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The aim of the study is to evaluate the safety, feasibility, clinical and biological efficacy, and predictors of efficacy of an intervention consisting of repetitive transcranial magnetic stimulation (rTMS) in patients with frontotemporal dementia (FTLD) or in asymptomatic persons at risk of FTLD (i.e., persons familiar with FTLD patients).
rTMS is a non-invasive brain stimulation technique, and has demonstrated the ability to modulate neuronal activity by applying high-frequency magnetic fields to the surface of the skull. rTMS offers a potentially effective means to influence neural networks involved in the pathogenesis of neurodegenerative diseases, with benefits that could extend beyond symptomatic relief. Its safety has been widely documented in a variety of clinical conditions, making it an ideal candidate for application in neurodegenerative diseases.
In the present study, participants will undergo the following procedures: (i) clinical and neuropsychological assessment, (ii) TMS, and (iii) blood sampling. The occurrence of adverse events will be monitored throughout the duration of the study.
The study is structured in two phases. In the first phase, double-blind, randomised and placebo-controlled, participants will be randomised into two groups: group 1, participants will receive real rTMS for 2 weeks; and group 2, placebo rTMS for 2 weeks. In the second, open-label phase, after 10 weeks, both group 1 and group 2 participants will receive real rTMS for 2 weeks. Each participant will receive a total of 4 weeks of intervention (4 weeks of real stimulation in group 1, or 2 weeks of real stimulation and 2 weeks of placebo stimulation in group 2), with 5 sessions per week (Monday to Friday) lasting approximately 30 minutes each.
Visits will take place at the beginning of the study (T00) and after 2 weeks (T02, end of the first phase), 12 weeks (T12, beginning of the second phase), 14 weeks (T14, end of the second phase), 24 weeks (T24, follow-up). During each visit, participants underwent the following procedures: (i) clinical and neuropsychological assessment, (ii) blood sampling, and (iii) TMS. Specific biomarker analyses will be performed on the blood samples to study the pathophysiological mechanisms of the disease and the effect of the experimental intervention.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Real iTBS - Real iTBS | Experimental | 10 sessions of theta burst stimulation (5 days/week for 2 weeks) followed by an open-label 10 sessions of theta burst stimulation (5 days/week for 2 weeks) |
|
| Sham iTBS - Real iTBS | Sham Comparator | 10 sessions of sham stimulation (5 days/week for 2 weeks) followed by an open-label 10 sessions of theta burst stimulation (5 days/week for 2 weeks) |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Theta burst stimulation | Device | 10 sessions (5 days/week for 2 weeks) of 20 trains of 10 bursts, each containing 3 pulses at 50 Hz, applied at a frequency of 5 Hz (total pulses: 600, total duration: approx. 3 minutes); this protocol will be repeated twice within each single session. |
| Measure | Description | Time Frame |
|---|---|---|
| Safety of repetitive Transcranial Magnetic Stimulation Protocol | Safety will be assessed in terms of the frequency and severity of any adverse events. Safety will be monitored throughout the duration of the study. | Through study completion, at week 24 |
| Feasibility of repetitive Transcranial Magnetic Stimulation Protocol | Feasibility will be assessed according to the study drop-out rate. Feasibility will be monitored throughout the duration of the study. | Through study completion, at week 24 |
| Effectiveness in restoring neurotransmission | Neurotransmission will be assessed by measuring changes in glutamatergic (intracortical facilitation, ICF) and GABAergic (short-interval intracortical inhibition, SICI) neurotransmission assessed indirectly through TMS. | Through study completion, at week 24 |
| Measure | Description | Time Frame |
|---|---|---|
| Clinical effectiveness | Clinical effectiveness will be assessed by measuring changes in clinical and cognitive measures, in behavioural and neuropsychiatric symptoms, and in caregiver burden. Specifically, the following instruments will be used: Clinical Global Impression (CGI) Severity (CGI-S) and Improvement (CGI-I) and FBI. | Change from baseline to week 2, 12, 14, 24 |
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Inclusion Criteria:
Exclusion Criteria:
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| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| IRCCS Istituto Centro San Giovanni Di Dio - Fatebenefratelli Brescia | Recruiting | Brescia | Italy | 25125 | Italy |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 29559782 | Background | Antczak J, Kowalska K, Klimkowicz-Mrowiec A, Wach B, Kasprzyk K, Banach M, Rzeznicka-Brzegowy K, Kubica J, Slowik A. Repetitive transcranial magnetic stimulation for the treatment of cognitive impairment in frontotemporal dementia: an open-label pilot study. Neuropsychiatr Dis Treat. 2018 Mar 13;14:749-755. doi: 10.2147/NDT.S153213. eCollection 2018. | |
| 36688161 |
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| ID | Term |
|---|---|
| D057174 | Frontotemporal Lobar Degeneration |
| ID | Term |
|---|---|
| D003704 | Dementia |
| D001927 | Brain Diseases |
| D002493 | Central Nervous System Diseases |
| D009422 | Nervous System Diseases |
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The study is structured in two phases. In the first phase, double-blind, randomised and placebo-controlled, participants will be randomised into two groups: group 1, participants will receive real rTMS for 2 weeks; and group 2, placebo rTMS for 2 weeks. In the second, open-label phase, after 10 weeks, both group 1 and group 2 participants will receive real rTMS for 2 weeks. Each participant will receive a total of 4 weeks of intervention (4 weeks of real stimulation in group 1, or 2 weeks of real stimulation and 2 weeks of placebo stimulation in group 2), with 5 sessions per week (Monday to Friday) lasting approximately 30 minutes each.
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|
| Sham Theta burst stimulation | Device | 10 sessions (5 days/week for 2 weeks) of sham theta burst stimulation.The device providing Theta Burst Stimulation can be placed in the same position and turned on, creating a similar experience for the participant, without providing any neural stimulation. |
|
| Biological efficacy | Biological efficacy will be assessed via blood sampling by measuring changes in neurodegeneration biomarkers: neurofilament light (NfL, measured in pg/mL); astrogliosis: Serum Glial Fibrillary Acidic Protein (GFAP, measured in pg/mL). | Change from baseline to week 2, 12, 14, 24 |
| Predictors of efficacy | We will assess whether demographic characteristics (age, gender, level of education), genetic traits (comparing genetic and sporadic forms of FTD), clinical phenotype (bvFTD, avPPA, svPPA, CBS, or PSP), disease severity, markers of cognitive reserve, and plasma biomarker profile are correlated with better treatment response. | Change from baseline to week 2, 12, 14, 24 |
| Dong K, Zhu X, Xiao W, Gan C, Luo Y, Jiang M, Liu H, Chen X. Comparative efficacy of transcranial magnetic stimulation on different targets in Parkinson's disease: A Bayesian network meta-analysis. Front Aging Neurosci. 2023 Jan 4;14:1073310. doi: 10.3389/fnagi.2022.1073310. eCollection 2022. |
| 36147701 | Background | Wei Z, Fu J, Liang H, Liu M, Ye X, Zhong P. The therapeutic efficacy of transcranial magnetic stimulation in managing Alzheimer's disease: A systemic review and meta-analysis. Front Aging Neurosci. 2022 Sep 6;14:980998. doi: 10.3389/fnagi.2022.980998. eCollection 2022. |
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| 34874596 | Background | Benussi A, Alberici A, Samra K, Russell LL, Greaves CV, Bocchetta M, Ducharme S, Finger E, Fumagalli G, Galimberti D, Jiskoot LC, Le Ber I, Masellis M, Nacmias B, Rowe JB, Sanchez-Valle R, Seelaar H, Synofzik M; GENFI Consortium; Rohrer JD, Borroni B. Conceptual framework for the definition of preclinical and prodromal frontotemporal dementia. Alzheimers Dement. 2022 Jul;18(7):1408-1423. doi: 10.1002/alz.12485. Epub 2021 Dec 7. |
| 28467028 | Background | Hoglinger GU, Respondek G, Stamelou M, Kurz C, Josephs KA, Lang AE, Mollenhauer B, Muller U, Nilsson C, Whitwell JL, Arzberger T, Englund E, Gelpi E, Giese A, Irwin DJ, Meissner WG, Pantelyat A, Rajput A, van Swieten JC, Troakes C, Antonini A, Bhatia KP, Bordelon Y, Compta Y, Corvol JC, Colosimo C, Dickson DW, Dodel R, Ferguson L, Grossman M, Kassubek J, Krismer F, Levin J, Lorenzl S, Morris HR, Nestor P, Oertel WH, Poewe W, Rabinovici G, Rowe JB, Schellenberg GD, Seppi K, van Eimeren T, Wenning GK, Boxer AL, Golbe LI, Litvan I; Movement Disorder Society-endorsed PSP Study Group. Clinical diagnosis of progressive supranuclear palsy: The movement disorder society criteria. Mov Disord. 2017 Jun;32(6):853-864. doi: 10.1002/mds.26987. Epub 2017 May 3. |
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| 21325651 | Background | Gorno-Tempini ML, Hillis AE, Weintraub S, Kertesz A, Mendez M, Cappa SF, Ogar JM, Rohrer JD, Black S, Boeve BF, Manes F, Dronkers NF, Vandenberghe R, Rascovsky K, Patterson K, Miller BL, Knopman DS, Hodges JR, Mesulam MM, Grossman M. Classification of primary progressive aphasia and its variants. Neurology. 2011 Mar 15;76(11):1006-14. doi: 10.1212/WNL.0b013e31821103e6. Epub 2011 Feb 16. |
| 21810890 | Background | Rascovsky K, Hodges JR, Knopman D, Mendez MF, Kramer JH, Neuhaus J, van Swieten JC, Seelaar H, Dopper EG, Onyike CU, Hillis AE, Josephs KA, Boeve BF, Kertesz A, Seeley WW, Rankin KP, Johnson JK, Gorno-Tempini ML, Rosen H, Prioleau-Latham CE, Lee A, Kipps CM, Lillo P, Piguet O, Rohrer JD, Rossor MN, Warren JD, Fox NC, Galasko D, Salmon DP, Black SE, Mesulam M, Weintraub S, Dickerson BC, Diehl-Schmid J, Pasquier F, Deramecourt V, Lebert F, Pijnenburg Y, Chow TW, Manes F, Grafman J, Cappa SF, Freedman M, Grossman M, Miller BL. Sensitivity of revised diagnostic criteria for the behavioural variant of frontotemporal dementia. Brain. 2011 Sep;134(Pt 9):2456-77. doi: 10.1093/brain/awr179. Epub 2011 Aug 2. |
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| 33243615 | Background | 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. |
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| D057177 |
| TDP-43 Proteinopathies |
| D019636 | Neurodegenerative Diseases |
| D057165 | Proteostasis Deficiencies |
| D008659 | Metabolic Diseases |
| D009750 | Nutritional and Metabolic Diseases |
| D019965 | Neurocognitive Disorders |
| D001523 | Mental Disorders |