临床试验/NCT05332652

NCT05332652

进行中（未招募）

不适用

Neural Network Reorganization Associated With Upper Limb Motor Recovery in Stroke Patients- Establishing a Prognostic Model and Tailoring Neuromodulation for Rehabilitation

National University Hospital, Singapore2 个研究点分布在 1 个国家目标入组 41 人2020年9月1日

适应症Stroke, Acute

干预措施trancranial magnetic stimulation

概览

阶段: 不适用
干预措施: trancranial magnetic stimulation
疾病 / 适应症: Stroke, Acute
发起方: National University Hospital, Singapore
入组人数: 41
试验地点: 2
主要终点: Change of muscle spasticity using Modified Ashworth scale for spasticity (MAS)
状态: 进行中（未招募）
最后更新: 2个月前

概览研究者入排标准研究组 & 干预措施结局指标研究点相似试验

概览

简要总结

This main aim of the study is to investigate the changes in neurophysiological features after stroke, and its association with upper limb motor recovery, so as to establish a prognostic model for upper limb motor recovery after stroke. The investigators hypothesize that a combination of neurophysiological features measured by transcranial magnetic stimulation (TMS), high density electroencephalography (HD-EEG), functional magnetic resonance imaging (fMRI) and Diffusion Tensor Imaging (DTI) might be used as biomarkers to predict upper limb motor outcomes after stroke. The investigators also hypothesize that non-invasive brain stimulation strategies such as tDCS will more effectively improve motor outcomes as an adjunct to therapy, if tailored according to patient's predicted pattern of neural reorganization.

详细描述

This study comprises 2 parts. Study 1 is a longitudinal cohort study to characterize the neurophysiological changes with upper limb motor recovery in stroke patients with moderate to severe upper limb motor function impairment, and its correlation with motor function recovery. 120 stroke subjects within 3 weeks post-stroke will be recruited from National University Hospital (NUH), Alexandra Hospital (AH), and Tan Tock Seng Hospital (TTSH). We will follow changes in cortical activity over time using Transcranial Magnetic Stimulation (TMS), MRI and EEG measures and correlate these with clinical outcome measures at the same time points, to study the interaction between neural excitability and functional outcome. 10 healthy subjects will be needed as control group to compare outcomes obtained from MRI scans. Outcome measures of brain corticospinal excitability, clinical measures on upper limb motor function and cognitive tests, will be performed 4 times- within 4 weeks, at 3 months, 6 months and 1 year after stroke onset, except for MRI which will not be performed at 1 year after stroke onset. Subjects from Study 1 whose ARAT (Action Research Arm test) score is \< = 42 at 3 months post-stroke will proceed to Study 2. ARAT score \< = 42 indicates limited functional capacity and below. The aim of Study 2 is to investigate the efficacy and the neurophysiological effects of 2 types of tDCS protocols in facilitating upper limb motor recovery in patients with significant limitations in upper limb function. There are a total of 4 groups in Study 2. Subjects who are agreeable for transcranial direct current stimulation (tDCS) will be randomized into 3 groups with 17 subjects in each group, by stratified randomization using Microsoft Excel, according to the lesion location (cortical vs. subcortical), and type of stroke (haemorrhagic vs. ischemic). Subjects who refuse tDCS will be enrolled in the control group without receiving any tDCS stimulation. * Group 1 will receive 1 mA anodal tDCS stimulation to the ipsilesional M1 of cortical representation of the affected upper limb; * Group 2 to receive 1mA anodal tDCS to the contralesional premotor cortex; * Group 3 to receive sham tDCS stimulation with anode placed over the scalp area corresponding to ipsilesional M1. * Group 4: Subjects who fulfill the inclusion criteria of Study 2 but refuse tDCS stimulation. Cathode for all 3 tDCS groups will be used as reference electrode and placed over the supraorbital area contralateral to the anode. tDCS stimulation will be conducted daily for 20 sessions in consecutive days in the 4th month after stroke, with each session lasting for 20 minutes and combined with online occupational therapy training. Subjects in Study 2 will continue with the 6-month and 1 year assessment, as in Study 1.

注册库

clinicaltrials.gov

开始日期

2020年9月1日

结束日期

2026年7月16日

最后更新

2个月前

研究类型

Interventional

研究设计

Parallel

性别

All

研究者

发起方

National University Hospital, Singapore

责任方

Sponsor

入排标准

入选标准

•Inclusion criteria for stroke patients:
•21-80 years old;
•First ever stroke less than 6 weeks;
•Moderate to severe upper limb impairment with Manual Muscle Testing (MMT) score on shoulder abduction plus finger extension (SAFE) \<5 within the first week post-stroke.
•Inclusion criteria for healthy subjects:
•Age 21-80 years old;
•No known medical history.

排除标准

•for stroke patients:
•Any metal implants inside the body that are contraindications of MRI scan;
•cardiac pacemakers;
•History of epilepsy;
•Sensorimotor disturbance due to other causes other than stroke;
•Claustrophobia;
•Uncontrolled medical conditions including hypertension, diabetes mellitus and unstable angina;
•Major depression and a history of psychotic disorders;
•Terminal diagnosis with life expectancy \<=1 year.
•Exclusion criteria for healthy subjects:

研究组 & 干预措施

Anodal tDCS stimulation to the ipsilesional M1

Participant will receive 1 mA anodal tDCS stimulation to the ipsilesional M1 of cortical representation of the affected upper limb. Cathode will be used as reference electrode and placed over the supraorbital area contralateral to the anode. tDCS stimulation will be conducted daily for 20 sessions in consecutive days in the 4th month after stroke, with each session lasting for 20 minutes and combined with online occupational therapy training.

干预措施: trancranial magnetic stimulation

Anodal tDCS to the contralesional premotor cortex

Participant will receive 1mA anodal tDCS to the contralesional premotor cortex. Cathode will be used as reference electrode and placed over the supraorbital area contralateral to the anode. tDCS stimulation will be conducted daily for 20 sessions in consecutive days in the 4th month after stroke, with each session lasting for 20 minutes and combined with online occupational therapy training.

干预措施: trancranial magnetic stimulation

Sham tDCS

Participant will receive sham tDCS stimulation with anode placed over the scalp area corresponding to ipsilesional M1. Cathode will be used as reference electrode and placed over the supraorbital area contralateral to the anode. tDCS stimulation will be conducted daily for 20 sessions in consecutive days in the 4th month after stroke, with each session lasting for 20 minutes and combined with online occupational therapy training.

干预措施: trancranial magnetic stimulation

Control group

Subjects who fulfill the inclusion criteria of Study 2 but refuse tDCS stimulation.

结局指标

主要结局

Change of muscle spasticity using Modified Ashworth scale for spasticity (MAS)

时间窗: Change of muscle spasticity within 4 weeks, at 3 months, 6 months and 1 year after stroke onset

Upper limb function, 6 point scale, Scores range from 0 to 4 (namely 0, 1, 1+, 2, 3 and 4), where lower scores represent normal muscle tone and higher scores represent spasticity or increased resistance to passive movement.

Change of neural excitability using electroencephalogram (EEG)

时间窗: Change of the neural excitability within 4 weeks, at 3 months, 6 months and 1 year after stroke onset

High density EEG (electroencephalogram) evaluation of the electrical activity of the brain

Change of cortical excitability using Transcranial Magnetic Stimulation (TMS)

时间窗: Change of the cortical excitability within 4 weeks, at 3 months, 6 months and 1 year after stroke onset

measures of cortical excitability for those without TMS contraindications

Change of the upper extremity motor function using Fugl-Meyer scale

时间窗: Change of the upper extremity motor function within 4 weeks, at 3 months, 6 months and 1 year after stroke onset

Upper limb function, Minimum score 0, Maximum score 66, the higher the score the better the upper limb function.

Change of upper extremity performance (coordination, dexterity and functioning) using Action Research Arm Test

时间窗: Change of upper extremity performance within 4 weeks, at 3 months, 6 months and 1 year after stroke onset

Upper limb function, Minimum score 0, Maximum score 57, the higher the score the better the upper limb function.

Change of neural excitability using Magnetic resonance imaging (MRI) scan

时间窗: Change of the neural excitability within 4 weeks, at 3 months, 6 months after stroke onset

Participants will go through one of the following image acquisition procedures 1) a functional MRI scans for brain activity together with motor task. 2) a 3D MPRAGE sequence for brain structure. 3) an advanced multishell high-resolution diffusion MRI for characterizing brain microstructure and extracellular space. 4) a FLAIR scan to measure white matter hyperintensity. Both functional and anatomical image acquisition will be undertaken using but not limited to gradient echo EPI sequence or its modified version.