design

An Implantable Magnetic Drive Mechanism for Non-Invasive Arteriovenous Conduit Blood Flow Control

An Implantable Magnetic Drive Mechanism for Non-Invasive Arteriovenous Conduit Blood Flow Control

An Implantable Magnetic Drive Mechanism for Non-Invasive Arteriovenous Conduit Blood Flow Control 710 400 IEEE Transactions on Biomedical Engineering (TBME)
An innovative implantable magnetic drive mechanism for non-invasive arteriovenous conduit blood flow control, designed to mitigate complications in hemodialysis patients by enabling normalization of the circulation outside of dialysis sessions. read more

Design and Preliminary Assessment of a Passive Elastic Leg Exoskeleton for Resistive Gait Rehabilitation

Author(s)3: Edward Peter Washabaugh, Thomas Edmund Augenstein, Alissa Marie Ebenhoeh, Jiajie Qiu, Kaitlyn Ann Ford, Chandramouli Krishnan
Design and Preliminary Assessment of a Passive Elastic Leg Exoskeleton for Resistive Gait Rehabilitation 170 177 IEEE Transactions on Biomedical Engineering (TBME)
While devices that assist walking can enable individuals with neuromusculoskeletal impairments, recovery is often better facilitated by devices that resist walking. Moreover, current robotic interfaces for gait rehabilitation are typically huge, bulky, and come with a large price tag. This article describes the design and development of a novel, wearable, passive elastic exoskeleton for resistive gait rehabilitation. The system uses counteracting compressional springs, pulleys, and clutches and can be configured to resist flexion, extension, or bidirectionally. Thus, the device can target user-specific muscle weaknesses and accommodate range of motion limitations. These concepts were validated using benchtop and human subject experiments. read more
A New Modeling Method to Characterize the Stance Control Function of Prosthetic Knee Joints

A New Modeling Method to Characterize the Stance Control Function of Prosthetic Knee Joints

Author(s)3: Jan Andrysek, Jessica Tomasi, Matthew Leineweber, Arezoo Eshraghi
A New Modeling Method to Characterize the Stance Control Function of Prosthetic Knee Joints 170 177 IEEE Transactions on Biomedical Engineering (TBME)

Biomechanical models can inform design and optimization of prosthetic devices by connecting empirically-derived biomechanical data to device design parameters. A new method is presented to characterize the function of prosthetic…

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