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Investigating How the RECT Impacts Brain Functional States Through the ACC-cerebellar Loop
Sponsor: The Second Affiliated Hospital of Kunming Medical University
Summary
Experiment1: Using a brain EEG-TMS combined system, researchers aim to investigate the impact of the rostral anterior cingulate cortexr (rACC)-engaging cognitive task (RECT) combined single-pulse TMS magnetic stimulation on theta neural oscillations in the medial frontal lobe. The study will be divided into 4 groups: the first group will receive left cerebellar single-pulse TMS stimulation combined with the RECT task, the second group will receive right cerebellar single-pulse TMS stimulation combined with the RECT task, the third group will receive midline cerebellar single-pulse TMS stimulation combined with the RECT task, and the fourth group will receive sham cerebellar single-pulse TMS stimulation combined with the RECT task. Divide the participants into groups of 15 people each, following a 1:1:1:1 ratio. Based on the above testing, the stimulus method that results in the most significant change in the midline of the frontal lobe will be identified. Experiment 2: Based on the research from Experiment 1, the most significant approach affecting theta neural oscillations in the medial frontal gyrus will be identified. This stimulation protocol will be combined with left dorsolateral prefrontal cortex iTBS stimulation in Experiment 2. The research aim of Experiment 2 is to investigate the most effective stimulation method for enhancing midline theta neural oscillations in the frontal lobe, in combination with left dorsolateral prefrontal cortex iTBS, for the treatment of post-stroke depression patients. This study will include 40 post-stroke depressed patients, and each participant must meet the inclusion criteria. The first group of participants, consisting of 20 individuals, will receive the optimal combination intervention. The second group of participants will only receive iTBS stimulation, without any additional intervention strategies used in Experiment 1. Patients will undergo Hamilton Depression Scale assessment and resting state and task state EEG collection at baseline, one week after intervention, and two weeks after intervention.The primary outcome will be the Hamilton Depression Scale, with EEG-related data being analyzed as a secondary outcome. Task-oriented EEG detection will include both facial expression recognition paradigm and oddball experiment paradigm. Reaction time, accuracy, and completion status will be recorded simultaneously in the experiment. The experiment will record patients' tolerance and any adverse events that occur.
Key Details
Gender
All
Age Range
18 Years - 85 Years
Study Type
INTERVENTIONAL
Enrollment
100
Start Date
2025-03-30
Completion Date
2027-05-30
Last Updated
2025-04-04
Healthy Volunteers
Yes
Conditions
Interventions
Left cerebellar TMS stimulation combined with the RECT task
The first group will receive left cerebellar single-pulse TMS stimulation combined with the RECT task. RECT refers to rostral anterior cingulate cortexr (rACC)-engaging cognitive task. The theoretical basis of this task is that when subjects are in a state of focused attention, the power of theta neural oscillations in the midline of their frontal lobe will increase. By considering the features of post-stroke depression, this study combines the emotional recognition task with the RECT task. During each trial, individuals will view 4 faces consecutively, each displaying a different expression, and they will be required to memorize the sequence of expressions. Emoticons consist of joy, sorrow, and rage. After displaying four facial expressions, a brief text flowchart will appear. Participants need to check if the sequence reflected in the flowchart matches the order in which the four facial expressions appeared. If they match, click the left mouse button; if they do not match, click the
Right cerebellar TMS stimulation combined with the RECT task
Right cerebellar single-pulse TMS stimulation combined with the RECT task
Midline cerebellar TMS stimulation combined with the RECT task
Midline cerebellar single-pulse TMS stimulation combined with the RECT task
Sham cerebellar TMS stimulation combined with the RECT task
Sham cerebellar single-pulse TMS stimulation combined with the RECT task, The TMS coil was placed at the cerebellar site but tilted 90° to prevent effective magnetic field penetration.
The best stimulation protocol combined with left dorsolateral prefrontal cortex iTBS
The optimal stimulation protocol determined in Experiment 1 combined with stimulation of the left dorsolateral prefrontal cortex.
Left dorsolateral prefrontal cortex iTBS stimulation, as well as sham TMS stimulation and sham RECT task.
Subjects in the group underwent left dorsolateral prefrontal cortex iTBS stimulation, in addition to receiving sham TMS stimulation and participating in a sham RECT task. The sham RECT task involves having participants watch a continuous scroll of faces without needing to react.
Sham left dorsolateral prefrontal cortex iTBS stimulation, sham cerebellar TMS stimulation, and sham RECT task.
The participants in this group received sham left dorsolateral prefrontal cortex iTBS stimulation, sham cerebellar TMS stimulation, and sham RECT task.