The purpose of this study is to investigate whether a wearable robotic exoskeleton can help people with multiple sclerosis (MS) to walk again.
Loss of the ability to walk is one of the significant problems in persons with multiple sclerosis (MS). This limitation prevents the person from having an active and meaningful life at home and in the community. Also, more energy is needed to walk, which can cause fatigue and further leads to a non-active life style and poor quality of life. Unfortunately, walking training is often not available for this population because of the severity and progress of the disease; therefore, a new strategy is needed to help people with MS to walk again. A new technology, the wearable robotic exoskeleton, has been developed to help persons with spinal cord injuries stand up and walk. The robotic legs are powered by batteries and controlled by motors. This study will investigate the use of a wearable robotic exoskeleton to help persons with MS to walk. Participants will receive trainings (5 days per week for 3 weeks) to walk with the robotic exoskeleton (EKSO, EKSO Bionics, Richmond, CA). During the training, a physical therapist will teach the participant how to maintain balance, sit to stand, stand to sit, and walk with the wearable robotic exoskeleton. The hypothesis is that persons with MS will be able to use a robotic exoskeleton to walk better and with less energy costs.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
SUPPORTIVE_CARE
Masking
NONE
Enrollment
11
The wearable lower limb exoskeleton is a powered, robotic lower limb exoskeleton with actuated hips and knees. A control algorithm has been implemented in this device, which allows for provision of assistance to lower limb segments during movement, dependent on user needs.
TIRR Memorial Hermann
Houston, Texas, United States
Speed in the Timed 25 Feet Walk Test at Self-selected Speed (Without Exoskeleton)
This task will ask the subject to walk for 25 feet at comfortable pace with and without exoskeleton. Subjects will wear their exercise or walking shoes and are allowed to use assistive device such as cane or walker if necessary. The start and finish line of the 25 feet test course will be marked with tape on the floor. Additional 5 feet at the end of start and finish will be used for subject to turn around. A chair will be provided next to the start area so the subject may rest. During the test, the subject will walk at his/her comfortable pace without losing balance. A research team member will walk next to the subject for safety.
Time frame: baseline
Speed in the Timed 25 Feet Walk Test at Self-selected Speed (Without Exoskeleton)
This task will ask the subject to walk for 25 feet at comfortable pace with and without exoskeleton. Subjects will wear their exercise or walking shoes and are allowed to use assistive device such as cane or walker if necessary. The start and finish line of the 25 feet test course will be marked with tape on the floor. Additional 5 feet at the end of start and finish will be used for subject to turn around. A chair will be provided next to the start area so the subject may rest. During the test, the subject will walk at his/her comfortable pace without losing balance. A research team member will walk next to the subject for safety.
Time frame: 3 weeks
Speed in the Timed 25 Feet Walk Test at Self-selected Speed (With Exoskeleton)
This task will ask the subject to walk for 25 feet at comfortable pace with and without exoskeleton. Subjects will wear their exercise or walking shoes and are allowed to use assistive device such as cane or walker if necessary. The start and finish line of the 25 feet test course will be marked with tape on the floor. Additional 5 feet at the end of start and finish will be used for subject to turn around. A chair will be provided next to the start area so the subject may rest. During the test, the subject will walk at his/her comfortable pace without losing balance. A research team member will walk next to the subject for safety.
Time frame: 3 weeks
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Speed in the Timed 25 Feet Walk Test at Fast Speed (Without Exoskeleton)
This task will ask the subject to walk for 25 feet at comfortable pace with and without exoskeleton. Subjects will wear their exercise or walking shoes and are allowed to use assistive device such as cane or walker if necessary. The start and finish line of the 25 feet test course will be marked with tape on the floor. Additional 5 feet at the end of start and finish will be used for subject to turn around. A chair will be provided next to the start area so the subject may rest. During the test, the subject will walk at fast speed. A research team member will walk next to the subject for safety.
Time frame: baseline
Speed in the Timed 25 Feet Walk Test at Fast Speed (Without Exoskeleton)
This task will ask the subject to walk for 25 feet at comfortable pace with and without exoskeleton. Subjects will wear their exercise or walking shoes and are allowed to use assistive device such as cane or walker if necessary. The start and finish line of the 25 feet test course will be marked with tape on the floor. Additional 5 feet at the end of start and finish will be used for subject to turn around. A chair will be provided next to the start area so the subject may rest. During the test, the subject will walk at fast speed. A research team member will walk next to the subject for safety.
Time frame: 3 weeks
Speed in the Timed 25 Feet Walk Test at Fast Speed (With Exoskeleton)
This task will ask the subject to walk for 25 feet at comfortable pace with and without exoskeleton. Subjects will wear their exercise or walking shoes and are allowed to use assistive device such as cane or walker if necessary. The start and finish line of the 25 feet test course will be marked with tape on the floor. Additional 5 feet at the end of start and finish will be used for subject to turn around. A chair will be provided next to the start area so the subject may rest. During the test, the subject will walk at fast speed. A research team member will walk next to the subject for safety.
Time frame: 3 weeks
Distance Walked During the Six-minute Walk Test (Without Exoskeleton)
Subjects will be asked to walk back and forth in a hallway with or without exoskeleton for 6 minutes. The objective is to cover as much space as possible in 6 minutes. Subjects can slow down or stop to rest if they feel like, but should start walking when they feel they are able. A research team member will walk behind the subject to prevent loss of balance during the test.
Time frame: baseline
Distance Walked During the Six-minute Walk Test (Without Exoskeleton)
Subjects will be asked to walk back and forth in a hallway with or without exoskeleton for 6 minutes. The objective is to cover as much space as possible in 6 minutes. Subjects can slow down or stop to rest if they feel like, but should start walking when they feel they are able. A research team member will walk behind the subject to prevent loss of balance during the test.
Time frame: 3 weeks
Distance Walked During the Six-minute Walk Test (With Exoskeleton)
Subjects will be asked to walk back and forth in a hallway with or without exoskeleton for 6 minutes. The objective is to cover as much space as possible in 6 minutes. Subjects can slow down or stop to rest if they feel like, but should start walking when they feel they are able. A research team member will walk behind the subject to prevent loss of balance during the test.
Time frame: 3 weeks
Physical Demands as Assessed by Energy Expenditure (Which is Indicated by VO2-max as Measured by the Cosmed K4b2) During the Timed 25 Feet Walk Test at Self-selected Speed (Without Exoskeleton)
Physical demands during the Timed 25 Feet Walk Test will be indicated by energy expenditure. Energy Expenditure (as indicated by VO2-max) will be measured by the K4 b2 Cosmed as follows: Oxygen cost will be calculated from oxygen consumption as the product of gait speed and body weight. Oxygen consumption will be collected on a breath-by-breath basis measured by a portable metabolic system (K4 b2 Cosmed). Prior to the testing, the system will be calibrated using room air and reference gas mixture. During the testing, the subject will wear a face mask and a heart rate monitor at all times and will be asked to breathe normally. VO2-max, also known as maximal oxygen uptake, is the measurement of the maximum amount of oxygen a person can utilize during exercise.
Time frame: baseline
Physical Demands as Assessed by Energy Expenditure (Which is Indicated by VO2-max as Measured by the Cosmed K4b2) During the Timed 25 Feet Walk Test at Self-selected Speed (Without Exoskeleton)
Physical demands during the Timed 25 Feet Walk Test will be indicated by energy expenditure. Energy Expenditure (as indicated by VO2-max) will be measured by the K4 b2 Cosmed as follows: Oxygen cost will be calculated from oxygen consumption as the product of gait speed and body weight. Oxygen consumption will be collected on a breath-by-breath basis measured by a portable metabolic system (K4 b2 Cosmed). Prior to the testing, the system will be calibrated using room air and reference gas mixture. During the testing, the subject will wear a face mask and a heart rate monitor at all times and will be asked to breathe normally. VO2-max, also known as maximal oxygen uptake, is the measurement of the maximum amount of oxygen a person can utilize during exercise.
Time frame: 3 weeks
Physical Demands as Assessed by Energy Expenditure (Which is Indicated by VO2-max as Measured by the Cosmed K4b2) During the Timed 25 Feet Walk Test at Self-selected Speed (With Exoskeleton)
Physical demands during the Timed 25 Feet Walk Test will be indicated by energy expenditure. Energy Expenditure (as indicated by VO2-max) will be measured by the K4 b2 Cosmed as follows: Oxygen cost will be calculated from oxygen consumption as the product of gait speed and body weight. Oxygen consumption will be collected on a breath-by-breath basis measured by a portable metabolic system (K4 b2 Cosmed). Prior to the testing, the system will be calibrated using room air and reference gas mixture. During the testing, the subject will wear a face mask and a heart rate monitor at all times and will be asked to breathe normally. VO2-max, also known as maximal oxygen uptake, is the measurement of the maximum amount of oxygen a person can utilize during exercise.
Time frame: 3 weeks
Physical Demands as Assessed by Energy Expenditure (Which is Indicated by VO2-max as Measured by the Cosmed K4b2) During the Timed 25 Feet Walk Test at Fast Speed (Without Exoskeleton)
Physical demands during the Timed 25 Feet Walk Test will be indicated by energy expenditure. Energy Expenditure (as indicated by VO2-max) will be measured by the K4 b2 Cosmed as follows: Oxygen cost will be calculated from oxygen consumption as the product of gait speed and body weight. Oxygen consumption will be collected on a breath-by-breath basis measured by a portable metabolic system (K4 b2 Cosmed). Prior to the testing, the system will be calibrated using room air and reference gas mixture. During the testing, the subject will wear a face mask and a heart rate monitor at all times and will be asked to breathe normally. VO2-max, also known as maximal oxygen uptake, is the measurement of the maximum amount of oxygen a person can utilize during exercise.
Time frame: baseline
Physical Demands as Assessed by Energy Expenditure (Which is Indicated by VO2-max as Measured by the Cosmed K4b2) During the Timed 25 Feet Walk Test at Fast Speed (Without Exoskeleton)
Physical demands during the Timed 25 Feet Walk Test will be indicated by energy expenditure. Energy Expenditure (as indicated by VO2-max) will be measured by the K4 b2 Cosmed as follows: Oxygen cost will be calculated from oxygen consumption as the product of gait speed and body weight. Oxygen consumption will be collected on a breath-by-breath basis measured by a portable metabolic system (K4 b2 Cosmed). Prior to the testing, the system will be calibrated using room air and reference gas mixture. During the testing, the subject will wear a face mask and a heart rate monitor at all times and will be asked to breathe normally. VO2-max, also known as maximal oxygen uptake, is the measurement of the maximum amount of oxygen a person can utilize during exercise.
Time frame: 3 weeks
Physical Demands as Assessed by Energy Expenditure (Which is Indicated by VO2-max as Measured by the Cosmed K4b2) During the Timed 25 Feet Walk Test at Fast Speed (With Exoskeleton)
Physical demands during the Timed 25 Feet Walk Test will be indicated by energy expenditure. Energy Expenditure (as indicated by VO2-max) will be measured by the K4 b2 Cosmed as follows: Oxygen cost will be calculated from oxygen consumption as the product of gait speed and body weight. Oxygen consumption will be collected on a breath-by-breath basis measured by a portable metabolic system (K4 b2 Cosmed). Prior to the testing, the system will be calibrated using room air and reference gas mixture. During the testing, the subject will wear a face mask and a heart rate monitor at all times and will be asked to breathe normally. VO2-max, also known as maximal oxygen uptake, is the measurement of the maximum amount of oxygen a person can utilize during exercise.
Time frame: 3 weeks
Physical Demands as Assessed by Energy Expenditure (Which is Indicated by VO2-max as Measured by the Cosmed K4b2) During the Six-Minute Walk Test (Without Exoskeleton)
Physical demands during the Six-Minute Walk Test will be indicated by energy expenditure. Energy Expenditure (as indicated by VO2-max) will be measured by the K4 b2 Cosmed as follows: Oxygen cost will be calculated from oxygen consumption as the product of gait speed and body weight. Oxygen consumption will be collected on a breath-by-breath basis measured by a portable metabolic system (K4 b2 Cosmed). Prior to the testing, the system will be calibrated using room air and reference gas mixture. During the testing, the subject will wear a face mask and a heart rate monitor at all times and will be asked to breathe normally. VO2-max, also known as maximal oxygen uptake, is the measurement of the maximum amount of oxygen a person can utilize during exercise.
Time frame: baseline
Physical Demands as Assessed by Energy Expenditure (Which is Indicated by VO2-max as Measured by the Cosmed K4b2) During the Six-Minute Walk Test (Without Exoskeleton)
Physical demands during the Six-Minute Walk Test will be indicated by energy expenditure. Energy Expenditure (as indicated by VO2-max) will be measured by the K4 b2 Cosmed as follows: Oxygen cost will be calculated from oxygen consumption as the product of gait speed and body weight. Oxygen consumption will be collected on a breath-by-breath basis measured by a portable metabolic system (K4 b2 Cosmed). Prior to the testing, the system will be calibrated using room air and reference gas mixture. During the testing, the subject will wear a face mask and a heart rate monitor at all times and will be asked to breathe normally. VO2-max, also known as maximal oxygen uptake, is the measurement of the maximum amount of oxygen a person can utilize during exercise.
Time frame: 3 weeks
Physical Demands as Assessed by Energy Expenditure (Which is Indicated by VO2-max as Measured by the Cosmed K4b2) During the Six-Minute Walk Test (With Exoskeleton)
Physical demands during the Six-Minute Walk Test will be indicated by energy expenditure. Energy Expenditure (as indicated by VO2-max) will be measured by the K4 b2 Cosmed as follows: Oxygen cost will be calculated from oxygen consumption as the product of gait speed and body weight. Oxygen consumption will be collected on a breath-by-breath basis measured by a portable metabolic system (K4 b2 Cosmed). Prior to the testing, the system will be calibrated using room air and reference gas mixture. During the testing, the subject will wear a face mask and a heart rate monitor at all times and will be asked to breathe normally. VO2-max, also known as maximal oxygen uptake, is the measurement of the maximum amount of oxygen a person can utilize during exercise.
Time frame: 3 weeks
Cognitive Demands as Indicated by Reaction Time in Dual Task Paradigm (Without Exoskeleton)
Cognitive demands during the Timed 25 Feet Walk Test at self-selected pace with and without exoskeleton will be determined by reaction time using a dual-task paradigm. We chose a simple reaction time (RT) task, in which the response will be biting on a pressure sensor to make the response pathways as independent as possible from the motor pathways of locomotion. The secondary RT task consists of biting a pressure transducer placed in the mouth in response to an unpredictable sensory (will not cause pain) electrical stimulation applied by an electrode on the back of the neck without changing walking speed and pattern. The stimulation intensity will be adjusted for each individual before data collection. Shorter RT indicates that reduced amount of attentional resources are required.
Time frame: 3 weeks
Cognitive Demands as Indicated by Reaction Time in Dual Task Paradigm (With Exoskeleton)
Cognitive demands during the Timed 25 Feet Walk Test at self-selected pace with and without exoskeleton will be determined by reaction time using a dual-task paradigm. We chose a simple reaction time (RT) task, in which the response will be biting on a pressure sensor to make the response pathways as independent as possible from the motor pathways of locomotion. The secondary RT task consists of biting a pressure transducer placed in the mouth in response to an unpredictable sensory (will not cause pain) electrical stimulation applied by an electrode on the back of the neck without changing walking speed and pattern. The stimulation intensity will be adjusted for each individual before data collection. Shorter RT indicates that reduced amount of attentional resources are required.
Time frame: 3 weeks
Amount of Time Taken to Complete the Time Up and Go Test (Without Exoskeleton)
This task will be performed with and without exoskeleton. This task involves subject to stand from the standard chair, walk straight for 3 meters, turn around, walk back to the chair and sit down with shoes and assistive devices if any. A standard chair with arm rests will be place at the start of the testing course. A mark will be placed on the floor at the 3 meter distance.
Time frame: baseline
Amount of Time Taken to Complete the Time Up and Go Test (Without Exoskeleton)
This task will be performed with and without exoskeleton. This task involves subject to stand from the standard chair, walk straight for 3 meters, turn around, walk back to the chair and sit down with shoes and assistive devices if any. A standard chair with arm rests will be place at the start of the testing course. A mark will be placed on the floor at the 3 meter distance.
Time frame: 3 weeks
Quality of Life as Assessed by the Multiple Sclerosis Quality of Life-54 (MSQOL-54) Questionnaire - Physical Health Composite Score
MSQOL-54 physical health composite scores range from 0 to 100, with a higher scale score indicating improved quality of life
Time frame: baseline
Quality of Life as Assessed by the Multiple Sclerosis Quality of Life-54 (MSQOL-54) Questionnaire - Physical Health Composite Score
MSQOL-54 physical health composite scores range from 0 to 100, with a higher scale score indicating improved quality of life
Time frame: 3 weeks
Quality of Life as Assessed by the Multiple Sclerosis Quality of Life-54 (MSQOL-54) Questionnaire - Mental Health Composite Score
MSQOL-54 mental health composite scores range from 0 to 100, with a higher scale score indicating improved quality of life
Time frame: baseline
Quality of Life as Assessed by the Multiple Sclerosis Quality of Life-54 (MSQOL-54) Questionnaire - Mental Health Composite Score
MSQOL-54 mental health composite scores range from 0 to 100, with a higher scale score indicating improved quality of life
Time frame: 3 weeks