Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Infant stepping: a method to study the sensory control of human walking
View through CrossRef
Stepping responses were studied in infants between the ages of 10 days and 10 months while they were supported to step on a slowly moving treadmill belt. Surface electromyography (EMG) from muscles in the lower limb, force exerted by the feet on the treadmill belt, and the motion of the lower limbs were recorded.
Two groups of infants were studied, those who had a small amount of daily practice in stepping and those who did not. Practice resulted in a dramatic increase in the incidence of stepping recorded in the laboratory, particularly for the periods between 1 and 6 months of age.
The majority of infants showed clear alternation between the flexor and extensor muscles during walking, regardless of age. Co‐contraction between flexors and extensors, estimated by the overlap in area between rectified and smoothed EMG from a muscle pair, was greater for some muscle groups in the infant compared with the adult.
Practice resulted in a significantly lower co‐contraction index for the tibialis anterior‐ quadriceps muscle pair. Practice did not affect the mean step cycle duration.
Infants of all ages could step at a range of treadmill speeds by adjusting their step cycle duration. The relationship between the treadmill speed and cycle duration was well fitted by a power function, similar to those reported for intact cats and adult humans. The change in step cycle duration resulted almost entirely from a change in the extensor burst duration, whereas the flexor burst duration remained constant.
Airstepping could be elicited in some infants. The cycle durations for airstepping were close to the shortest cycles recorded on the treadmill.
In conclusion, the system for generating rhythmic, alternating activity of the lower limbs for stepping is clearly developed by birth. The stepping is sustained and regular, particularly if stepping practice is incorporated briefly each day. The infant population provides a good subject pool for studying the afferent control of walking in the human, before cerebral influences are fully developed. The characteristics and maturity of the system remain to be determined.
Title: Infant stepping: a method to study the sensory control of human walking
Description:
Stepping responses were studied in infants between the ages of 10 days and 10 months while they were supported to step on a slowly moving treadmill belt.
Surface electromyography (EMG) from muscles in the lower limb, force exerted by the feet on the treadmill belt, and the motion of the lower limbs were recorded.
Two groups of infants were studied, those who had a small amount of daily practice in stepping and those who did not.
Practice resulted in a dramatic increase in the incidence of stepping recorded in the laboratory, particularly for the periods between 1 and 6 months of age.
The majority of infants showed clear alternation between the flexor and extensor muscles during walking, regardless of age.
Co‐contraction between flexors and extensors, estimated by the overlap in area between rectified and smoothed EMG from a muscle pair, was greater for some muscle groups in the infant compared with the adult.
Practice resulted in a significantly lower co‐contraction index for the tibialis anterior‐ quadriceps muscle pair.
Practice did not affect the mean step cycle duration.
Infants of all ages could step at a range of treadmill speeds by adjusting their step cycle duration.
The relationship between the treadmill speed and cycle duration was well fitted by a power function, similar to those reported for intact cats and adult humans.
The change in step cycle duration resulted almost entirely from a change in the extensor burst duration, whereas the flexor burst duration remained constant.
Airstepping could be elicited in some infants.
The cycle durations for airstepping were close to the shortest cycles recorded on the treadmill.
In conclusion, the system for generating rhythmic, alternating activity of the lower limbs for stepping is clearly developed by birth.
The stepping is sustained and regular, particularly if stepping practice is incorporated briefly each day.
The infant population provides a good subject pool for studying the afferent control of walking in the human, before cerebral influences are fully developed.
The characteristics and maturity of the system remain to be determined.
Related Results
Walkability; The Relationship of Walking Distance, Walking Time and Walking Speed
Walkability; The Relationship of Walking Distance, Walking Time and Walking Speed
Walking is cheap and healthy. It is the main transportation for the majority of students exploring their daily life in their campus area. Different types of people will have variou...
Intersegmental Coordination: Influence of a Single Walking Leg on the Neighboring Segments in the Stick Insect Walking System
Intersegmental Coordination: Influence of a Single Walking Leg on the Neighboring Segments in the Stick Insect Walking System
A key element of walking is the coordinated interplay of multiple limbs to achieve a stable locomotor pattern that is adapted to the environment. We investigated intersegmental coo...
Does Ability to do Proactive Stepping Reflect Ability to do Reactive Stepping?
Does Ability to do Proactive Stepping Reflect Ability to do Reactive Stepping?
Stepping is the strategy used in standing to prevent fall. Reactive stepping is made when perturbed to fall. Reactive stepping is less assessed in clinical setting, instead, proact...
Motor module generalization across balance and walking is reduced after stroke
Motor module generalization across balance and walking is reduced after stroke
AbstractHere, we examined features of muscle coordination associated with reduced walking performance in chronic stroke survivors. Using motor module (a.k.a. muscle synergy) analys...
Nonlinear optimal control for robotic exoskeletons with electropneumatic actuators
Nonlinear optimal control for robotic exoskeletons with electropneumatic actuators
Purpose
To provide high torques needed to move a robot’s links, electric actuators are followed by a transmission system with a high transmission rate. For instance, gear ratios of...
Measurement of Human Walking Movements by Using a Mobile Health App: Motion Sensor Data Analysis (Preprint)
Measurement of Human Walking Movements by Using a Mobile Health App: Motion Sensor Data Analysis (Preprint)
BACKGROUND
This study presents a new approach to measure and analyze the walking balance of humans by collecting motion sensor data in a smartphone.
...
The Difference of In-Shoe Plantar Pressure Between Level Walking and Stair Walking
The Difference of In-Shoe Plantar Pressure Between Level Walking and Stair Walking
Category:
Basic Sciences/Biologics
Introduction/Purpose:
Stair walking is one of c...
Evaluating complex walking in aging and neurological disease : from motor behavior to brain activity
Evaluating complex walking in aging and neurological disease : from motor behavior to brain activity
<p dir="ltr"><b>Aim</b>: To develop and validate a measurement protocol for evaluating cognitive-motor performance during complex walking in younger adults, older...