Effect of Reward on Learning in Motor Cortex



Status:Completed
Conditions:Healthy Studies
Therapuetic Areas:Other
Healthy:No
Age Range:18 - 50
Updated:4/6/2019
Start Date:April 15, 2009
End Date:January 22, 2013

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Effects of Reward on Learning in the Motor Cortex

Background:

- Magnetic resonance imaging (MRI) uses a strong magnetic field and radio waves to take
pictures of the brain. Some MRI studies suggest that this technique reveals brain
differences in patients with a nervous system illness when compared to adults without a
nervous system illness.

Objectives:

- To study functional changes in the brain that may be observed in people without any
nervous system illness.

- To learn more about which areas of the brain are necessary to perform certain tasks,
especially learning simple motor sequences and processing rewards.

Eligibility:

- Healthy volunteers between the ages of 18 and 50 who are right-handed and are native
English speakers, and who have no medical conditions that would prevent them from
undergoing magnetic imaging.

- Volunteers must not have a history of neurological or psychiatric illnesses.

- Female volunteers must not be pregnant.

Design:

- Volunteers will be asked to undergo different types of magnetic imaging, including
functional magnetic resonance imaging (fMRI), magnetic resonance spectroscopy (MRS),
and/or transcranial magnetic stimulation (TMS), while participating in either a slot
machine simulation or a key sequence learning task.

- Volunteers will participate in one of four possible experiments:

- Experiment 1: MRS/TMS and slot machine (3 visits, 3.5 hours in total).

- Experiment 2: MRS/TMS and key sequence (3 visits, 3.5 hours in total).

- Experiment 3: fMRI and slot machine (2 visits, 3 hours in total).

- Experiment 4: fMRI and key sequence (1 visit, 2 hours in total).

- Experiment types:

- Slot machine: A computer game like a slot machine, where the user presses a button to
start the game and watches as the three barrels of the machine spin into place.

- Key sequence: Pressing a series of buttons in response to visual cues.

- Volunteers will also be asked to give a small blood sample for genetic testing.

- Volunteers will be paid a small amount of money (approximately $50 $80) during the
experiments in compensation for their participation in the study.

Objective: The role of mesencephalic dopamine neurons in reward processing has been
established in primates using electrophysiological techniques and in humans using functional
neuroimaging. They have rich projections to both the prefrontal and motor cortices where they
synapse on interneurons and cortical pyramidal cells, producing primarily inhibition. Though
their function is not fully understood, these projections clearly play an important role in
motivation and learning. We recently developed a paradigm to detect reward-related signals in
the primary motor cortex, using transcranial magnetic stimulation (TMS), and demonstrated
increased inhibition in primary motor cortex under conditions of increased reward expectancy.
These results suggest that motor learning, which depends critically on the motor cortex, may
be influenced by reward, which may take the form of simple performance feedback in humans.
This kind of feedback also allows subjects to predict the outcome of actions. Thus, our
present objective is to investigate the influence of reward/feedback/prediction on the
activity of primary motor cortex during motor learning and in particular during instances of
increased reward expectancy. Further, we will examine the role of a brain derived
neurotrophic factor (BDNF) single nucleotide polymorphism on motor learning.

Study Population: The population that we will study will be healthy volunteers between the
ages of 18-50, without any significant medical history or contraindication to functional
magnetic resonance imaging (fMRI).

Design: All experiments will employ within- or between-subjects fMRI and magnetic resonance
spectroscopy (MRS) to measure changes in activations of different cortical areas in response
to motor learning and reward.

Outcome Measures: The outcome measures will be (a) graded changes in blood oxygen
level-dependent (BOLD) in response to motor learning and reward and (b) variations in GABA
concentration in response to motor learning and reward, and c) variations in response time in
the behavioral performance of a learning task.

- INCLUSION CRITERIA:

- Age 18-50.

- Right handed.

EXCLUSION CRITERIA:

- Significant neurological or psychiatric history

- Habitual consumption of more than two drinks a day, marijuana more than once a week or
any other illicit drug use within the last three months

- Use of medication affecting the DA system, such as phenothiazine antihistamines
(promethazine), antiemetics or decongestants within the last month

- Significant abnormality on neurological examination

- Metal in the cranial cavity or eye, pacemaker, implanted pumps or stimulators

- Subjects who participate in any one experiment in this protocol may not participate in
another experiment in this protocol.
We found this trial at
1
site
9000 Rockville Pike
Bethesda, Maryland 20892
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mi
from
Bethesda, MD
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