High-Frequency Transdermal Neuromodulation to Decrease Anxiety and Improve Sleep in ASD

Sponsor

Phoenix Children's Hospital (Other)

Overall Status

Completed

CT.gov ID

NCT03859336

Collaborator

(none)

Enrollment

Location

Arm

28.6

Actual Duration (Months)

0.4

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

The objective of this study is to investigate the feasibility of cervical TEN stimulation (TENS) delivered to the back of the neck to decrease anxiety and sleep issues in young adults with Autism Spectrum Disorder (ASD). The specific aim is to determine the effect of TENS, delivered over 3 daily sessions, on anxiety and sleep quality in young adults with ASD, as compared to sham and baseline. The investigator will enroll up to 10 young adults, aged 10 to 25 years of age with confirmed ASD and measureable anxiety and sleep disturbance symptoms, and participation will last 3 weeks.

Condition or Disease	Intervention/Treatment	Phase
Autism Spectrum Disorder	Device: Transdermal Neuromodulation Stimulation	N/A

Detailed Description

Autism spectrum disorder (ASD) is a heterogeneous neurodevelopmental disorder with life-long consequences that affects children during critical times in their development. ASD is associated with co-occurring problems such as anxiety and sleep disturbances. New approaches to managing stress, anxiety, and sleep quality would greatly enhance the quality of life and activities of daily living for children with ASD as they transition to adulthood and age out of services. Based on strong evidence from typically developing individuals, the technology for transdermal electrical neuromodulation (TEN) of the cranial nerves has shown to be a safe, effective, comfortable, and non-pharmacological therapy to modulate the central nervous system decreasing anxiety and enhancing sleep quality to improve the quality of life for people with ASD.

The therapy applies tuned, high-frequency TEN to the back of the neck which activates the brainstem modulating noradrenergic signaling shown to decrease anxiety in healthy adults. The low-amplitude of the stimulation means that it is painless and comfortable. Furthermore, the technology is being evaluated for improving sleep quality. The mechanism of these effects are well established in the neurophysiology literature, but modulating these brainstem areas is only now possible non-invasively with the technology. Participants entered into the trial wil have anxiety and sleep issues that are known to be associated with ASD. The investigators hypothesize that cervical TEN will decrease anxiety and improve sleep quality in a population with high-functioning ASD who are transitioning into adulthood.

The investigators will study 10 young adults, between the ages of 10 years to 25 years, with confirmed ASD and anxiety and sleep quality issues. All participants will be enrolled in the study for approximately 2 weeks. During the first week, participants will undergo 5 consecutive days of stimulation. On Visit 1, all participants will receive sham stimulation, which will be used to exclude placebo responders and those who cannot tolerate study procedures, and determine the maximum stimulation threshold for eligible participants. Additionally, the visit will serve as the baseline day to collect measures of anxiety. The primary physiological anxiety measures include galvanic skin response (GSR) and heart rate variability (HRV). Secondary measures will include data from behavioral surveys, and cortisol and amylase analyses from passive drool samples. Participants will report baseline sleep habits in the form of a questionnaire.

If all eligibility criteria are met, participants will return for 3 consecutive days of open label TEN stimulation treatment. Anxiety measures will be collected at each visit. On the fifth consecutive day, participants will once again receive sham stimulation in order to determine the impact of the open label treatment. Participation will conclude with a one day phone follow-up visit one week from the last treatment day. Caregivers will report participant sleep quality and any adverse effects or changes.

Study Design

Study Type:

Interventional

Actual Enrollment :

10 participants

Allocation:

N/A

Intervention Model:

Single Group Assignment

Intervention Model Description:

Prospective 3 day open-label device trial across all subjects, with 1 day single-blinded sham pre- and post-treatmentProspective 3 day open-label device trial across all subjects, with 1 day single-blinded sham pre- and post-treatment

Masking:

None (Open Label)

Primary Purpose:

Treatment

Official Title:

High-Frequency Transdermal Neuromodulation to Decrease Anxiety and Improve Sleep in Autism Spectrum Disorder (ASD)

Actual Study Start Date :

May 21, 2019

Actual Primary Completion Date :

Jul 19, 2021

Actual Study Completion Date :

Oct 6, 2021

Arms and Interventions

Arm	Intervention/Treatment
Experimental: Transdermal Neuromodulation Stimulation Day 1 of Transdermal Neuromodulation Stimulation (TENS) is a one-day sham stimulation, consisting of: 30 seconds of sensation in which amplitude is increased up to the threshold of salient sensation, followed by 19 minutes of no stimulation (device is turned off), followed by 30 more seconds of salient stimulation. Day 1 is used to exclude those who cannot tolerate study procedures and placebo responders; it will also serve as baseline for anxiety measures. TENS treatment begins one day after sham, and lasts 3 days with 20 minutes of stimulation per day. One day following open label treatment all participants will once again receive sham stimulation following the same procedures utilized at Day 1. Treatment amplitude is adjusted for each participant, in which the stimulation will be administered just below the participant's sensation threshold. Amplitude from the TENS device does not exceed 20mA. Frequency will be at 300hz.	Device: Transdermal Neuromodulation Stimulation The TEN device administers a tuned high frequency electrical stimulation delivered to the cervical plexus (C2-C4) on the back of the neck for 20 minutes. This stimulation will activate common trigeminovagal pathways modulating noradrenergic signaling to attenuate sympathetic activity. This stimulation can subsequently regulate the activity of several deep-brain nuclei within the ascending reticular activating system (RAS). Nuclei in the RAS regulate powerful neuromodulators like norepinephrine (NE), acetylcholine (ACh), and serotonin (5-HT). The investigators will examine whether this modulation from TENS will decrease anxiety and improve sleep quality in the study participants.

Arm

Intervention/Treatment

Experimental: Transdermal Neuromodulation Stimulation

Day 1 of Transdermal Neuromodulation Stimulation (TENS) is a one-day sham stimulation, consisting of: 30 seconds of sensation in which amplitude is increased up to the threshold of salient sensation, followed by 19 minutes of no stimulation (device is turned off), followed by 30 more seconds of salient stimulation. Day 1 is used to exclude those who cannot tolerate study procedures and placebo responders; it will also serve as baseline for anxiety measures. TENS treatment begins one day after sham, and lasts 3 days with 20 minutes of stimulation per day. One day following open label treatment all participants will once again receive sham stimulation following the same procedures utilized at Day 1. Treatment amplitude is adjusted for each participant, in which the stimulation will be administered just below the participant's sensation threshold. Amplitude from the TENS device does not exceed 20mA. Frequency will be at 300hz.

Device: Transdermal Neuromodulation Stimulation

The TEN device administers a tuned high frequency electrical stimulation delivered to the cervical plexus (C2-C4) on the back of the neck for 20 minutes. This stimulation will activate common trigeminovagal pathways modulating noradrenergic signaling to attenuate sympathetic activity. This stimulation can subsequently regulate the activity of several deep-brain nuclei within the ascending reticular activating system (RAS). Nuclei in the RAS regulate powerful neuromodulators like norepinephrine (NE), acetylcholine (ACh), and serotonin (5-HT). The investigators will examine whether this modulation from TENS will decrease anxiety and improve sleep quality in the study participants.

Outcome Measures

Primary Outcome Measures

Change in physiological response measure of heart rate variability in the time-domain as measured by the standard deviation of the normal-to-normal heart beat (SDNN) [Baseline Visit (Day 1), Treatment Visits (Days 2, 3, and 4), Sham Visit (Day 5)]
The standard deviation of the normal-to-normal heart beat (SDNN) is the time-domain based measured of heart rate variability. It is measured by calculating the standard deviation of the heart beat-to-beat time interval, which is measured in milliseconds. Anxiety reduction will be demonstrated by a reduction in the SDNN value during a stressor in response to TEN treatment, as compared to baseline.
Change in physiological response measure of heart rate variability in the frequency-domain as measured by the power of the low frequency (LF) band [Baseline Visit (Day 1), Treatment Visits (Days 2, 3, and 4), Sham Visit (Day 5)]
The low frequency (LF) component of heart rate variability (HRV) is the frequency band ranging from 0.04-0.15Hz of the waveform created by heart rate oscillations. Spectral power is calculated for this band in milliseconds squared. Anxiety reduction will be demonstrated by a reduction in the power value of the LF HRV component during a stressor in response to TEN treatment, as compared to baseline.
Change in physiological response measure of heart rate variability in the frequency-domain as measured by the power of the high frequency (HF) band [Baseline Visit (Day 1), Treatment Visits (Days 2, 3, and 4), Sham Visit (Day 5)]
The high frequency (HF) component of heart rate variability (HRV) is the frequency band ranging from 0.15-0.4Hz of the waveform created by heart rate oscillations. Spectral power is calculated for this band in milliseconds squared. Anxiety reduction will be demonstrated by a reduction in the power value of the HF HRV component during a stressor in response to TEN treatment, as compared to baseline.
Change in physiological response measure of galvanic skin response (GSR) [Baseline Visit (Day 1), Treatment Visits (Days 2, 3, and 4), Sham Visit (Day 5)]
Galvanic skin response (GSR) is an electrodermal conductance measurement that reflects the changes in sweat gland activity, which is measured in microsiemens (μS). Anxiety reduction will be analyzed through a suppression of GSR activity value during a stressor in response to TEN treatment, as compared to baseline data.

Secondary Outcome Measures

Change in the Screen for Child Anxiety Related Disorders (SCARED) score [Baseline Visit (Day 1), Treatment Visits (Days 2, 3, and 4), Sham Visit (Day 5)]
The Screen for Child Anxiety Related Disorders (SCARED) is a 41-item self-reported inventory that measures anxiety in youth with ASD. Each item rates the severity of a symptom or behavior on a 3 point scale from 0 (Not true or Hardly Ever True) to 2 (Very True or Often True). A decrease in the total score of the 41 items, ranging from 0 to 82, will be used as a secondary measure to define a positive response.
Change in the Parent Reported Anxiety Scale (PRAS) score [Baseline Visit (Day 1), Treatment Visits (Days 2, 3, and 4), Sham Visit (Day 5)]
The Parent-rated Anxiety Scale for Autism Spectrum Disorder is a 25-item scale that measures anxiety in youth with ASD. Each item rates the severity of a behavior on a 4 point scale from 0 (None/not present) to 3 (Severe/Very frequent and a major problem). A decrease in the total score of the 25 items, ranging from 0 to 75, will be used as a secondary measure to define a positive response.
Change in amylase and cortisol levels [Baseline Visit (Day 1), Treatment Visits (Days 2, 3, and 4), Sham Visit (Day 5)]
Another secondary outcome measure for anxiety will be to quantify α-amylase and cortisol levels in the collected saliva samples, comparing post-treatment sample levels to pre-treatment within a visit. Successful anxiety reduction will be demonstrated by reduced levels of α-amylase and cortisol in the sample as compared to pre-TEN treatment levels.
Change in the Children's Sleep Habits Questionnaire (CSHQ) score [Baseline Visit (Day 1), Treatment Visits (Days 2, 3, and 4), Sham Visit (Day 5), Follow-Up (1 week following sham visit)]
The Children's Sleep Habits Questionnaire (CSHQ) is a 39-item informant-reported questionnaire that measures sleep quality in children. Each item rates the frequency of a sleeping behavior on a 3 point scale from 1 (Never/Rarely, 0-1 nights per week) to 3(Usually, 5-7 nights pers week). The questionnaire also consists of questions asking whether certain behaviors are a problem with the options of a "yes" or "no" response. Improved sleep quality will be determined by a decrease in scores on the CSHQ subscales and the CSHQ combined total score, ranging from 31-93.

Eligibility Criteria

Criteria

Ages Eligible for Study:

10 Years to 25 Years

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

Between the age of 10 - 25 years old
IQ > 80, to be evaluated during the screening visit using the Kaufman Brief Intelligence Test (KBIT)
Self-reported complaints about anxiety and/or sleep issues
Screen for Child Anxiety Related Disorders (SCARED) - Parent Form, score >= 25
Able to follow directions in English

Exclusion Criteria:

• IQ ≤ 80, to be evaluated during the screening visit using the KBIT
SCARED - Parent Form, Score < 25
Has a medical implant (such as a pacemaker, cochlear implant, brain stimulation device, spinal stimulator)
History of significant face/head injury including cranial or facial metal plate or screw implants
Pregnant
History of migraines or frequent headaches (more than once a week)
Started taking anti-anxiety medications less than 3 months prior to study participation or has not been taking anti-anxiety medications consistently for at least 3 months prior to study participation
Fainting (vaso-vagal syncope or neurocardiogenic syncope)
Diagnosis of Raynaud's disease
Tempromandibular joint (TMJ) disorder or other facial neuropathy
Poor vision or hearing that is uncorrectable
Seizures in the last 2 years
Evidence of skin disease or skin abnormalities affecting the neck or upper back
Upper extremity contractures

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	Phoenix Children's Hospital	Phoenix	Arizona	United States	85016

Sponsors and Collaborators

Phoenix Children's Hospital

Investigators

Principal Investigator: Richard E Frye, MD, PhD, Phoenix Children's Hospital

Study Documents (Full-Text)

None provided.

More Information

Additional Information:

Published Report of Results

Publications

Responsible Party:

Richard Frye, MD, PhD, Chief of Neurodevelopmental Disorders at Barrow Neurological Institute, Phoenix Children's Hospital

ClinicalTrials.gov Identifier:

NCT03859336

Other Study ID Numbers:

TENS_ASD

First Posted:

Mar 1, 2019

Last Update Posted:

Dec 20, 2021

Last Verified:

Dec 1, 2021

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

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

Yes

Product Manufactured in and Exported from the U.S.:

Yes

Keywords provided by Richard Frye, MD, PhD, Chief of Neurodevelopmental Disorders at Barrow Neurological Institute, Phoenix Children's Hospital

Anxiety

Sleep Issues

Additional relevant MeSH terms:

Autism Spectrum Disorder

Study Results

No Results Posted as of Dec 20, 2021