Use of Interventional MRI for Implantation of Deep Brain Stimulator Electrodes

Parkinson's Disease Clinical Trial

— iMRI  

Official title:

Use of Interventional MRI for Implantation of Deep Brain Stimulator Electrodes

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT00792532
• Other study ID #: iMRI
• Status: Completed
• Start date: July 2003
• Est. completion date: March 2019

Study information

• Verified date: December 2019
• Source: University of California, San Francisco
• Contact: n/a
• Is FDA regulated: No
• Study type: Observational

Clinical Trial Summary

The purpose of this study is to gather observational data on an already FDA-approved implantation technique for deep brain stimulation (DBS) in which the entire surgery is performed within an MRI scanner ("interventional MRI", or iMRI). With this surgical technique, the patient is fully asleep (under general anesthesia) during DBS implantation. The standard method for the placement of deep brain stimulators does not use MRI during the actual DBS placement. The standard method involves placement of a rigid frame on the patient's head, performance of a short MRI scan, transport to the operating room, placement of the DBS electrodes in the operating room, and return to the MRI suite for another MR to confirm correct electrode placement. In the standard method, the patient must be awake for 2-4 hours in the operating room to have "brain mapping" performed, where the brain target is confirmed by passing "microelectrodes" (thin wires) into the brain to record its electrical activity. In the standard method, general anesthesia is not required. With the iMRI technique, the surgery is guided entirely by MRI images performed multiple times as the DBS electrode is advanced. This eliminates the need for the patient to be awake, and eliminates the need for passing microelectrodes into the brain before placing the permanent DBS electrode.

Description:

Deep brain stimulation (DBS) is an increasingly common surgical technique for the treatment of Parkinson's disease and dystonia. The current technical approach to DBS implantation involves frame-based stereotaxy. In this method, a stereotactic frame is rigidly fixed to the patient's skull, an MRI is obtained, an anatomic target is identified, and the coordinates of the target in stereotactic space are calculated. Instruments are mounted on the stereotactic frame that point to the calculated coordinate. However, due to the inherent inaccuracies in standard frame-based stereotaxy, a complex 6-hour procedure then ensues to "map" the brain target with microelectrodes, place the lead, and return to the MR unit to confirm proper placement.

The goal of this project is to gather observational data on the iMRI DBS implantation technique and clinical outcomes. This already FDA-approved implantation technique for DBS will take place entirely within the Phillips 1.5T and a Siemens 3T open magnet MRI machine. Prior to study initiation, instrumentation and MR protocols were tested using a phantom head. In the proposed project, subthalamic nucleus or globus pallidus DBS implantations will be performed bilaterally in patients with Parkinson's disease or dystonia. Patients will be under general anesthesia. Targeting and lead verification are performed with imaging alone, without physiologic mapping. Data is to be gathered on the following: operative time, degree of benefit with bilateral implantation (changes in standard rating scales of motor disability), DBS voltage requirements, complications), and electrode location by MR. These measures will be compared with our historical controls, previously entered into our research database, in which electrodes were placed by the standard methods. We expect that the use of near real time MR will improve the speed and accuracy of DBS implantation, and eliminate the need for invasive physiological monitoring.

All of the study participants will be getting iMRI DBS implantation as a part of their standard of care and agree to have additional study data collected

Recruitment information / eligibility

• Status: Completed
• Enrollment: 8
• Est. completion date: March 2019
• Est. primary completion date: March 2019
• Accepts healthy volunteers: No
• Gender: All
• Age group: 21 Years and older

Eligibility

Parkinson's Disease

Inclusion Criteria:

1. Diagnosis of idiopathic PD with clinically significant motor fluctuations despite maximized anti-Parkinsonian therapy. This will be based on medical history, neurologic examination (the presence of at least 2 of the following: resting tremor, rigidity, or bradykinesia), and response to anti-Parkinsonian therapy.

2. Approximately 5 years' duration, relative to the date of surgery, since diagnosis of PD.

3. Age >20 inclusive, on date of surgery.

4. The subject is ambulatory in their best on time (not wheelchair bound).

5. The subject is medically able to undergo the surgery as determined by clinical and laboratory evaluations and any other evaluations that are part of the standard practice at the institution in which the subject is to undergo surgery (e.g., subjects will have normal coagulation tests and normal platelet levels).

6. The subject is expected to be able to comply with and understand the required visit schedule and all required tests and procedures.

7. Signed IRB-approved informed consent is obtained before any study-specific procedure, including assessments required during the eligibility evaluation period.

Exclusion Criteria:

1. In the judgment of the investigator, a history of any clinically significant medical, psychiatric, or laboratory abnormality for which participation in the study would pose a safety risk to the subject.

2. History of treatment of PD by any procedure involving intracranial surgery or implantation of a device.

3. MRI of the brain within 12 months before the surgery which demonstrates an intracranial abnormality that would contraindicate surgery (e.g. stroke, tumor, vascular abnormality affecting the DBS target area).

4. Any disorder that precludes a surgical procedure (e.g., signs of sepsis or inadequately treated infection) or alters wound healing.

5. Receipt of antiplatelet agents for at least 10 days prior surgery.

6. Significant cognitive impairment based on investigator assessment during the eligibility evaluation period.

7. History of significant psychiatric illness, epilepsy, or Alzheimer's disease.

8. Active drug or alcohol abuse.

9. Pregnancy or lack of effective contraception in women of childbearing potential defined as one year post-menopausal or surgically sterile.

10. Treatment with non anti-Parkinsonian agents (e.g., atypical neuroleptics) that may affect symptoms of PD within 60 days before entering the study.

11. Any medical disability (e.g., severe degenerative arthritis, compromised nutritional state, severe peripheral neuropathy) that would interfere with the assessment of safety and efficacy in this trial.

12. Inability to follow-up with post-operative study visits

13. Inability to speak or read English

Dystonia Inclusion Criteria

1. Dystonia diagnosed by a movement disorders neurologist

2. Significant functional impairment despite optimal medical management, including failed botulinum toxin therapy if appropriate

3. Age >20 years inclusive, on date of surgery.

4. The subject is medically able to undergo the surgery as determined by clinical and laboratory evaluations and any other evaluations that are part of the standard practice at the institution in which the subject is to undergo surgery (e.g., subjects will have normal coagulation tests and normal platelet levels).

5. The subject is able to comply with and understand the required visit schedule and all required tests and procedures.

6. Signed IRB-approved informed consent is obtained before any study-specific procedure, including assessments required during the eligibility evaluation period.

Exclusion Criteria

1. Any disorder that precludes a surgical procedure (e.g., signs of sepsis or inadequately treated infection) or alters wound healing.

2. Receipt of antiplatelet agents for at least 10 days prior surgery.

3. Significant cognitive impairment based on investigator assessment during the eligibility evaluation period.

4. History of significant psychiatric illness, epilepsy, or Alzheimer's disease.

5. Active drug or alcohol abuse.

6. Pregnancy or lack of effective contraception in women of childbearing potential defined as one year post-menopausal or surgically sterile.

7. Any medical disability (e.g., severe degenerative arthritis, compromised nutritional state, severe peripheral neuropathy) that would interfere with the assessment of safety and efficacy in this trial.

8. Inability to follow-up with post-operative study visits

9. Inability to speak or read English

Related Conditions & MeSH terms

• Dystonia
• Parkinson Disease
• Parkinson's Disease

Intervention

Procedure:
• interventional MRI for implantation of DBS electrodes
DBS implantation will be performed entirely within a Phillips 3T MRI scanner

Device:
• DBS electrodes
Deep brain stimulation (DBS) electrodes

Locations

Country	Name	City	State
United States	San Francisco VA Medical Center	San Francisco	California

Sponsors (2)

Lead Sponsor	Collaborator
University of California, San Francisco	MRI Interventions, Inc.

Country where clinical trial is conducted

United States, 

References & Publications (1)

Martin AJ, Larson PS, Ostrem JL, Keith Sootsman W, Talke P, Weber OM, Levesque N, Myers J, Starr PA. Placement of deep brain stimulator electrodes using real-time high-field interventional magnetic resonance imaging. Magn Reson Med. 2005 Nov;54(5):1107-14 — View Citation

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Parkinson's disease: The degree of benefit from baseline off medication UPDRS(part III) motor score to postoperative off medication scores at 12 months with stimulation on.		12 months post-surgery
Primary	Dystonia: The percent change from baseline in the Burk-Fahn-Marsden Dystonia rating scale movement subscore to the 12 month postoperative subscore		12 months post-surgery