Physiology of Interregional Connectivity in the Human Brain

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Primary Purpose

Status

Unknown status

Phase

Not Applicable

Locations

United States

Study Type

Interventional

Intervention

Single-pulse transcranial magnetic stimulation (spTMS)

Paired associative stimulation (PAS)

Repetitive transcranial magnetic stimulation (rTMS)

About this trial

This is an interventional basic science trial for Healthy focused on measuring Human, Brain, Connectivity, Stroke, Traumatic brain injury, Multiple sclerosis, Transcranial magnetic stimulation, Paired associative stimulation, Electroencephalography, Magnetic resonance imaging

Eligibility Criteria

18 Years - 85 Years (Adult, Older Adult)All SexesAccepts Healthy Volunteers

Inclusion Criteria:

Inclusion Criteria for Healthy Participants:

Age from 18 to 85 years
Right-handed
Normal hearing and (corrected) vision
Able to understand and give informed consent
English speaker

Inclusion Criteria for Patients:

Age from 18 to 85 years
Stroke (ischemic subcortical, intermediate level, chronic phase 3 weeks or more from lesion)
TBI (closed-skull, intermediate level, chronic phase 3 weeks or more from lesion)
MS (white matter subcortical lesion)
Clinical and radiological evidence supporting the above diagnoses
One or more behavioral symptoms possibly linked to the white matter lesion(s)
Stable medical condition
English speaker

Exclusion Criteria:

Exclusion Criteria for Healthy Participants:

Cardiac pacemaker or pacemaker wires; neurostimulators; implanted pumps
Metal in the body (rods, plates, screws, shrapnel, dentures, IUD) or metallic particles in the eye
Surgical clips in the head or previous neurosurgery
Any magnetic particles in the body
Cochlear implants
Prosthetic heart valves
Epilepsy or any other type of seizure history
Any neurological diagnoses or medications influencing brain function
History of significant head trauma (i.e., extended loss of consciousness, neurological sequelae)
Known structural brain lesion
Significant other disease (heart disease, malignant tumors, mental disorders)
Significant claustrophobia; Ménière's disease
Pregnancy (ruled out by urine ß-HCG if answers to screening questions suggest that pregnancy is possible), breast feeding
Non prescribed drug use
Failure to perform the behavioral tasks or neuropsychological evaluation tests
Prisoners

Exclusion Criteria for Patients:

Same as above, excluding the requirement of no structural brain lesion, and medications influencing brain function are allowed
Patients with cortical lesions or CSF-filled cysts/cavities near the TMS sites
MS patients with acute exacerbation

Sites / Locations

Shirley Ryan AbilityLabRecruiting

Arms of the Study

Arm 1

Arm 2

Arm Type

Active Comparator

Experimental

Arm Label

Healthy Participants

Patients

Arm Description

Healthy participants without disorders or medications influencing brain function will be scanned with MRI and undergo single-pulse TMS and PAS during several visits, each with a different asynchrony, while EEG and MEPs are recorded.

Participants with stroke, traumatic brain injury (TBI), or multiple sclerosis (MS) will be scanned with MRI and undergo single-pulse TMS and paired associative stimulation during several visits while EEG is recorded.

Outcomes

Primary Outcome Measures

Changes in EEG effective connectivity

EEG will be recorded with a 64-channel whole-head TMS-compatible device (NeurOne, Bittium, Kuopio, Finland). Data will be collected before (Pre-PAS) and at 1 minute (Post-PAS T1) and at 60 minutes (Post-PAS T60) after PAS. To record spTMS-evoked EEG responses the investigators will deliver 80 single TMS pulses to the two areas receiving PAS, one target after the other in separate runs. Effective connectivity will be measured by comparing the source-resolved EEG evoked response waveforms before (Pre-PAS) and at 1 (Post-PAS T1) and at 60 minutes after PAS (Post-PAS T60).

Changes in resting-state EEG coherence

Resting-state EEG will be recorded with a 64-channel whole-head device (NeurOne, Bittium, Kuopio, Finland). Data will be collected before (Pre-PAS) and at 1 minute (Post-PAS T1) and at 60 minutes (Post-PAS T60) after PAS. Resting-state EEG coherence will be computed in the source space for the two areas receiving PAS from 1 to 100 Hz.

Secondary Outcome Measures

Motor evoked potentials (MEPs)

To assess the effects of PAS in participants where the primary motor cortex (M1) was targeted, spTMS will be administered to the M1 at 110% of resting motor threshold (rMT) while MEPs are recorded from the contralateral hand (NeurOne, Bittium, Kuopio, Finland). The MEPs will be recorded before (Pre-PAS), at 1 minute (Post-PAS T1) and at 60 minutes (Post-PAS T60) after PAS.

MRI functional connectivity

Functional connectivity will be assessed with resting-state MRI (rs-MRI).

MRI structural connectivity

Structural connectivity will be assessed with diffusion tensor imaging (DTI).

Full Information

NCT ID

NCT03723434

First Posted

October 22, 2018

Last Updated

October 26, 2018

Sponsor

Shirley Ryan AbilityLab

Collaborators

Northwestern University

1. Study Identification

Unique Protocol Identification Number

NCT03723434

Brief Title

Physiology of Interregional Connectivity in the Human Brain

Official Title

Physiology of Interregional Connectivity in the Human Brain

Study Type

Interventional

2. Study Status

Record Verification Date

October 2018

Overall Recruitment Status

Unknown status

Study Start Date

May 31, 2017 (Actual)

Primary Completion Date

November 2020 (Anticipated)

Study Completion Date

November 2020 (Anticipated)

3. Sponsor/Collaborators

Responsible Party, by Official Title

Principal Investigator

Name of the Sponsor

Shirley Ryan AbilityLab

Collaborators

Northwestern University

4. Oversight

Studies a U.S. FDA-regulated Drug Product

No

Studies a U.S. FDA-regulated Device Product

No

Data Monitoring Committee

No

5. Study Description

Brief Summary

The purpose of this study is to understand the physiology of connectivity between cortical regions in the human brain in healthy participants and in patients with white matter lesions. Specifically, the investigators will examine the effects of paired associative stimulation (PAS) which consists in delivering brief (< 1 ms) current pulses separated by a short millisecond-level time interval ("asynchrony") to two cortical areas. The used techniques are all non-invasive and considered safe in humans: transcranial magnetic stimulation (TMS), electroencephalography (EEG), magnetic resonance imaging (MRI), and functional MRI (fMRI). Based on prior literature in animals and human studies, it is hypothesized that PAS may increase or decrease effective connectivity between the stimulated areas depending on the asynchrony value. The main outcome measure is source-resolved EEG responses evoked by single-pulse TMS; this is a more direct measure of neuronal changes occurring at the targeted cortical area than motor evoked potentials (MEPs) or sensor-level EEG responses used in previous studies.

Detailed Description

This study consists of two experiments. In Experiment A, healthy participants without disorders or medications influencing brain function (N=24) will be recruited. A range of negative and positive asynchronies (from minus 50 to + 50 ms) will be tested. To allow comparison with prior studies that used MEPs as outcome measures, in 12 participants the primary motor cortex in the left and right hemisphere will be targeted. In another 12 participants, two cortical areas within the same hemisphere will be stimulated. In Experiment B, participants with stroke, traumatic brain injury (TBI), or multiple sclerosis (MS) (total maximum N across all such participants is 52) will be recruited. These participants are required to have one or more subcortical white matter lesions, which would be expected to result in cortico-cortical disconnections. Here, the investigators will only test PAS with positive asynchronies, with the goal of testing if the findings observed in healthy participants are similar in participants with white matter lesions. It will also be examined if the PAS-induced connectivity changes persist beyond the stimulation sessions if PAS is given repeatedly over several days. PAS will be applied to two cortical targets that have been disconnected from each other. The rationale for including more than one disorder in Experiment B is that the disconnections are in all cases caused by white matter lesions and the results may therefore be similar. To detect possible differences between disorders, the data from the three groups will also be analyzed separately.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study

Healthy, Stroke, Traumatic Brain Injury, Multiple Sclerosis

Keywords

Human, Brain, Connectivity, Stroke, Traumatic brain injury, Multiple sclerosis, Transcranial magnetic stimulation, Paired associative stimulation, Electroencephalography, Magnetic resonance imaging

7. Study Design

Primary Purpose

Basic Science

Study Phase

Not Applicable

Interventional Study Model

Parallel Assignment

Model Description

PAS will be applied to two cortical targets at different asynchronies to modulate connectivity. PAS may selectively increase or decrease effective connectivity depending on the asynchrony. Negative asynchronies are expected to decrease effective connectivity, whereas positive asynchronies to increase it.

Masking

None (Open Label)

Allocation

Non-Randomized

Enrollment

76 (Anticipated)

8. Arms, Groups, and Interventions

Arm Title

Healthy Participants

Arm Type

Active Comparator

Arm Description

Healthy participants without disorders or medications influencing brain function will be scanned with MRI and undergo single-pulse TMS and PAS during several visits, each with a different asynchrony, while EEG and MEPs are recorded.

Arm Title

Patients

Arm Type

Experimental

Arm Description

Participants with stroke, traumatic brain injury (TBI), or multiple sclerosis (MS) will be scanned with MRI and undergo single-pulse TMS and paired associative stimulation during several visits while EEG is recorded.

Intervention Type

Device

Intervention Name(s)

Single-pulse transcranial magnetic stimulation (spTMS)

Intervention Description

Single-pulse TMS (spTMS) will be delivered with a TMS stimulator (MagPro X100 w/ MagOption, MagVenture, Farum, Denmark) and a figure-of-eight TMS coil. 80 spTMS will be repeated at 0.2 Hz. An MRI-based TMS navigation system will be used to navigate the TMS coil (Localite, St Augustin, Germany).

Intervention Type

Device

Intervention Name(s)

Paired associative stimulation (PAS)

Intervention Description

Paired associative stimulation (PAS) will be applied with two TMS stimulators (MagPro X100 w/ MagOption, MagVenture, Farum, Denmark) and two TMS coils. The pulses from each stimulator/coil will be repeated at 0.2 Hz, duration of run 15 minutes (180 pulses for each stimulator/coil). In different sessions, we will deliver PAS with different asynchrony values to examine their effects on effective connectivity. Coils will be navigated using an MRI-based TMS navigation system (Localite, St Augustin, Germany).

Intervention Type

Device

Intervention Name(s)

Repetitive transcranial magnetic stimulation (rTMS)

Intervention Description

Repetitive TMS (rTMS) will be applied at 1 and 20 Hz with a TMS stimulator (MagPro X100 w/ MagOption, MagVenture, Farum, Denmark) and a figure-of-eight TMS coil. 300 rTMS pulses will be delivered during 1 and 20 Hz stimulation. An MRI-based TMS navigation system will be used to navigate the TMS coil (Localite, St Augustin, Germany).

Primary Outcome Measure Information:

Title

Changes in EEG effective connectivity

Description

EEG will be recorded with a 64-channel whole-head TMS-compatible device (NeurOne, Bittium, Kuopio, Finland). Data will be collected before (Pre-PAS) and at 1 minute (Post-PAS T1) and at 60 minutes (Post-PAS T60) after PAS. To record spTMS-evoked EEG responses the investigators will deliver 80 single TMS pulses to the two areas receiving PAS, one target after the other in separate runs. Effective connectivity will be measured by comparing the source-resolved EEG evoked response waveforms before (Pre-PAS) and at 1 (Post-PAS T1) and at 60 minutes after PAS (Post-PAS T60).

Time Frame

Experiment A: Within-session (before versus after PAS at 1 and 60 minutes). Experiment B: Within-session (before versus after PAS at 1 and 60 minutes). Across-sessions (persistence of changes up to 1 month after last PAS session).

Title

Changes in resting-state EEG coherence

Description

Resting-state EEG will be recorded with a 64-channel whole-head device (NeurOne, Bittium, Kuopio, Finland). Data will be collected before (Pre-PAS) and at 1 minute (Post-PAS T1) and at 60 minutes (Post-PAS T60) after PAS. Resting-state EEG coherence will be computed in the source space for the two areas receiving PAS from 1 to 100 Hz.

Time Frame

Experiment A: Within-session (before versus after PAS at 1 and 60 minutes). Experiment B: Within-session (before versus after PAS at 1 and 60 minutes). Across-sessions (persistence of changes up to 1 month after last PAS session).

Secondary Outcome Measure Information:

Title

Motor evoked potentials (MEPs)

Description

To assess the effects of PAS in participants where the primary motor cortex (M1) was targeted, spTMS will be administered to the M1 at 110% of resting motor threshold (rMT) while MEPs are recorded from the contralateral hand (NeurOne, Bittium, Kuopio, Finland). The MEPs will be recorded before (Pre-PAS), at 1 minute (Post-PAS T1) and at 60 minutes (Post-PAS T60) after PAS.

Time Frame

Experiment A: Within-session (before versus after PAS at 1 and 60 minutes). Experiment B: Done only in patients where the M1 was targeted with PAS.

Title

MRI functional connectivity

Description

Functional connectivity will be assessed with resting-state MRI (rs-MRI).

Time Frame

Experiment A: Baseline. Experiment B: Baseline to 1 month after the last PAS session.

Title

MRI structural connectivity

Description

Structural connectivity will be assessed with diffusion tensor imaging (DTI).

Time Frame

Experiment A: Baseline. Experiment B: Baseline to 1 month after the last PAS session.

10. Eligibility

Sex

All

Minimum Age & Unit of Time

18 Years

Maximum Age & Unit of Time

85 Years

Accepts Healthy Volunteers

Eligibility Criteria

Inclusion Criteria: Inclusion Criteria for Healthy Participants: Age from 18 to 85 years Right-handed Normal hearing and (corrected) vision Able to understand and give informed consent English speaker Inclusion Criteria for Patients: Age from 18 to 85 years Stroke (ischemic subcortical, intermediate level, chronic phase 3 weeks or more from lesion) TBI (closed-skull, intermediate level, chronic phase 3 weeks or more from lesion) MS (white matter subcortical lesion) Clinical and radiological evidence supporting the above diagnoses One or more behavioral symptoms possibly linked to the white matter lesion(s) Stable medical condition English speaker Exclusion Criteria: Exclusion Criteria for Healthy Participants: Cardiac pacemaker or pacemaker wires; neurostimulators; implanted pumps Metal in the body (rods, plates, screws, shrapnel, dentures, IUD) or metallic particles in the eye Surgical clips in the head or previous neurosurgery Any magnetic particles in the body Cochlear implants Prosthetic heart valves Epilepsy or any other type of seizure history Any neurological diagnoses or medications influencing brain function History of significant head trauma (i.e., extended loss of consciousness, neurological sequelae) Known structural brain lesion Significant other disease (heart disease, malignant tumors, mental disorders) Significant claustrophobia; Ménière's disease Pregnancy (ruled out by urine ß-HCG if answers to screening questions suggest that pregnancy is possible), breast feeding Non prescribed drug use Failure to perform the behavioral tasks or neuropsychological evaluation tests Prisoners Exclusion Criteria for Patients: Same as above, excluding the requirement of no structural brain lesion, and medications influencing brain function are allowed Patients with cortical lesions or CSF-filled cysts/cavities near the TMS sites MS patients with acute exacerbation

Central Contact Person:

First Name & Middle Initial & Last Name or Official Title & Degree

Tommi Raij, MD, PhD

Phone

312-238-4401

Email

tommi.raij@northwestern.edu

First Name & Middle Initial & Last Name or Official Title & Degree

Julio C Hernandez Pavon, PhD, DSc

Phone

312-238-6820

Email

julio.hpavon@northwestern.edu

Overall Study Officials:

First Name & Middle Initial & Last Name & Degree

Tommi Raij, MD, PhD

Organizational Affiliation

Shirley Ryan AbilityLab 355 East Erie St, Chicago, IL Department of Physical Medicine and Rehabilitation, Feinberg School of Medicine, Northwestern University, Chicago, IL

Official's Role

Principal Investigator

Facility Information:

Facility Name

Shirley Ryan AbilityLab

City

Chicago

State/Province

Illinois

ZIP/Postal Code

60611

Country

United States

Individual Site Status

Recruiting

Facility Contact:

First Name & Middle Initial & Last Name & Degree

Tommi Raij, MD, PhD

Phone

312-238-4401

Email

tommi.raij@northwestern.edu

Healthy, Stroke, Traumatic Brain Injury

About this trial

Eligibility Criteria

Sites / Locations

Arms of the Study

Arm 1

Arm 2

Outcomes

Primary Outcome Measures

Secondary Outcome Measures

Full Information

1. Study Identification

2. Study Status

3. Sponsor/Collaborators

4. Oversight

5. Study Description

6. Conditions and Keywords

7. Study Design

8. Arms, Groups, and Interventions

10. Eligibility

12. IPD Sharing Statement

Learn more about this trial