Grasping Function After Spinal Cord Injury

VA Office of Research and Development

Status

Terminated

Conditions

Spinal Cord Injury

Treatments

Other: Training

Other: Motor Task

Device: Sham iTMS

Device: iTMS

Study type

Interventional

Funder types

Other U.S. Federal agency

Identifiers

NCT03447509

B2474-R

Details and patient eligibility

About

The overall goals of this proposal are to examine the contribution of physiological pathways to the control of grasping behaviors after cervical SCI, and to maximize the recovery of grasping by using tailored non-invasive brain stimulation and acoustic startle protocols with motor training. The investigators propose to study two basic grasping behaviors, which are largely used in most daily-life activities: a precision grip and a power grip.

Full description

Grasping behaviors, which are essential for daily-life functions, are largely impaired in individuals with cervical spinal cord injury (SCI). Although rehabilitative interventions have shown success in improving the ability to grasp following injury their overall effects remain limited. The goals of this proposal are to examine the contribution of physiological pathways to the control of grasping behaviors after cervical SCI, and to maximize the recovery of grasping by using tailored non-invasive stimulation protocols with motor training. The investigators propose to study two basic grasping behaviors: a precision grip and a power grip. These behaviors are crucial because they provide the basis for a number human prehensile manipulations and are also necessary skills for eating, writing, dressing, and many other functions. Thus, the study results may have a direct impact on the quality of life for Veterans and their caregivers by enhancing their independence and level of care.

In Aim 1, the investigators will investigate the contribution of corticospinal and brainstem pathways to the control of hand muscles involved in precision and power grip after cervical SCI. Transcranial magnetic stimulation (TMS) will be used to examine transmission in corticospinal and intracortical pathways targeting finger muscles and an acoustic startle stimulus with and without TMS will be used to examine the contribution from brainstem pathways.

In Aim 2, the investigators propose to enhance the recovery of grasping by using novel tailored protocols of non-invasive repetitive TMS targeting late indirect (I) descending volleys (iTMS) and an acoustic startle stimuli. iTMS and startle will be used during precision and power grip movements in a task-dependent manner to induce cortical and subcortical plasticity and enhance voluntary output of hand muscles. Later, iTMS and startle will be applied in a task-dependent manner during a motor training task that involves precision and power grip. These unique approaches aim at promoting neuroplasticity during functionally relevant grasping movements has not been used before.

Enrollment

50 patients

Sex

All

Ages

18 to 85 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

Participants who are unimpaired healthy controls:

Male and females between ages 18-85 years
Right handed
Able to complete precision grips with both hands
Able to complete full wrist flexion-extension bilaterally

Participants who have had a spinal cord injury:

Male and females between ages 18-85 years
Chronic SCI (> 1 year post injury)
Spinal Cord injury at C8 or above
Intact or impaired but not absent innervations in dermatomes C6. C7 and C8 during light touch and pin prick stimulus using the International Standards for Neurological Classification of Spinal Cord Injury (ISNCSCI) sensory scores
The ability to produce a visible precision grip force with one hand
Able to perform some small wrist flexion and extension
ASIA A,B,C, or D

Exclusion criteria

Exclusion criteria for enrollment For SCI and Healthy Control Subjects (4-8 exclusion for non-invasive brain stimulation only):

Uncontrolled medical problems including pulmonary, cardiovascular or orthopedic disease
Any debilitating disease prior to the SCI that caused exercise intolerance
Premorbid, ongoing major depression or psychosis, altered cognitive status
History of head injury or stroke
Pacemaker
Metal plate in skull
History of seizures
Receiving drugs acting primarily on the central nervous system, which lower the seizure threshold
Pregnant females
Ongoing cord compression or a syrinx in the spinal cord or who suffer from a spinal cord disease such as spinal stenosis, spina bifida, MS, or herniated disk

Trial design

Primary purpose

Treatment

Allocation

Randomized

Interventional model

Crossover Assignment

Masking

Single Blind

50 participants in 3 patient groups

Experiment 1a

Active Comparator group

Description:

Examine physiological mechanisms contributing to the control of precision and power grip behaviors. To accomplish this aim the investigators propose to complete one main experiment. The investigators will test the hypotheses that there are two fundamentally distinct modes of hand operation after SCI. One involves brainstem pathways, and permits whole-hand 'power grip', while the other involves corticospinal and motor cortical connections, and allows a wide range of fractionated finger movements (precision grip) after SCI. Measurements of corticospinal, reticulospinal, and motoneuron excitability will be tested during index finger abduction, precision and power grip.

Treatment:

Device: iTMS

Other: Motor Task

Experiment 1b

Active Comparator group

Description:

To accomplish this aim the investigators propose to complete one main experiment. The investigators will use iTMS and/or an acoustic startle stimuli to test the hypothesis that induced-plasticity protocols (iTMS and startle stimuli) will enhance EMG and force output in hand muscles during grasping. In a randomized sham crossover design, SCI and controls will be assigned to two groups: (1) iTMS applied during precision and power grip (two randomized sessions), and (2) startle applied during precision and power grip (two randomized sessions).

Treatment:

Device: iTMS

Other: Motor Task

Experiment 2

Active Comparator group

Description:

To accomplish this aim the investigators propose to complete one main experiment. The investigators will combine iTMS and/or acoustic startle with precision and power grip training to test the hypothesis that 'precision and power grip training outcomes will be enhanced by iTMS and startle induced plasticity'. In a randomized sham controlled design, SCI and control subjects will be assigned to: training+iTMS and training+sham iTMS and training+startle and training+sham startle.

Treatment:

Device: iTMS

Device: Sham iTMS

Other: Training

Other: Motor Task

Trial documents