Stroke is the leading cause of acquired long-term disability in adults in developed countries. Despite aggressive rehabilitation, lasting upper extremity impairment remains in the majority of stroke survivors. It is hypothesized that enhancing neuroplasticity through the combination of drug therapy and physical therapy could enhance outcomes for stroke survivors. The combination of levodopa and intensive physical therapy shows promise in enhancing the functional motor recovery of stroke patients during the sub-acute and chronic period without reported significant side effects. Robotic-aided training is a promising tool that has the potential to deliver high-intensity, task-oriented, reproducible therapy that can decrease the burden on a therapist. Since the evidence behind dopaminergic potentiation of neuroplasticity and stroke recovery is promising, it is the investigators aim to combine dopaminergic drug therapy with highly intensive robotic-assisted therapy to provide superior upper extremity functional recovery over traditional stroke rehabilitation.
Every year, approximately 795,000 people suffer a new or recurrent stroke in the United States, meaning that every 40 seconds someone has a stroke. In the United States, stroke is the third most frequent cause of death and the leading cause of lasting hemiparesis and adult disability. Since the prevalence of stroke increases with age, and since the world population is aging, the incidence of stroke is expected to rise in the coming years. This will become a significant societal burden since the care of stroke survivors is costly, to the individual and to society.
Post-stroke upper extremity (UE) impairment usually implies initial weakness, with subsequent diminished dexterity and limitation or incapacity for reaching, transport and grasping movements since the onset. Survivors may regain partial or, less often, complete muscle strength in the affected UE during the recovery process. However, a persistent degree of weakness and evolution to secondary complications as spasticity (characterized by increased flexor hypertonia), shoulder pain and contractures is frequent. These additional issues are associated with greater impairment, worse function and lower health-related quality of life. Treatment interventions for hemiparesis after stroke usually include stretching, strengthening of antagonist muscles, splinting, oral medications, and focal injections (phenol or botulinum toxin) and intrathecal baclofen. However, the amount, intensity and length of therapies still need further investigation. Despite adequate traditional treatment, a high number of patients are still permanently limited as a consequence of stroke. Based on motor learning theories, recent studies have demonstrated that intensive, repetitive, task-oriented therapies can help the paretic extremity "relearn" how to perform movements that were lost after brain damage.
ROBOTIC-ASSISTED UPPER-LIMB TRAINING WITH ARMEO®
Current evidence has shown that rehabilitation without specific training will not result in measurable outcomes. Factors such as intensity and specificity of motor training are important to achieve recovery of motor function, especially in the chronic phase of the stroke. There is robust evidence that highly-repetitive movement rehabilitation could improve motor and functional ability, based on its role in motor learning processes.Robotic devices have become a very important area of research because of their capacity to achieve high-intensity and specificity therapies.
In this proposed project, we plan to use the Armeo robotic system to deliver motor training therapy. The Armeo system is an adjustable arm orthosis that has received FDA 510k exemption. It passively counterbalances the weight of the arm, thereby reducing the effort required by the paretic arm to overcome gravity. The device is able to augment feedback through a virtual environment (i.e. computer games). The tasks presented in the virtual environment are designed to achieve functional movements, i.e. the subject has to perform tasks such as reaching for objects as part of the game. Gravity compensation, which can reduce the level of difficulty of performing an activity, facilitates active arm movement, especially when it involves training in grasping and reaching. By using the Armeo system, we hope to achieve repetitive training of reach, grasp, and release in an engaging environment that can be adapted to individual capabilities. We also expect to enable stroke survivors whose motor weakness may have excluded them from performing repetitive therapy tasks to participate in this study.
LEVODOPA Several agents have widely proved their influence on neuronal plasticity. Among these agents, pharmacological drugs increasing the availability of Central Nervous System (CNS) neurotransmitters (dopamine, norepinephrine, serotonin, acetylcholine and hista mine) have shown the ability to modulate excitability in cortical neurons and exert a subsequent facilitator effect in neuroplasticity. In this regard, several studies have been conducted in the past two decades investigating, among other agents, the effects of amphetamines, selective serotonin reuptake inhibitors, donepezil, psychostimulants as methylphenidate and dopaminergic agents. Levodopa (LD) is a desirable drug to evaluate because of its safe action profile. This oral medication is a precursor of dopamine (DA) that is actively transported across the blood-brain barrier and is converted to DA in the CNS and peripheral tissues. Approximately 95% of LD is converted to DA, stimulating dopaminergic neurotransmission, and the remaining 5% is converted to norepinephrine and affects adrenergic neurotransmission. DA plays a role in the formation of motor memories and thereby facilitates neuroplasticity, through the strengthening (long term potentiation, LTP) or weakening (long term depression, LTD) of the neuronal synapses, thereby generating neuroplasticity. DA has an inverted U-shape concentration curve effect to facilitate LTP. In previous studies doses of 100mg generated a facilitator effect, and 25 mg and 200 mg exerted an inhibitor effect on human cortex. This pharmacological agent has shown promising results in the treatment of stroke by enhancing functional motor recovery in the sub-acute and chronic period, in combination with intensive physical therapy, without reported significant side effects. In the acute and sub-acute phases, LD was demonstrated to improve functional motor skills that were maintained at three weeks follow up. LD also showed an additional benefit on the activities of daily living and in the severity of the stroke. In the chronic period, a single dose of LD combined with physical therapy for five weeks enhanced the formation of training-dependent elementary motor memory while improving UE dexterity.
COMBINING LEVODOPA/CARBIDOPA WITH THE ARMEO SYSTEM
It is our hypothesis that the intake of levodopa/carbidopa LD/CD in combination with intensive robotic-assisted therapy will provide better outcomes in functional recovery tests than the same training alone. We also hypothesize that these improvements could be correlated with changes in motor cortex excitability. Current strategies to improve motor recovery after stroke focus on neuroplasticity and neuromodulation. There is growing interest in the combination of therapies and strategies to enhance plasticity and thereby functional recovery through the rehabilitation process. It is frequently hypothesized that the combination of drug therapy and physical rehabilitation could provide better outcomes by enhancing neuroplasticity phenomenon
We propose a randomized, double-blind, placebo-controlled study of LD/CD in combination with repetitive upper-extremity functional task-oriented and robotic-aided training.
Trial Stopped: We didn't receive the expected funding to support the study.
- Placebo Drug
Intervention Desc: Placebo capsules daily for 3 weeks. ARM 1: Kind: Experimental Label: Placebo + Armeo Description: Placebo capsules daily for 3 weeks. Armeo Robotic Assisted Intensive Upper Extremity Therapy every weekday for 3 weeks.
- Levodopa / Carbidopa Drug
Other Names: Sinemet Intervention Desc: Levodopa / Carbidopa drug 100/25 mg once a day for 3 weeks. ARM 1: Kind: Experimental Label: Levodopa / Carbidopa + Armeo Description: Levodopa / Carbidopa drug 100/25 mg once a day for 3 weeks. Armeo Robotic Assisted Intensive Upper Extremity Therapy every weekday for 3 weeks.
- Armeo Device
Other Names: Robot-Assisted upper arm training(Armeo) Intervention Desc: Armeo Robotic Assisted Intensive Upper Extremity Therapy every weekday for 3 weeks. ARM 1: Kind: Experimental Label: Levodopa / Carbidopa + Armeo Description: Levodopa / Carbidopa drug 100/25 mg once a day for 3 weeks. Armeo Robotic Assisted Intensive Upper Extremity Therapy every weekday for 3 weeks. ARM 2: Kind: Experimental Label: Placebo + Armeo Description: Placebo capsules daily for 3 weeks. Armeo Robotic Assisted Intensive Upper Extremity Therapy every weekday for 3 weeks.
- Allocation: Randomized
- Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor)
- Purpose: Treatment
- Endpoint: Efficacy Study
- Intervention: Parallel Assignment
|Type||Measure||Time Frame||Safety Issue|
|Primary||Upper Extremity Score of the Fugl-Meyer Assessment (FM-UE)||month 1||No|
|Secondary||Computer Measures on the Armeo Robot||month 1||No|
|Secondary||Analysis of Muscle Activation Patterns During Upper Extremity Movements||month 1||Yes|
|Secondary||Transcranial Magnetic Stimulation Assessment (TMS)||month 1||Yes|
|Secondary||Veteran's Rand 36||month 1||No|
|Secondary||Hand Dynamometry||month 1||No|
|Secondary||Physical Examination||month 1||No|
|Secondary||Modified Ashworth Scale||month 1||No|
|Secondary||Wolf Motor Function Test (WMFT)||month 1||No|
|Primary||Change in Upper Extremity Score of the Fugl-Meyer Assessment (FM-UE) at 1 month||month 1||No|
- Ross D. Zafonte, MD Lead