Cerebral palsy (CP) is the most common pediatric neurological disorder. CP is caused by damage to brain motor areas during development. CP results in weakness, altered tone and abnormal coordination. People with unilateral spastic cerebral palsy (USCP) tend to under-use their paretic side, and do not develop robust motor control of the paretic side. As people with USCP age, motor deficits on the paretic side persist due to disuse of the paretic side. Few therapies exist for upper extremity rehabilitation in adults with USCP. The goal of the present study was to determine feasibility and efficacy of upper limb therapy in adults with CP. Upper extremity robotic therapy can improve arm movement deficits in adults after stroke. Transcranial direct current stimulation (tDCS) can augment the efficacy of robotic therapy when delivered immediately before training. We propose to test this same protocol in USCP. We hypothesize that tDCS plus upper extremity robotic training will be a safe, feasible protocol that improved upper extremity function. Participants will receive thirty-six sessions of therapy, three days/week for 12 weeks. During each therapy session, each participant will receive 20 min of real 2mA anodal tDCS or sham tDCS, immediately followed by robotic arm therapy. Anodal (excitatory) tDCS will be applied over the motor map of the paretic hand. During robotic therapy, each participant will use the wrist and upper arm to follow a cursor in a center-out task for 1000 movements. We will measure motor function of the affected upper limb before, after, and six months after the series of therapy sessions. We will also measure kinematics of movements on the robot and side effects of tDCS at each session. We will also measure motor cortex excitability before and after the series of therapy sessions, using single pulse transcranial magnetic stimulation. We hypothesize that therapy will result in improved reaching accuracy and smoothness on the robotic task, improvement in clinical motor measures, and will show an excellent safety profile. We also hypothesize that the therapy will expand the motor map of the paretic hand. Understanding the feasibility, efficacy, and neurophysiological effects of combined tDCS and robotic therapy will be an important step in developing and optimizing effective upper limb therapy for adults with CP.

Public Health Relevance

Unilateral cerebral palsy (CP) is an extremely common pediatric neurological disorder, causing difficulty with movement. Most commonly, people with CP live a normal-length lifespan. However, movement impairments, which can get worse with age, often impact the independence and quality of life of adults with CP. The goal of the proposed studies is to test the novel hypothesis that combined non-invasive brain stimulation and robotic upper limb therapy can improve upper limb function in adults with CP. Understanding the feasibility and efficacy of this therapy in adults with CP will poise us to optimize upper limb therapy for this underserved population.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Small Research Grants (R03)
Project #
1R03HD084971-01
Application #
8953097
Study Section
Pediatrics Subcommittee (CHHD)
Program Officer
Nitkin, Ralph M
Project Start
2015-08-06
Project End
2017-07-31
Budget Start
2015-08-06
Budget End
2016-07-31
Support Year
1
Fiscal Year
2015
Total Cost
$97,500
Indirect Cost
$47,500
Name
Winifred Masterson Burke Med Research Institute
Department
Type
DUNS #
780676131
City
White Plains
State
NY
Country
United States
Zip Code
10605
Friel, Kathleen M; Lee, Peter; Soles, Lindsey V et al. (2017) Combined transcranial direct current stimulation and robotic upper limb therapy improves upper limb function in an adult with cerebral palsy. NeuroRehabilitation 41:41-50
Grecco, Luanda A Collange; Oliveira, Claudia Santos; Galli, Manuela et al. (2016) Spared Primary Motor Cortex and The Presence of MEP in Cerebral Palsy Dictate the Responsiveness to tDCS during Gait Training. Front Hum Neurosci 10:361