Motor Adaptation by Error Augmentation Force Field in Healthy Peoples' Upper Extremity

University of Haifa

Status

Unknown

Conditions

Healthy Volunteers

Treatments

Other: Control group

Other: Error enhancement

Study type

Interventional

Funder types

Other

Identifiers

NCT02780817

036/15

Details and patient eligibility

About

Inducing a systematic perturbation forces on the hand during arm reaching movement may improve adaptation. Error-augmentation (EA) training is relatively new concept in motor learning intended to promote the adaptation process. In this study participants will practice one session of training on 3D robotic device. Healthy volunteers will be randomly divided into two groups: study and control. The study group will carry out the training session with EA forces. The control group will carry out the same procedure with null force field. Outcome measure are the average size of trajectory error from the straight line and level of exertion (borg scale).

Full description

A single process involved in motor learning is adaptation. Hand reaching movement has been extensively used to evaluate the concept of motor adaptation. By inducing a systematic perturbation on the hand, it is possible to examine the implicit motor response on the trajectory of the hand. Error-augmentation (EA) training is relatively new concept in motor learning intended to promote the adaptation process. Applying these perturbating forces on the hand shift the hand trajectory form the straight line to a curve like shape. Making repetitive movement under the same conditions will results in a gradual correction of this faulty movement trajectory toward the straight line, e.g. motor adaptation.

Participants: Healthy volunteers, aged 20-50, males and females. The participants will be randomly assigned into two groups: study or control group.

Procedure: One practice session of 25 minutes on 3D robotic device. The study group will carry out the session with EA forces. The control group will carry out the same training without the EA forces.

Outcome Measures: Size of trajectory error from the straight line, level of exertion.

Enrollment

40 estimated patients

Sex

All

Ages

20 to 55 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

Healthy

Exclusion criteria

Neurologic disease, orthopedic syndrome of the dominant upper extremity.

Trial design

Primary purpose

Treatment

Allocation

Randomized

Interventional model

Parallel Assignment

Masking

Single Blind

40 participants in 2 patient groups

Error enhancement

Experimental group

Description:

Arm reaching rehabilitation training with error-augmentation perturbation forces. One session of about 25 minutes of practicing arm reaching movements on 3D robotic device.

Treatment:

Other: Error enhancement

Control group

Other group

Description:

Arm reaching rehabilitation training without error-augmentation perturbation forces. One session of about 25 minutes of practicing arm reaching movements on 3D robotic device.

Treatment:

Other: Control group

Trial contacts and locations

Central trial contact

Sharon Israley, MSc.; Eli Carmeli, PhD.

Data sourced from clinicaltrials.gov

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