have an interpreter reliably available every weekday for up to 4 weeks and it is not safe to give tDCS to a subject who cannot tell us immediately of any side effects; Note that translation of the proposed ACT activity into English has not been validated and that we cannot be confident that they would be accurately translated and validated.
Minors
Older than 79 years old
last use >24 months
history of EEG or any electrical implant (i.e. pacemaker)
history of Parkinson's, diagnosis of bipolar, schizophrenia/schizo-affective d/o, OCD, epilepsy, alzheimers
taking antipsychotic drugs

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	University of Arizona	Tucson	Arizona	United States	85719

Sponsors and Collaborators

University of Arizona
ni20

Investigators

Principal Investigator: Allison J Huff, DHEd, University of Arizona

Study Documents (Full-Text)

More Information

Publications

None provided.

Responsible Party:

Allison J Huff Macpherson, Assistant Professor, Family and Community Medicine, University of Arizona

ClinicalTrials.gov Identifier:

NCT05863494

Other Study ID Numbers:

STUDY00001896

First Posted:

May 18, 2023

Last Update Posted:

May 18, 2023

Last Verified:

May 1, 2023

Individual Participant Data (IPD) Sharing Statement:

Yes

Plan to Share IPD:

Yes

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Keywords provided by Allison J Huff Macpherson, Assistant Professor, Family and Community Medicine, University of Arizona

chronic pain

transcranial direct current stimulation

Additional relevant MeSH terms:

Chronic Pain

Study Results

No Results Posted as of May 18, 2023