Extended Conference Abstracts

2022

Wearable Sensors Reveal Propulsion-Based Locomotor Phenotypes Among Endurant Individuals After Stroke. In: Proceedings of the North American Congress on Biomechanics. 2022. 

Soft Robotic Exosuit Assistance Facilitates High Intensity Gait Training After Stroke. In: Proceedings of the North American Congress on Biomechanics. 2022. (see pdf)

Minimum Viable Muscle Set for Identifying Impairments in the Neuromuscular Control of Walking Using the Dynamic Motor Control Index. In: Proceedings of the North American Congress on Biomechanics. 2022. (see pdf)

2021

Rhythmic Auditory Stimulation Improves Cost of Transport and Asymmetry After Stroke. In: Proceedings of the American Society of Biomechanics. 2021. (see pdf)

2020

Mobile Unilateral Hip Flexion Exosuit Assistance for Overground Walking in Individuals Post-Stroke: A Case Series. In: Converging Clinical and Engineering Research in Neurorehabilitation. 2020. 

Beyond Walking Distance: Evaluating Propulsion Function During the 6-Minute Walk Test with Wearable Inertial Sensors. In: Proceedings of the American Society of Biomechanics. 2020. (see pdf)

Propulsion Timing Affects the Relationship between Paretic Propulsion and Long-Distance Walking Function After Stroke. Proceedings of the American Society of Biomechanics. 2020. (see pdf)

2018

A Soft Robotic Exosuit Assisting the Paretic Ankle in Patients Post-Stroke: Effect on Muscle Activation during Overground Walking. In: Gait and Posture. 2018. 

2017

Soft Exosuits Increase Walking Speed and Distance After Stroke. In: 2017 International Symposium on Wearable Robotics and Rehabilitation (WeRob), IEEE. 2017.

Exosuit-Induced Improvements in Walking After Stroke: Comprehensive Analysis on Gait Energetics and Biomechanics. In: 2017 International Symposium on Wearable Robotics and Rehabilitation (WeRob), IEEE. 2017. 

A Uni-Lateral Soft Exosuit for the Paretic Ankle can Reduce Gait Compensations in Patients Post-Stroke. In: Proceedings of  the American Society of Biomechanics. 2017. 

A Uni-Lateral Ankle Assisting Soft Robotic Exosuit can Improve Post-Stroke Gait during Overground Walking. In: Proceedings of the American Society of Biomechanics. 2017. 

2016

Assisting Paretic Ankle Motion with a Soft Exosuit can Reduce Whole-Body Compensatory Gait Patterns and Improve Walking Efficiency for Patients After Stroke. In: Dynamic Walking. 2016.