Wearable Sensors to Detect Atypical Muscle Activation in Young Infants
NCT06970522 · Status: RECRUITING · Type: OBSERVATIONAL · Enrollment: 40
Last updated 2026-03-25
Summary
The purpose of this study is to see if wearable sensor technology can be used to evaluate muscle activity and/or identify atypical muscle tone in infants up to 48 weeks postmenstrual age (8 weeks corrected age). These sensors are placed on the surface of the skin and record data about a child's body movements and muscle activity.
Conditions
- Neuromuscular Disorders
- Motor Development
- Muscle Tone
Sponsors & Collaborators
-
Ann & Robert H Lurie Children's Hospital of Chicago
collaborator OTHER - collaborator OTHER
-
Shirley Ryan AbilityLab
lead OTHER
Principal Investigators
-
Arun Jayaraman, PT, PhD · Shirley Ryan AbilityLab
Eligibility
- Min Age
- 0 Months
- Max Age
- 8 Weeks
- Sex
- ALL
- Healthy Volunteers
- No
Timeline & Regulatory
- Start
- 2025-06-25
- Primary Completion
- 2026-12-31
- Completion
- 2026-12-31
Countries
- United States
Study Locations
More Related Trials
-
MyoSense- Automated Muscle Hypertonicity Classification System
NCT02076581 ·Status: COMPLETED
-
Locomotor Learning in Infants at High Risk for Cerebral Palsy
NCT04561232 ·Status: COMPLETED ·Phase: NA
-
Muscle Synergies During Gait in Children With Cerebral Palsy Undergoing Robot-assisted Gait Therapy
NCT06156969 ·Status: COMPLETED ·Phase: NA
-
Smartphone App for Analysis of General Movements in Young Infants
NCT03409978 ·Status: COMPLETED
-
Motor Training for Infants With Cerebral Palsy
NCT04886895 ·Status: RECRUITING ·Phase: NA
-
Use of EMG to Assess Clinical Hypertonia
NCT00472914 ·Status: COMPLETED
-
Wavelet Analysis of Electromyography (EMG) in Cerebral Palsy
NCT00504049 ·Status: COMPLETED
-
Extending taVNS Paired With Infant CIMT Into a Home-Based Setting
NCT05857527 ·Status: COMPLETED ·Phase: EARLY_PHASE1
-
Expiratory Muscle Training in Children With Cerebral Palsy
NCT07048223 ·Status: NOT_YET_RECRUITING ·Phase: NA
-
CIMT and taVNS for Hemiplegia in Infants
NCT05101707 ·Status: COMPLETED ·Phase: EARLY_PHASE1
-
Neuromuscular Mechanisms of Specific Trunk Interventions in Children With CP
NCT05805410 ·Status: RECRUITING ·Phase: NA
-
The Influence of 3D Printed Prostheses on Neural Activation Patterns
NCT04110730 ·Status: RECRUITING ·Phase: NA
-
Families Filming Infants Learning Movement
NCT06278961 ·Status: RECRUITING
-
Effect of Multisensory Motor Imagery Training on Muscle Performance and Coordination in Children With Spastic Diplegia
NCT06676332 ·Status: RECRUITING ·Phase: NA
-
sTMS Combined With CIMT and taVNS In Infants With Hemiplegia
NCT07063446 ·Status: RECRUITING ·Phase: NA
-
The Effect of Combined Armeospring and CIT on Neuro-motor and Functional Recovery in Children With Unilateral CP
NCT02914925 ·Status: UNKNOWN ·Phase: NA
-
Stop Tip-toeing Around Toe-walking
NCT04879199 ·Status: COMPLETED ·Phase: NA
-
Project for Cognitive Advancement in Infants With Neuromotor Disorders
NCT02673658 ·Status: COMPLETED ·Phase: NA
-
Investigating New Methods to Study Movement in Children and Young Adults With Movement Disorders.
NCT06498596 ·Status: RECRUITING
-
Development of a Proxy Motor Outcome Measure in Young Children With Neuromuscular Disease
NCT02007213 ·Status: TERMINATED
-
Movement Characterization in Spastic/Dystonic Cerebral Palsy Using Haptic Feedback in Virtual Reality
NCT03744884 ·Status: UNKNOWN ·Phase: NA
-
Activities-based Locomotor Training in Children With Cerebral Palsy
NCT07184411 ·Status: RECRUITING ·Phase: NA
-
Knee Neuromuscular Assessment in Children With Cerebral Palsy
NCT06667518 ·Status: COMPLETED
-
Upper Extremity Strength in Cerebral Palsy
NCT02146989 ·Status: COMPLETED
-
Reliability and Validity of Strength Measurements of the Lower Limbs in Children With Bilateral Spastic Cerebral Palsy.
NCT03818152 ·Status: COMPLETED ·Phase: NA