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| Name | Class |
|---|---|
| Institute of Biotechnology, Academy of Military Medical Sciences, PLA of China | OTHER |
| Tsinghua University | OTHER |
| Boston Children's Hospital | OTHER |
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Project name: The mechanism and application of deep brain stimulation in the treatment of Parkinson's disease
Objective:
To test the hypothesis that electrical stimulation of substantia nigra regulates cognitive dysfunction in Parkinson's disease and to reveal its electrophysiological mechanism.
Study design:
This study is a self-controlled prospective cohort study. By comparing the behavioral characteristics of the memory paradigm under microelectrode stimulation during DBS operation and the characteristics of the underlying electrophysiological signals, and the behavioral characteristics of the memory paradigm and the characteristics of brain network activity under electrical stimulation when DBS is turned on 1 month after surgery. The regulatory effect of substantia nigra DBS on memory network was analyzed.
Cases: 60
Case selection:
Inclusion criteria:
1)Voluntarily participate in the clinical study and sign the informed consent; 2) Age 50-70 years old, gender unlimited; 3) The clinical diagnosis is consistent with typical PD, and the medical history is less than 20 years; 4) Patients who intend to use 3.0T magnetic resonance compatible dual-channel DBS device (G106R or G106RS, Beijing Pinchi Company) for bilateral subthalamic nucleus DBS surgery to control PD symptoms; 5) MRI excluded patients with obvious structural changes; 6) The visual acuity and hearing of the subjects were basically normal, and the compliance was good, and they could complete the tasks listed in the experimental scheme in accordance with the standards.
Exclusion criteria:
1)Serious mental, cognitive and psychological disorders, unable to sign informed consent or cooperate with the operation and various tasks; 2) There are contraindications for neurosurgery, such as hydrocephalus, cerebral atrophy, cerebrovascular sequelae, heart disease and other cardiovascular and cerebrovascular diseases; 3) There are concomitant diseases that seriously affect health, such as tumors, serious abnormalities of liver and kidney function (indexes more than 3 times normal); 4) There is intracranial space occupation, cerebrovascular disease, mental illness, other neurological diseases, claustrophobia, or there is an implant in the body, which affects the nuclear magnetic scan; 5) The results of the Mini-Mental State Scale (MMSE) <24 or the Montreal Cognitive Assessment Scale (MoCA) <18 in the preoperative assessment, or the results of other scales indicate the presence of severe dementia.
therapeutic schedule: This study did not change the patient's overall treatment regimen, and only electrical stimulation was tested during and after DBS surgery
Efficacy evaluation:
Effectiveness evaluation index (primary efficacy index and secondary efficacy index) : accuracy of memory paradigm, response speed Safety evaluation indicators: blood pressure, heart rate, dual frequency index, patient complaints and symptoms
Statistical methods:
The group t test was used to compare the normal distribution between the measurement data groups. For measurement data with non-normal distribution, Wilcoxon rank sum test was used for comparison between groups.
The study period is January 1, 2024 - December 31, 2026.
Research background The core symptoms of Parkinson's disease (PD) include motor symptoms and non-motor symptoms, among which cognitive dysfunction is the most common and one of the most overlooked non-motor symptoms in patients with advanced PD. Cross-sectional studies have shown that up to 40% of PD patients are combined with cognitive dysfunction at the time of diagnosis, which is manifested by functional decline in memory, executive, attention, language, visuospatial ability and other cognitive subfields. Among them, the memory impairment subtype with episodic memory function decline as the main manifestation is the most common and the fastest progressing. About 10% to 15% of patients with these manifestations will progress to dementia each year, which is four to six times higher than the age-matched non-PD population, and more than 80% of patients with PD will develop dementia within 10 years of diagnosis of PD. This increasing cognitive and memory dysfunction seriously affects the quality of life of patients and the overall treatment effect, often leading to accelerated deterioration of the disease, bringing a heavy burden to the family and society. It can be seen that in-depth exploration of the formation mechanism of PD cognitive and memory dysfunction and the establishment of effective intervention means have become an important proposition to be solved urgently in the field of PD research.
The research group previously tested the behavioral changes of rats in the low frequency electric stimulation group of substantia nigra and the sham stimulation group using behavioral experiments such as nesting experiment and water maze experiment, and found that rats in the low frequency electric stimulation group performed better in the nesting experiment and water maze experiment, suggesting that low frequency electric stimulation of substantia nigra can improve the memory behavioral performance of rats with Parkinson's disease.
The applicant's previous study found that deep brain stimulation (DBS) is an effective means to treat Parkinson's disease, and low frequency electrical stimulation of the substantia nigra can improve episodic memory function in patients with Parkinson's disease. Therefore, the applicant team intends to further study the regulatory effect and mechanism of substantia nigra electrical stimulation on episodic memory, reveal the mechanism of its improvement of cognitive function from the theoretical level, clarify its regulatory effect on cognitive impairment from the technical level, and verify the potential of its treatment of cognitive impairment from the application level, so as to solve the major clinical needs in the diagnosis and treatment of PD cognitive impairment. Bring the Gospel to 5 million PD patients, and help the construction of Beijing International Science and Technology Innovation Center.
Research purpose
Research design types, principles and test steps
2) Parameter setting Contact selection: According to the electrode position in the image (target reconstruction through CT scan), the electrode located in the substantia nigra is selected as the negative electrode, the contact near the upper part of the substantia nigra is selected as the positive electrode, and the bipolar stimulation mode is selected.
Stimulation parameters: The frequency was selected as 0/10/130Hz, the pulse width remained unchanged at 90μs, the side effects of patients were observed, and the voltage was slowly increased to 2.0V; The patient voltage was 0 during the spurious stimulation.The washout period was 1 hour.
Side effects: paresthesia, local pain, palpitation, chest tightness, etc. 5. Memory paradigm The episodic memory task paradigm used in this study was designed with the Psychtoolbox (v3.0 version) based on MATLAB2018b(MathWorks, USA). During the operation, the episodic memory paradigm test was conducted 2-3 times for each subject according to the situation, and the total duration of the test was no more than 30 minutes for each subject, or it was stopped at any time according to the subject's will. The paradigm is divided into two phases, in the memory coding phase, 20 silent episodic memory clips (including 10 consecutive event clips and 10 jump event clips) are presented in pseudo-random order. Before each video was played, a cross mark would appear in the center of the screen to remind subjects to look at the center of the screen and reduce eye movement. After each video was played, in order to ensure participants' participation in the passive viewing process, participants were asked to answer questions related to the video (such as determining whether most scenes of the video took place "indoors" or "outdoors"). After the participants memorized and encoded 20 short films, they entered the scene recognition stage. At the beginning of the task, a cross mark appeared in the center of the screen to remind subjects to pay attention to the task, and then scene pictures were displayed (pictures were from 20 films played or not played in the memory coding stage). Subjects were asked to judge whether the scene shown was a selection of short films played in the free memory coding stage. The whole experiment process, the subjects used reactor (RB - 840) answer keys, and the stimulus (video and pictures), and subjects button at the end of your answer by task related electrical synchronizer C - Pod (Cedrus, Us) sends pulses from the experimental computer to Neuro Omega to form time stamps (TTL pulses). Time permitting, the memory encoding and scene recognition phase will be repeated 3-4 times (keeping the same experimental format but replacing it with different experimental clips and test pictures).
Research methods
1. Clinical trials were conducted to verify the regulatory effect of electrical stimulation of substantia nigra under different stimulation modes on episodic memory impairment in PD, and to establish the interdependence between the changes in the firing mode of substantia nigra neurons and the changes in episodic memory function.
2. Through the study of brain structure and functional connectomics, the optimal stimulus mode and stimulus parameters of substantia nigra DBS regulating episodic memory dysfunction were revealed.
Concomitant medication Patients will continue to take Parkinson's disease drugs at preoperative dose (or according to the doctor's advice) during perioperative and postoperative periods, and this experiment will not affect the drug usage and dosage of patients.
Observation indicators and inspection time
Follow-up time Follow-up will be completed at DBS startup 1 month after surgery.
Clinical evaluation
Known and potential risks and benefits of the project, as well as risk disposal plans This study will require you to complete a cognitive function test during the operation, which requires only a simple operation of the keyplate and lasts about 20-30 minutes, during which the operation will be stopped and the surgical incision will be covered with a sterile towel. Previous studies done in our center and other centers have shown that this testing procedure does not significantly increase the degree of infection of the incision. Nor does it significantly increase the overall risk of surgery; In part of the testing process, we will use a micro-current below 50uA for electrical stimulation, which is not substantially different from the electrical stimulation used to test the efficacy of surgery, and the intensity is significantly weaker than the efficacy test current. Previous studies have not found that such intensity of the current will induce epilepsy, bleeding, necrosis and other complications, and the subjects have not reported obvious subjective discomfort. About 1 month after surgery, when you participate in the follow-up, a professional program control physician will test the changes in cognitive function under electrical stimulation of the substantia nigra. The parameters of electrical stimulation used in the process are within the safe range of parameters, usually without significant discomfort, and the effects of electrical stimulation disappear immediately after the stimulator is turned off.
Considering that participation in this study will require the cooperation of patients during and after the operation, and may lead to a slight extension of the operation time, and the need for post-operation debugging and corresponding inspection, the project team will cooperate with Beijing Pinchi Medical Equipment Co., Ltd. to provide further support and follow-up services for patients.
In addition, patients will return to the hospital about 1 month after surgery for a free head MRI and fMRI scan, as well as a detailed brain evaluation and examination. In addition, we will also provide a transportation subsidy of 400 yuan for patients.
Data preservation The researchers established an independent study number for each subject, named the corresponding data with the study number, and deleted the patient name and hospital number information from all the data. The study data included behavioral data in.mat format, CT and MRI data in.dcm format, EEG data in.mpx format and image data in.mp4 format. Keep the original data for 10 years after the completion or termination of the study.
Data security inspection Data and safety monitors were set up in this study, all adverse events were recorded in detail, properly handled and tracked until properly resolved or the disease was stable, and serious adverse events and unexpected events were reported to the ethics Committee, competent authorities, sponsors and drug regulatory authorities in a timely manner in accordance with relevant systems; The principal investigator conducts a cumulative review of all adverse events on a regular basis, and investigator meetings are convened when necessary to assess the risks and benefits of the study.
Statistical processing SPSS 22.0 software or SAS9.4 were used for analysis. In bilateral tests, P < 0.05 was considered to have significant differences. Measurement data were described by mean, standard deviation, maximum, minimum, median, 25th and 75th quantile. Group t test was used to compare the normal distribution measurement data among groups. For measurement data with non-normal distribution, Wilcoxon Rank Sum test was used for inter-group comparison.
Ethical considerations Recruitment will be conducted in the Clinical Trial Office of Functional Neurosurgery at Tiantan Hospital, and we will endeavour to ensure a closed environment to protect the privacy of the subjects. In order to obtain informed consent from the subjects and their families, we will provide written materials in non-technical terms to help them better understand the study content. We will ensure that participants and their families have sufficient time to consider whether to participate in the study and that they are aware of their right to withdraw from the study at any time. After subjects express their willingness to participate in the study, we will require them to sign a written informed consent as an official proof of participation in the clinical study. This informed consent form will be kept safe for review as part of the clinical study documentation.
During the course of the study, we will strictly protect the subject's personal information to ensure that it will not be disclosed to any unauthorized third party. We will take various measures, including but not limited to data encryption, access control, etc., to ensure that subjects' privacy is adequately protected.
In addition, we will try to avoid any undue influence on the subject. We will avoid providing an informed notification hours before the procedure to ensure that the subject has sufficient time to consider and prepare. We will also avoid being informed by well-known experts in person to avoid excessive psychological pressure on the subjects. For older patients of the investigator, we will ask another researcher or student to inform them on behalf of the investigator to avoid possible conflicts of interest. At the same time, we will also avoid including students or subordinates of the researcher in the research object, so as to ensure the fairness and objectivity of the research.
We will strictly follow the regulatory requirements to ensure that the research process is legal and compliant, and that the rights and interests of the subjects are fully protected. We will carry out this study with a good faith and responsible attitude, aiming to provide new ideas and methods for the treatment of Parkinson's disease, and bring better treatment results and quality of life for patients.
Confidentiality of information The subjects' medical information will be combined and used to study treatments. All information will be coded and will not contain the subject's name or any other information that directly identifies the subject. Information that is not relevant to the study (such as information about previous illnesses, infectious disease history) will not be provided to other parties.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Intraoperative and One month after the operation microelectrode stimulation of DBS | Experimental | By comparing the behavioral characteristics of the memory paradigm under microelectrode stimulation during DBS operation and the characteristics of the electrophysiological signals behind it, as well as the behavioral characteristics of the memory paradigm under electrical stimulation and the characteristics of brain network activity during DBS startup one month after surgery, we analyzed the regulatory effect of substantia nigra DBS on memory network |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| microelectrode stimulation of DBS | Device | Contact selection: According to the electrode position in the image (target reconstruction through CT scan), the electrode located in the substantia nigra is selected as the negative electrode, the contact near the upper part of the substantia nigra is selected as the positive electrode, and the bipolar stimulation mode is selected. Stimulation parameters: The frequency was selected as 0/10/130Hz, the pulse width remained unchanged at 90μs, the side effects of patients were observed, and the voltage was slowly increased to 2.0V; The patient voltage was 0 during the spurious stimulation. The washout period was 1 hour |
| Measure | Description | Time Frame |
|---|---|---|
| Changes in recognition accuracy of new/old objects between baseline and under electrical stimulation | In this project, after the microelectrode was inserted into the substantia nigra during DBS surgery, the memory paradigm test was started, and some memory stimuli were presented with electrical stimulation test at the same time, so as to observe the baseline memory accuracy of the subjects and the changes in the recognition accuracy of new/old objects under the state of electrical stimulation. The memory paradigm test was performed in the ward after surgery to evaluate the cognitive function of the subjects | From the middle of DBS surgery to one month after surgery |
| Changes of fMRI signal and connectivity in brain functional areas | In this study, SPM12 and DPABI were used to preprocess the resting-state fMRI data and calculate the functional connectivity, locate the location of the dorsolateral prefrontal lobe, establish the resting-state brain network between the substantia nigra and the dorsolateral prefrontal lobe, calculate the functional connectivity between the substantia nigra and the dorsolateral prefrontal lobe, and design the surgical path. The maximum functional connectivity between the dorsolateral prefrontal cortex, substantia nigra and subthalamic nucleus was calculated according to the results of resting-state fMRI. All subjects underwent 7.0T and 3.0T MR Scans before and after surgery, respectively. Scanning sequences included 3D-T1-weighted images, axial coronal T2-weighted images, 3D-Flair sequences, etc. In addition, all participants completed the resting-state and task-state fMRI scans before and after the operation, and the post-operation task-state fMRI scan was performed with DBS on | From preoperative to one month postoperative |
| Multimode neuroelectrophysiological signal recording | In this study, the spike potential and local field potential signals at the location of the microelectrode tip were recorded simultaneously, and the cortical potential signals of the dorsolateral prefrontal cortex were collected by a custom-made ring electrode to analyze the spatio-temporal characteristics of the SN and the dorsolateral prefrontal cortex during the formation of episodic memory encoding. The microelectrode recorded microvolt electrophysiological signals within 0.2-0.3mm around the microelectrode. The macroelectrode recorded the surrounding local field potential signal. In this way, the spike potential signal and local field potential signal at the tip of the microelectrode, the local field potential signal 3mm behind the tip, and the cortical potential signal could be recorded synchronously. |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| lin shi, M.D. | Contact | 008615210466780 | shilin2015@foxmail.com |
| Name | Affiliation | Role |
|---|---|---|
| lin shi, M.D. | Beijing Tiantan Hospital | Study Chair |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Beijing Tiantan Hospital | Recruiting | Beijing | Beijing Municipality | 100071 | China |
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| ID | Term |
|---|---|
| D010300 | Parkinson Disease |
| D020734 | Parkinsonian Disorders |
| D060825 | Cognitive Dysfunction |
| ID | Term |
|---|---|
| D001480 | Basal Ganglia Diseases |
| D001927 | Brain Diseases |
| D002493 | Central Nervous System Diseases |
| D009422 | Nervous System Diseases |
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By comparing the behavioral characteristics of the memory paradigm under microelectrode stimulation during DBS operation and the characteristics of the electrophysiological signals behind it, as well as the behavioral characteristics of the memory paradigm under electrical stimulation and the characteristics of brain network activity during DBS startup one month after surgery, we analyzed the regulatory effect of substantia nigra DBS on memory network
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|
| During DBS surgery |
| Mini-mental State Examination Score | The DBS device was implanted at the subthalamic nucleus. According to the electrophysiological signal during the operation, the lowest contact of the DBS electrode was implanted into the substantia nigra, and the remaining contacts were implanted into the subthalamic nucleus. The cognitive memory function of the patients was assessed by Mini-mental State Examination before surgery, and then the cognitive memory function of the patients in no stimulation, low frequency and high frequency substantia nigra DBS states was assessed by Mini-mental State Examination Score one month after surgery. The effects of substantia nigra DBS with different parameters on the memory function of PD subjects were analyzed. The scale has a minimum value of 0 and a maximum value of 30, with higher scores indicating better outcomes. | From preoperative to one month postoperative |
| Montreal Cognitive Assessment Score | The DBS device was implanted at the subthalamic nucleus. According to the electrophysiological signal during the operation, the lowest contact of the DBS electrode was implanted into the substantia nigra, and the remaining contacts were implanted into the subthalamic nucleus. The cognitive memory function of the patients was assessed by Montreal Cognitive Assessment before surgery, and then the cognitive memory function of the patients in no stimulation, low frequency and high frequency substantia nigra DBS states was assessed by Montreal Cognitive Assessment one month after surgery. The effects of substantia nigra DBS with different parameters on the memory function of PD subjects were analyzed. The scale has a minimum value of 0 and a maximum value of 30, with higher scores indicating better outcomes. | From preoperative to one month postoperative |
| Frontal Lobe Function Rating Scale | The DBS device was implanted at the subthalamic nucleus. According to the electrophysiological signal during the operation, the lowest contact of the DBS electrode was implanted into the substantia nigra, and the remaining contacts were implanted into the subthalamic nucleus. The cognitive memory function of the patients was assessed by Frontal Lobe Function Rating Scale before surgery, and then the cognitive memory function of the patients in no stimulation, low frequency and high frequency substantia nigra DBS states was assessed by Frontal Lobe Function Rating Scale one month after surgery. The effects of substantia nigra DBS with different parameters on the memory function of PD subjects were analyzed. The scale has a minimum value of 0 and a maximum value of 18, with higher scores indicating better outcomes. | From preoperative to one month postoperative |
| Trail Making Test Time | The DBS device was implanted at the subthalamic nucleus. According to the electrophysiological signal during the operation, the lowest contact of the DBS electrode was implanted into the substantia nigra, and the remaining contacts were implanted into the subthalamic nucleus. The cognitive memory function of the patients was assessed by Trail Making Test before surgery, and then the cognitive memory function of the patients in no stimulation, low frequency and high frequency substantia nigra DBS states was assessed by Trail Making Test Time one month after surgery. The effects of substantia nigra DBS with different parameters on the memory function of PD subjects were analyzed. The scale has a minimum value of 0 and a maximum value of 300, with higher scores indicating worse outcomes. | From preoperative to one month postoperative |
| Auditory Verbal Learning Test | The DBS device was implanted at the subthalamic nucleus. According to the electrophysiological signal during the operation, the lowest contact of the DBS electrode was implanted into the substantia nigra, and the remaining contacts were implanted into the subthalamic nucleus. The cognitive memory function of the patients was assessed by Auditory Verbal Learning Test before surgery, and then the cognitive memory function of the patients in no stimulation, low frequency and high frequency substantia nigra DBS states was assessed by Auditory Verbal Learning Test Score one month after surgery. The effects of substantia nigra DBS with different parameters on the memory function of PD subjects were analyzed. The scale has a minimum value of 0 and a maximum value of 24, with higher scores indicating better outcomes. | From preoperative to one month postoperative |
| Digital Span Test | The DBS device was implanted at the subthalamic nucleus. According to the electrophysiological signal during the operation, the lowest contact of the DBS electrode was implanted into the substantia nigra, and the remaining contacts were implanted into the subthalamic nucleus. The cognitive memory function of the patients was assessed by Digital Span Test before surgery, and then the cognitive memory function of the patients in no stimulation, low frequency and high frequency substantia nigra DBS states was assessed by Digital Span Test Score one month after surgery. The effects of substantia nigra DBS with different parameters on the memory function of PD subjects were analyzed. The scale has a minimum value of 5 and a maximum value of 22, with higher scores indicating better outcomes. | From preoperative to one month postoperative |
| Digital Order Test | The DBS device was implanted at the subthalamic nucleus. According to the electrophysiological signal during the operation, the lowest contact of the DBS electrode was implanted into the substantia nigra, and the remaining contacts were implanted into the subthalamic nucleus. The cognitive memory function of the patients was assessed by Digital Order Test before surgery, and then the cognitive memory function of the patients in no stimulation, low frequency and high frequency substantia nigra DBS states was assessed by Digital Order Test Score one month after surgery. The effects of substantia nigra DBS with different parameters on the memory function of PD subjects were analyzed. The scale has a minimum value of 0 and a maximum value of 12, with higher scores indicating better outcomes. | From preoperative to one month postoperative |
| D009069 | Movement Disorders |
| D000080874 | Synucleinopathies |
| D019636 | Neurodegenerative Diseases |
| D003072 | Cognition Disorders |
| D019965 | Neurocognitive Disorders |
| D001523 | Mental Disorders |