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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT06112093
Other study ID # 1825424
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date October 23, 2023
Est. completion date October 23, 2027

Study information

Verified date December 2023
Source State University of New York - Upstate Medical University
Contact Yi-Ling Kuo, PT, PhD
Phone 3154646911
Email kuoy@upstate.edu
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This study aims to examine the long-term effect of repetitive transcranial magnetic stimulation (rTMS), a non-invasive brain stimulation technique, on chronic headaches following mild traumatic brain injury (mTBI). rTMS has been shown to be effective in reducing chronic headaches without side effects commonly seen in medications, such as sleepiness and addiction. This study uses rTMS to manage chronic headaches to improve post-concussion symptoms and reduce the economic burden due to delayed recovery. This project aims to better identify biomarkers for diagnosis and prognosis and maximize recovery from mTBI.


Recruitment information / eligibility

Status Recruiting
Enrollment 30
Est. completion date October 23, 2027
Est. primary completion date October 23, 2026
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 18 Years to 55 Years
Eligibility Inclusion Criteria: - 18 - 55 years old who were actively working prior to mTBI - first-ever mTBI with loss of consciousness for less than 30 min, initial Glasgow Coma Scale between 13 and 15, or post-traumatic amnesia for = 24 hours - diagnosis of persistent post-traumatic headache according to the International Classification of Headache Disorders, 3rd edition (ICHD-3) criteria by a board-certified physician with subspecialty certification in Brain Injury Medicine - headache develops within 7 days after head trauma - headache persists for >=3 months after head trauma despite receiving standard care - average persistent headache intensity is >= 3/10 of the numerical rating scale (NRS) on >=3days/week - no evidence of radiculopathy or peripheral neuropathy on electromyography or clinical evaluation - no evidence of other possible causes of headaches Exclusion Criteria: - history of chronic headache diagnoses such as migraine, tension, or cluster headaches prior to the incidence of mTBI - history of other neurologic conditions with medications affecting the central nervous system - contraindications of receiving TMS (e.g., a history of epileptic seizure and having implants like a cardiac pacemaker or intracerebral vascular clip

Study Design


Intervention

Device:
Repetitive Transcranial Magnetic Stimulation
rTMS will be used to regulate the motor cortex to reduce headaches and post-concussion symptoms.
Sham Repetitive Transcranial Magnetic Stimulation
Sham rTMS will be delivered by a sham coil as a comparator to the (active) rTMS. Sham rTMS will not change the brain function of the control group.

Locations

Country Name City State
United States SUNY Upstate Medical University Syracuse New York

Sponsors (1)

Lead Sponsor Collaborator
State University of New York - Upstate Medical University

Country where clinical trial is conducted

United States, 

References & Publications (21)

Askew RL, Cook KF, Revicki DA, Cella D, Amtmann D. Evidence from diverse clinical populations supported clinical validity of PROMIS pain interference and pain behavior. J Clin Epidemiol. 2016 May;73:103-11. doi: 10.1016/j.jclinepi.2015.08.035. Epub 2016 Feb 27. — View Citation

Bomyea J, Lang AJ, Delano-Wood L, Jak A, Hanson KL, Sorg S, Clark AL, Schiehser DM. Neuropsychiatric Predictors of Post-Injury Headache After Mild-Moderate Traumatic Brain Injury in Veterans. Headache. 2016 Apr;56(4):699-710. doi: 10.1111/head.12799. Epub 2016 Mar 29. — View Citation

Choi GS, Kwak SG, Lee HD, Chang MC. Effect of high-frequency repetitive transcranial magnetic stimulation on chronic central pain after mild traumatic brain injury: A pilot study. J Rehabil Med. 2018 Feb 28;50(3):246-252. doi: 10.2340/16501977-2321. — View Citation

De Kruijk JR, Leffers P, Menheere PP, Meerhoff S, Rutten J, Twijnstra A. Prediction of post-traumatic complaints after mild traumatic brain injury: early symptoms and biochemical markers. J Neurol Neurosurg Psychiatry. 2002 Dec;73(6):727-32. doi: 10.1136/jnnp.73.6.727. — View Citation

Full KM, Kerr J, Grandner MA, Malhotra A, Moran K, Godoble S, Natarajan L, Soler X. Validation of a physical activity accelerometer device worn on the hip and wrist against polysomnography. Sleep Health. 2018 Apr;4(2):209-216. doi: 10.1016/j.sleh.2017.12.007. Epub 2018 Jan 17. — View Citation

Glatt SJ, Tsuang MT, Winn M, Chandler SD, Collins M, Lopez L, Weinfeld M, Carter C, Schork N, Pierce K, Courchesne E. Blood-based gene expression signatures of infants and toddlers with autism. J Am Acad Child Adolesc Psychiatry. 2012 Sep;51(9):934-44.e2. doi: 10.1016/j.jaac.2012.07.007. Epub 2012 Aug 2. — View Citation

Hess JL, Quinn TP, Zhang C, Hearn GC, Chen S; Neuropsychiatric Consortium for Analysis and Sharing of Transcriptomes; Kong SW, Cairns M, Tsuang MT, Faraone SV, Glatt SJ. BrainGENIE: The Brain Gene Expression and Network Imputation Engine. Transl Psychiatry. 2023 Mar 22;13(1):98. doi: 10.1038/s41398-023-02390-w. — View Citation

Hess JL, Tylee DS, Barve R, de Jong S, Ophoff RA, Kumarasinghe N, Tooney P, Schall U, Gardiner E, Beveridge NJ, Scott RJ, Yasawardene S, Perera A, Mendis J, Carr V, Kelly B, Cairns M; Neurobehavioural Genetics Unit; Tsuang MT, Glatt SJ. Transcriptome-wide mega-analyses reveal joint dysregulation of immunologic genes and transcription regulators in brain and blood in schizophrenia. Schizophr Res. 2016 Oct;176(2-3):114-124. doi: 10.1016/j.schres.2016.07.006. Epub 2016 Jul 20. — View Citation

Hiskens MI, Schneiders AG, Angoa-Perez M, Vella RK, Fenning AS. Blood biomarkers for assessment of mild traumatic brain injury and chronic traumatic encephalopathy. Biomarkers. 2020 May;25(3):213-227. doi: 10.1080/1354750X.2020.1735521. Epub 2020 Mar 12. — View Citation

Howard L, Schwedt TJ. Posttraumatic headache: recent progress. Curr Opin Neurol. 2020 Jun;33(3):316-322. doi: 10.1097/WCO.0000000000000815. — View Citation

Iverson GL, Gardner AJ, Terry DP, Ponsford JL, Sills AK, Broshek DK, Solomon GS. Predictors of clinical recovery from concussion: a systematic review. Br J Sports Med. 2017 Jun;51(12):941-948. doi: 10.1136/bjsports-2017-097729. — View Citation

Kuo YL, Kutch JJ, Fisher BE. Relationship between Interhemispheric Inhibition and Dexterous Hand Performance in Musicians and Non-musicians. Sci Rep. 2019 Aug 9;9(1):11574. doi: 10.1038/s41598-019-47959-y. — View Citation

Kuo YL, Lin DJ, Vora I, DiCarlo JA, Edwards DJ, Kimberley TJ. Transcranial magnetic stimulation to assess motor neurophysiology after acute stroke in the United States: Feasibility, lessons learned, and values for future research. Brain Stimul. 2022 Jan-Feb;15(1):179-181. doi: 10.1016/j.brs.2021.12.001. Epub 2021 Dec 7. No abstract available. — View Citation

Lefaucheur JP, Aleman A, Baeken C, Benninger DH, Brunelin J, Di Lazzaro V, Filipovic SR, Grefkes C, Hasan A, Hummel FC, Jaaskelainen SK, Langguth B, Leocani L, Londero A, Nardone R, Nguyen JP, Nyffeler T, Oliveira-Maia AJ, Oliviero A, Padberg F, Palm U, Paulus W, Poulet E, Quartarone A, Rachid F, Rektorova I, Rossi S, Sahlsten H, Schecklmann M, Szekely D, Ziemann U. Evidence-based guidelines on the therapeutic use of repetitive transcranial magnetic stimulation (rTMS): An update (2014-2018). Clin Neurophysiol. 2020 Feb;131(2):474-528. doi: 10.1016/j.clinph.2019.11.002. Epub 2020 Jan 1. Erratum In: Clin Neurophysiol. 2020 May;131(5):1168-1169. — View Citation

Leung A, Fallah A, Shukla S, Lin L, Tsia A, Song D, Polston G, Lee R. rTMS in Alleviating Mild TBI Related Headaches--A Case Series. Pain Physician. 2016 Feb;19(2):E347-54. — View Citation

Leung A, Shukla S, Fallah A, Song D, Lin L, Golshan S, Tsai A, Jak A, Polston G, Lee R. Repetitive Transcranial Magnetic Stimulation in Managing Mild Traumatic Brain Injury-Related Headaches. Neuromodulation. 2016 Feb;19(2):133-41. doi: 10.1111/ner.12364. Epub 2015 Nov 10. — View Citation

Major BP, Rogers MA, Pearce AJ. Using transcranial magnetic stimulation to quantify electrophysiological changes following concussive brain injury: a systematic review. Clin Exp Pharmacol Physiol. 2015 Apr;42(4):394-405. doi: 10.1111/1440-1681.12363. — View Citation

Minen MT, Boubour A, Walia H, Barr W. Post-Concussive Syndrome: a Focus on Post-Traumatic Headache and Related Cognitive, Psychiatric, and Sleep Issues. Curr Neurol Neurosci Rep. 2016 Nov;16(11):100. doi: 10.1007/s11910-016-0697-7. — View Citation

Rossi S, Antal A, Bestmann S, Bikson M, Brewer C, Brockmoller J, Carpenter LL, Cincotta M, Chen R, Daskalakis JD, Di Lazzaro V, Fox MD, George MS, Gilbert D, Kimiskidis VK, Koch G, Ilmoniemi RJ, Lefaucheur JP, Leocani L, Lisanby SH, Miniussi C, Padberg F, Pascual-Leone A, Paulus W, Peterchev AV, Quartarone A, Rotenberg A, Rothwell J, Rossini PM, Santarnecchi E, Shafi MM, Siebner HR, Ugawa Y, Wassermann EM, Zangen A, Ziemann U, Hallett M; basis of this article began with a Consensus Statement from the IFCN Workshop on "Present, Future of TMS: Safety, Ethical Guidelines", Siena, October 17-20, 2018, updating through April 2020. Safety and recommendations for TMS use in healthy subjects and patient populations, with updates on training, ethical and regulatory issues: Expert Guidelines. Clin Neurophysiol. 2021 Jan;132(1):269-306. doi: 10.1016/j.clinph.2020.10.003. Epub 2020 Oct 24. — View Citation

Rossini PM, Burke D, Chen R, Cohen LG, Daskalakis Z, Di Iorio R, Di Lazzaro V, Ferreri F, Fitzgerald PB, George MS, Hallett M, Lefaucheur JP, Langguth B, Matsumoto H, Miniussi C, Nitsche MA, Pascual-Leone A, Paulus W, Rossi S, Rothwell JC, Siebner HR, Ugawa Y, Walsh V, Ziemann U. Non-invasive electrical and magnetic stimulation of the brain, spinal cord, roots and peripheral nerves: Basic principles and procedures for routine clinical and research application. An updated report from an I.F.C.N. Committee. Clin Neurophysiol. 2015 Jun;126(6):1071-1107. doi: 10.1016/j.clinph.2015.02.001. Epub 2015 Feb 10. — View Citation

Yu L, Buysse DJ, Germain A, Moul DE, Stover A, Dodds NE, Johnston KL, Pilkonis PA. Development of short forms from the PROMIS sleep disturbance and Sleep-Related Impairment item banks. Behav Sleep Med. 2011 Dec 28;10(1):6-24. doi: 10.1080/15402002.2012.636266. — View Citation

* Note: There are 21 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary Daily headache diary - intensity Headaches will be documented by a daily headache diary during rTMS intervention about the intensity (by numerical rating scale). daily documentation throughout the treatment course (4 weeks)
Primary Daily headache diary - frequency Headaches will be documented by a daily headache diary during rTMS intervention about the frequency (by episode). daily documentation throughout the treatment course (4 weeks)
Primary Daily headache diary - duration Headaches will be documented by a daily headache diary during rTMS intervention about the duration (by hour). daily documentation throughout the treatment course (4 weeks)
Primary Patient-Reported Outcomes Measurement Information System (PROMIS) The PROMIS questionnaires with subsections of 1) pain interference, 2) pain behavior, 3) sleep disturbance, 4) sleep-related impairment will be used as patient-reported outcomes of pain and sleep. For all subsections, on a scale of 1 to 5, higher numbers indicate worse outcomes. baseline, immediately post-treatment (completion of rTMS), 1-month follow-up, 3-month follow-up
Primary Headache impact test 6 (HIT-6) The HIT-6 will be used to assess the impact of headaches on one's ability to function in occupational and social lives. On a scale of 36 to 78, higher numbers indicate worse outcomes. baseline, immediately post-treatment (completion of rTMS), 1-month follow-up, 3-month follow-up
Primary Post-Concussion Symptom Scale (PCSS) The change in global post-concussion symptoms will be measured by the PCSS. On a scale of 1 to 5, higher numbers indicate worse outcomes. baseline, immediately post-treatment (completion of rTMS), 1-month follow-up, 3-month follow-up
Primary Rivermead Post-Concussion Symptoms Questionnaire (RPQ) The change in global post-concussion symptoms will be measured by the RPQ. On a scale of 0 to 4, higher numbers indicate worse outcomes. baseline, immediately post-treatment (completion of rTMS), 1-month follow-up, 3-month follow-up
Primary Wrist actigraphy - sleep quality Kinematic assessments by the wrist actigraphy will be worn to measure sleep quality. baseline, immediately post-treatment (completion of rTMS)
Primary Wrist actigraphy - physical activity level Kinematic assessments by the wrist actigraphy will be worn to measure physical activity level. baseline, immediately post-treatment (completion of rTMS)
Primary Neurophysiological measures by TMS Neurophysiology will be measured by TMS to indicate changes in brain function. baseline, immediately post-treatment (completion of rTMS)
Primary Gene expression Peripheral blood will be collected to measure mRNA to impute gene expression. baseline, immediately post-treatment (completion of rTMS)
Secondary Length of rehabilitation (LOR) LOR will be recorded by reviewing the medical chart. 3-month follow-up
Secondary Return to work (RTW) RTW will be will be calculated as the percent of time working relative to the pre-mTBI workload. 3-month follow-up
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