The Research Team Aims to Elucidate the Impact of ITBS (intermittent Theta Burst Stimulation) on the HPA Axis and Post-stroke Negative Emotions/depression by Conducting Human Experiments That Target Various Brain Regions.
NCT06899893 · Status: NOT_YET_RECRUITING · Phase: NA · Type: INTERVENTIONAL · Enrollment: 60
Last updated 2025-03-28
Summary
The project team will categorize stroke patients into three groups receiving iTBS stimulation targeting distinct brain regions: the cerebellum, the dorsolateral prefrontal cortex (DLPFC), and the primary motor cortex (M1), with 20 patients allocated to each group. Neurofunctional scores, anxiety and depression assessments, and transcranial magnetic stimulation evoked potentials (TEP) will be assessed pre- and post-treatment within each group. The relationship between anxiety and depression scores and brain network characteristics associated with emotions will be examined to investigate the impact of iTBS stimulation on post-stroke negative emotions. Furthermore, plasma and saliva samples will be collected from stroke patients in each group post iTBS intervention. ELISA will quantify ACTH levels in plasma and cortisol levels in both plasma and saliva, with the aim of exploring the effects of iTBS stimulation on the HPA axis across different brain regions.
Conditions
- Stroke
- Post-stroke Depression
Interventions
- DEVICE
-
iTBS
Sixty patients experiencing post-stroke negative emotions were recruited and categorized into groups based on their conditions. The group with post-stroke balance dysfunction underwent intermittent theta burst stimulation (iTBS) of the cerebellum, while the group with post-stroke cognitive dysfunction received iTBS stimulation of the left dorsolateral prefrontal cortex (DLPFC), and the group with post-stroke motor dysfunction underwent iTBS stimulation of the primary motor cortex (M1).The TMS stimulation protocol consisted of 20-minute sessions, five times a week, for a total of ten sessions, utilizing a figure-of-eight coil (model B9076, coil diameter 92 mm, manufactured by Yiruide Company in Wuhan, China, transcranial magnetic therapy device model NS5000). The stimulation intensity was set at 80% of the active motor threshold, with the coil positioned tangentially to the scalp and the handle oriented upwards.
Sponsors & Collaborators
-
The Second Affiliated Hospital of Kunming Medical University
lead OTHER
Study Design
- Allocation
- RANDOMIZED
- Purpose
- TREATMENT
- Masking
- NONE
- Model
- PARALLEL
Eligibility
- Min Age
- 18 Years
- Max Age
- 85 Years
- Sex
- ALL
- Healthy Volunteers
- No
Timeline & Regulatory
- Start
- 2025-04-01
- Primary Completion
- 2027-06-30
- Completion
- 2027-07-30
More Related Trials
-
Determination of Biomarkers of the Effectiveness of Deep Brain Stimulation by Direct Electrophysiological Recordings of Brain Activity in a Cognitive Context - LFP-DBS 2024
NCT06813300 ·Status: RECRUITING ·Phase: NA
-
BIS and Entropy in Deep Brain Simulation
NCT02386995 ·Status: COMPLETED
-
Evaluation of Consciousness by Brain-computer Interface in Severely Brain Damaged Patients
NCT03998930 ·Status: COMPLETED ·Phase: NA
-
cTBS Targeting Cerebellum for Drug-refractory Epilepsy
NCT05042726 ·Status: COMPLETED ·Phase: NA
-
Chronic Versus Intermittent Deep Brain Stimulation for Essential Tremor
NCT01334814 ·Status: COMPLETED ·Phase: NA
-
Safety and Feasibility of Temporal Interference Brain Stimulation for Treatment in Psychiatric Disorders
NCT07179848 ·Status: RECRUITING ·Phase: PHASE1
-
Early Neuromodulation in Traumatic Brain Injury
NCT06871124 ·Status: RECRUITING ·Phase: NA
-
Hand Jing-Well Points Stimulation to Treat Disorders of Consciousness
NCT06927713 ·Status: ACTIVE_NOT_RECRUITING ·Phase: NA
-
Bispectral Index Value Changes During Induction and Surgical Decompression in Head Injury Patients
NCT03480880 ·Status: COMPLETED ·Phase: PHASE4
-
Transcranial Temporal Interference Stimulation In Severely Brain Injured Patients With Disorders of Consciousness
NCT06851156 ·Status: RECRUITING ·Phase: NA
-
Thalamic-Burst-DBS for Neuropathic Pain
NCT05204472 ·Status: RECRUITING ·Phase: NA
-
Tolerability and Efficacy of Continuous Theta-burst Stimulation for Essential Tremor: A Randomized Study.
NCT06314139 ·Status: COMPLETED ·Phase: NA
-
Network Effects of Therapeutic Deep Brain Stimulation
NCT05600738 ·Status: RECRUITING ·Phase: NA
-
Ultrasonic Deep Brain Stimulation During Anesthetic Sedation
NCT05495945 ·Status: COMPLETED ·Phase: PHASE2
-
Manipulating and Optimising Brain Rhythms for Enhancement of Sleep
NCT05011773 ·Status: COMPLETED ·Phase: NA
-
Efficacy of Pain Intervention With Deep Brain Stimulation Neuromodulation
NCT06387914 ·Status: RECRUITING ·Phase: NA
-
Non-Invasive Brain Stimulation
NCT04318522 ·Status: UNKNOWN ·Phase: NA
-
Feasibility Study of Cortical Recording Depolarizations in Brain-injured Patients, and Their Use as Biomarkers of New Lesions.
NCT04585503 ·Status: COMPLETED ·Phase: NA
-
Neuromodulation Strategies for Treatment-Resistant Essential Tremor Using Chronos™ DBS
NCT07302867 ·Status: NOT_YET_RECRUITING ·Phase: NA
-
Deep Brain Stimulation (DBS) and Motor Evoked Potentials (MEP)
NCT05569213 ·Status: UNKNOWN
-
Electrophysiology of Brain Activity During Electrode Implantation in Patients Treated With Deep Brain Stimulation
NCT03874611 ·Status: UNKNOWN ·Phase: NA
-
Efficacy of 128-channel EEG Combined With BESA Dipole Localization and Intervention on Brain Waves for Epilepsy
NCT02613234 ·Status: COMPLETED ·Phase: NA
-
Modulating Oscillations and Working Memory in Patients With Subdural Electrodes
NCT03111290 ·Status: WITHDRAWN ·Phase: NA
-
Restoration of Consciousness With Ultrasonic Deep Brain Stimulation During Anesthetic Sedation
NCT07221539 ·Status: RECRUITING ·Phase: NA
-
Ultrasound in Deep Brain Stimulation
NCT02382965 ·Status: TERMINATED