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ASB 2023 Recap

Katie Landwehr News, Presentation , , , , ,

Charlotte is wearing a striped dress and black blazer standing in front of her poster at ASB.Four members of our lab – Kat, Elijah, Charlotte, & Mackenzie – attended ASB 2023 on August 8-11 in Knoxville, TN.

Elijah Kuska gave a podium presentation on “The effects of weakness, contracture, and altered control on walking energetics during crouch gait.”

Charlotte Caskey gave a poster presentation on “The effect of increased sensory feedback from neuromodulation and exoskeleton use on ankle co-contraction in children with cerebral palsy.”

Kat Steele co-hosted a workshop on “Writing a Successful NIH R01 Proposal.”

ASB 2024 will be hosted August 5-8, in Madison, WI.

 

 

Elijah is wearing a striped polo shirt and giving a presentation in front of a group of people at ASB.

Switch Kit Workshop at Kindering

Katie Landwehr News, Outreach , , , ,

Mia Hoffman standing in front of a screen giving a presentation on the Switch Kits for digital play. In the foreground, there is a soft pillow and squishmallow DIY adaptive switch. Lab members, Mia Hoffman, Kat Steele, Heather Feldner and Katie Landwehr led a “Switch Kit” Workshop at Kindering in Bothell, WA.

The workshop aimed to teach Speech-Language Pathologists how to use a new system we have designed with the MakeyMakey for inclusive play options in early intervention. The team also got to try their hands at making their own adaptive switches out of pool noodles! Stay tuned for more on this project.

Slide titled "Development of a Switch Kit for Digital Play" by Mia Hoffman from the Steele Lab and IMPACT Collaboratory. A picture is shown of a stuffed animal playing a game on an iPad using the Switch Kit device

MR Ebers, MC Rosenberg, JN Kutz, KM Steele (2023) “A machine learning approach to quantify individual gait responses to ankle exoskeletons”

Yusuke Maruo JournalArticle, News, Publications , ,

Journal Article in Journal of Biomechanics:

Physiological and biomechanical responses to mechanical assistance from wearable technology are highly variable, especially for clinical populations; tools to predict how users respond to different types of exoskeleton assistance may optimize the prescription process and uncover underlying mechanisms driving locomotor changes in the context of personalized wearable/assistive technology.

Aim: The purpose of this study was to determine if a discrepancy modeling framework could quantify individual-specific gait responses to ankle exoskeletons.

Method: We employ a machine learning technique — neural network based discrepancy modeling — on gait data from 12 non-disabled adults to capture within-participant differences in walking dynamics without vs. with a bilateral passive elastic ankle exoskeletons applying 5 N-m/deg of torque. We fit three models: Nominal gait (no exo), Exo, and Discrepancy. Then, post-fitting, we extend the Nominal by the Discrepancy Model (Augmented). We hypothesize that if Augmented (Nom+Discrep) can capture similar amount of variability as the Exo model, then it can be inferred that the discrepancy model accurately captures how a user will respond to an exoskeleton — without direct information about that user’s physiology or motor coordination.

Results:While joint kinematics during Exo gait were well predicted using the Nominal model (median š‘…2 = 0.863 āˆ’ 0.939), the Augmented model significantly increased variance accounted for (š‘ < 0.042, median š‘…2 = 0.928 āˆ’ 0.963). For EMG, the Augmented model (median š‘…2 = 0.665 āˆ’
0.788) accounted for significantly more variance than the Nominal model (median š‘…2 = 0.516 āˆ’ 0.664). Minimal kinematic variance was left unexplained by the Exo model (median š‘…2 = 0.954 āˆ’ 0.978), but only accounted for 72.4%ā€“81.5% of the median variance in EMG during Exo gait across all individuals.

Interpretation:Discrepancy modeling successfully quantified individualsā€™ exoskeleton responses without requiring knowledge about physiological structure or motor control. However, additional measurement modalities and/or improved resolution are needed to characterize Exo gait, as the discrepancy may not comprehensively capture response due to unexplained variance in Exo gait.

RESNA 2023 Conference: Mia Hoffman receives Student Scientific Paper Award

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Nicole wearing a black dress and Mia wearing a floral dress standing in front of a large sign at the RESNA conference.Two lab members, Nicole ZainoĀ and Mia HoffmanĀ attended the annual Rehabilitation Engineering and Assistive Technology Society of North America (RESNA) Conference on July 24-26 in New Orleans, LA.

Big congratulations to Mia Hoffman for being selected as an awardee in the Student Scientific Paper Competition (SSPC).

Mia gave a podium presentation on “Exploring the World on Wheels: A Geospatial Comparison of Two Pediatric Mobility Devices

Nicole was also selected to give an interactive poster presentation on “Quantifying Toddler Exploration in Seated and Standing Postures with Powered Mobility“. She also completed her time as the student board member for RESNA.

Way to go, Mia and Nicole!

Introducing Dr. Nicole Zaino

Yusuke Maruo AccessEngineering, Awards, EngineeringInHealth, Exams, Graduation, HuskyADAPT, News, Orthoses

Congratulations to Dr. Nicole Zaino on earning her Doctorate in Mechanical Engineering! Dr. Zainoā€™s PhD thesis dissertation was titled Walking and Rolling: Evaluation Technology to Support Multimodal Mobility for Individuals with Disabilities.Ā Congratulations and best of luck as you move forward training on the Elite Team at Crosscut Mountain Sports Center in para nordic sit skiing andĀ assistive technology field.