Status
Conditions
Treatments
About
This is a randomized, controlled trial investigating the efficacy and precision of neuronavigation -guided repetitive transcranial magnetic stimulation (rTMS) for motor recovery in patients with subacute stroke hemiparesis.
The primary goal is to determine if using neuronavigation to precisely target the unaffected primary motor cortex (M1) improves treatment accuracy, efficiency, and clinical outcomes compared to conventional manual positioning.
The study will enroll 30 participants with first-ever stroke onset between 2 weeks and 6 months. Participants will be randomized into two parallel groups: the Experimental Group (neuronavigation-guided rTMS) and the Control Group (conventional positioning rTMS). Both groups will receive the same rTMS parameters: 1 Hz stimulation (low-frequency) over the unaffected M1, 1,200 pulses per session, administered for 10 sessions over 2 consecutive weeks.
Primary outcome measures include the change in the Fugl-Meyer Assessment (FMA) Score for the Upper Extremity and the measurement of coil positioning deviation between sessions. Assessments will be conducted at baseline (T0), post-treatment (T1, Week 3), and one month post-treatment (T2, Week 7). This study is funded in part by a research grant from the Metal Industries Research & Development Centre (MIRDC).
Full description
This is a single-center, randomized, two-group parallel-assignment interventional trial conducted at Taichung Veterans General Hospital to compare the effectiveness of neuronavigation-guided rTMS versus conventional rTMS in subacute stroke patients with hemiparesis.
Background: Repetitive Transcranial Magnetic Stimulation (rTMS) is recognized for its potential in stroke rehabilitation, with low-frequency (1 Hz) stimulation over the unaffected motor cortex in the subacute phase rated as Grade A (definitely effective) for upper limb motor recovery. However, the efficacy of rTMS is highly dependent on accurate and consistent coil placement over the target cortical area.
Study Hypothesis: We hypothesize that using neuronavigation-which integrates infrared tracking with brain MRI to establish a precise 3D coordinate reference-will significantly increase the treatment precision, reduce the required localization time, and ultimately lead to superior clinical outcomes compared to conventional manual targeting methods.
Intervention Details:
(1)Experimental Group (n=15): Coil positioning will be guided by a neuronavigational system throughout all 10 sessions. The system tracks the coil and patient's head relative to the initial M1 hotspot.
(2)Control Group (n=15): Coil positioning will rely on standard manual localization (e.g., cap positioning).
Outcome Assessments:
The study will track three primary outcomes: FMA score (a key measure of motor function), coil positioning deviation (a measure of precision), and the time required for initial hotspot localization. Secondary outcomes include functional and spasticity measures such as the Barthel Index (BI), Modified Rankin Scale (mRS), Modified Ashworth Scale (mAS), and neurophysiological parameters (MEP, EEG).
Timeline:
All outcome measures will be assessed at three time points: Baseline (T0), Post-treatment (T1, Week 3), and 1-month Follow-up (T2, Week 7).
Safety:
All adverse events, including rare severe events like seizures (<0.01%) and syncope, will be managed according to standard emergency protocols, and treatment will be discontinued if adverse effects persist or significant clinical weakness occurs. The study protocol is within established safety guidelines.
Enrollment
Sex
Ages
Volunteers
Inclusion criteria
Exclusion criteria
Primary purpose
Allocation
Interventional model
Masking
30 participants in 2 patient groups
Loading...
Central trial contact
Ting-Chun Fang, M.D.
Data sourced from clinicaltrials.gov
Clinical trials
Research sites
Resources
Legal