Stroke Clinical Trial
Official title:
Deep Brain Stimulation Motor Ventral Thalamus (VOP/VIM) for Restoration of Speech and Upper-limb Function in People With Subcortical Stroke
The goal of this study is to verify whether the use of deep brain stimulation can improve motor function of the hand and arm and speech abilities for people following a stroke. Participants will undergo a surgical procedure to implant deep brain stimulation electrode leads. The electrodes will be connected to external stimulators and a series of experiments will be performed to identify the types of movements that the hand and arm can make and how speech abilities are affected by the stimulation. The implant will be removed after less than 30 days. Results of this study will provide the foundation for future studies evaluating the efficacy of a minimally-invasive neuro-technology that can be used in clinical neuro-rehabilitation programs to restore speech and upper limb motor functions in people with subcortical strokes, thereby increasing independence and quality of life.
Status | Not yet recruiting |
Enrollment | 10 |
Est. completion date | December 2029 |
Est. primary completion date | November 2027 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years to 70 Years |
Eligibility | Inclusion Criteria: 1. Participants must have suffered a single, ischemic, or hemorrhagic stroke more than 6 months before the time of enrollment with dysarthria as a result. 2. Participants must be between the ages of 18 and 70 years old. (Participants outside this age range may be at an increased medical risk and have an increased risk of fatigue during testing). 3. Native English speaker. 4. Patients with moderate to severe dysarthria (50-89% intelligibility in the Assessment of Intelligibility of Dysarthric Speech test). Exclusion Criteria: 1. Patients who refuse participation in the study. 2. Patients with gross anatomical variances in MR imaging or cerebral vascular accidents involving thalamic areas 3. Patients with no clinical condition to undergo DBS implantation or highly dependent on anticoagulation therapy 4. Patients who cannot undergo pre-operative MRIs or could not complete the pre-operative assessments. 5. Participants must not have any serious disease or disorder (ex. neurological condition other than stroke, cancer, severe cardiac or respiratory disease, renal failure, etc.) or cognitive impairments that could affect the ability to participate in this study. 6. Female participants of child-bearing age must not be pregnant, planning to become pregnant for the next 9 months, or breast feeding. 7. Participants must not be receiving anticoagulants. 8. Severe claustrophobia. 9. Participants must not be on anti-spasticity or anti-epileptic medications for the duration of the study. 10. Participants who have been deemed inappropriate for participation based upon results from the Brief Symptoms Inventory (BSI-18) and discussions with the Principal Investigator and a study physician 11. Evaluation to sign consent form score <12. 12. MRI contraindications (excluding subjects who are pregnant, who have metal in any portion of the body, have medical complications, cardiac pacemaker, cochlear implant, aneurysm clip, certain IUDs, or known problems of claustrophobia). 13. Medications with common cognitive side-effects 14. Bleeding disorders or platelet dysfunction (e.g., from regular aspirin usage) 15. Hypersensitivity to barium sulfate (for barium swallow test) |
Country | Name | City | State |
---|---|---|---|
United States | University of Pittsburgh | Pittsburgh | Pennsylvania |
Lead Sponsor | Collaborator |
---|---|
Jorge Gonzalez-Martinez |
United States,
Baker KB, Plow EB, Nagel S, Rosenfeldt AB, Gopalakrishnan R, Clark C, Wyant A, Schroedel M, Ozinga J 4th, Davidson S, Hogue O, Floden D, Chen J, Ford PJ, Sankary L, Huang X, Cunningham DA, DiFilippo FP, Hu B, Jones SE, Bethoux F, Wolf SL, Chae J, Machado AG. Cerebellar deep brain stimulation for chronic post-stroke motor rehabilitation: a phase I trial. Nat Med. 2023 Sep;29(9):2366-2374. doi: 10.1038/s41591-023-02507-0. Epub 2023 Aug 14. — View Citation
Cooper IS, Upton AR, Amin I. Reversibility of chronic neurologic deficits. Some effects of electrical stimulation of the thalamus and internal capsule in man. Appl Neurophysiol. 1980;43(3-5):244-58. doi: 10.1159/000102263. — View Citation
Franzini A, Cordella R, Nazzi V, Broggi G. Long-term chronic stimulation of internal capsule in poststroke pain and spasticity. Case report, long-term results and review of the literature. Stereotact Funct Neurosurg. 2008;86(3):179-83. doi: 10.1159/000120431. Epub 2008 Mar 12. — View Citation
Ho, J. et al. TARGETED DEEP BRAIN STIMULATION OF THE MOTOR THALAMUS FACILITATES VOLUNTARY MOTOR CONTROL AFTER CORTICO-SPINAL LESIONS. medRxiv 2023-03 (2023).
Lozano AM, Lipsman N, Bergman H, Brown P, Chabardes S, Chang JW, Matthews K, McIntyre CC, Schlaepfer TE, Schulder M, Temel Y, Volkmann J, Krauss JK. Deep brain stimulation: current challenges and future directions. Nat Rev Neurol. 2019 Mar;15(3):148-160. doi: 10.1038/s41582-018-0128-2. — View Citation
Molnar GF, Sailer A, Gunraj CA, Cunic DI, Lang AE, Lozano AM, Moro E, Chen R. Changes in cortical excitability with thalamic deep brain stimulation. Neurology. 2005 Jun 14;64(11):1913-9. doi: 10.1212/01.WNL.0000163985.89444.DD. — View Citation
Phillips NI, Bhakta BB. Affect of deep brain stimulation on limb paresis after stroke. Lancet. 2000 Jul 15;356(9225):222-3. doi: 10.1016/s0140-6736(00)02487-9. — View Citation
Plow EB, Machado A. Invasive neurostimulation in stroke rehabilitation. Neurotherapeutics. 2014 Jul;11(3):572-82. doi: 10.1007/s13311-013-0245-y. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Adverse Events | The investigators will quantify the safety of DBS to treat post-stroke speech and upper-limb motor deficits. For this, the investigators will record all adverse events for the entire study duration. The study is considered successful if no serious adverse events related to the use of deep brain stimulation are reported. | 29 days | |
Primary | Discomfort and Pain | The investigators will assess the relative level of discomfort and/or pain that is associated with the delivery of electrical stimulation to the motor thalamus. After each stimulation train patients will be asked to report a level of perceived discomfort using a 10 value subjective scale. Low values will be assigned to low discomfort and high values to high discomfort. The study is considered successful if 70% of recruited subjects do not report discomfort or pain at stimulation amplitudes that are required to obtain motor responses in the face and upper-limb muscles. | Baseline, 2 weeks, 4 weeks, 6 months. | |
Secondary | Dysphagia | The investigators will use the modified barium swallow study (MBSS) to assess oropharyngeal swallow functions. This is a performance evaluation scale, that consist of 17 items with varying scales. The total score ranges from 0 to 55, where a higher score means a better outcome. Based on the preliminary data, the investigators will consider an increase of 1 point in at least 50% of the items of the Modified Barium Swallow Impairment Profile as a minimally acceptable improvement in swallow functions. | 29 days | |
Secondary | Hand dexterity | The investigators will use the Box and Blocks Test to measure hand dexterity ability. Based on the preliminary data, the investigators will consider a percentage change of 18% as a minimally acceptable improvement in hand dexterity. | 29 days. | |
Secondary | Muscle weakness | The investigators will measure muscle strength and range of motion produced by the subject during isometric facial movements (e.g. smile, tongue out, puckered lips, and open-close mouth). Based on the preliminary data, the investigators will consider an increase of 50% in ROM as a minimally acceptable improvement in muscle strength. | 29 days | |
Secondary | Dexterity of Articulation AMRs | The investigators will measure dexterity of articulation by alternating motion rates (AMRs) of the repetitive plosive sound (pah, tah, and kah). The investigators will consider an improvement of 10% in the rate to be minimally acceptable. | 29 days | |
Secondary | Dexterity of Articulation SMRs | The investigators will measure dexterity of articulation by sequential motion rates (SMRs) of the repetitive plosive sound (pah, tah, and kah). The investigators will consider an improvement of 10% in the rate to be minimally acceptable. | 29 days | |
Secondary | Intelligibility of Speech | The investigators will use the Assessment of Intelligibility of Dysarthric Speech (AIDS) to assess the quality of communication and intelligibility of speech at both word- and sentence-level. The investigators will consider an improvement of 5% correctly transcribed to be minimally acceptable. | 29 days | |
Secondary | Spasticity | Spastic dysarthria is characterized by a higher fundamental frequency (F0) of phoneme utterances than what is seen in normal speech. Thus, the investigators will quantify the degree of spasticity by calculating the F0 across a series of phonemes. The investigators will consider a reduction in F0 of 20% to be minimally acceptable. | 29 days | |
Secondary | Range of Motion (ROM) | The investigators will use the 2nd Edition Frenchay Dysarthria Assessment (FDA-2) to measure patterns of oral motor functions, with a particular focus on the following subsections: Respiration, Lips, Palate, Laryngeal, and Tongue. Each subsection is rated on a scale from "a" to "e", where "a" means normal for age, and "e" means unable to undertake task/movement/sound. So a score closer to "a" means a better outcome. The investigators will consider an improvement in severity level (e.g., from considerable to moderate severity, or a score of D to C) to be minimally acceptable. | 29 days |
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