Towards Ultra Low-Cost Myoactivated Prostheses.

Neethu Sreenivasan,Gaetano D Gargiulo,Paolo Bifulco,Mario Cesarelli,Diego Felipe Ulloa Gutierrez,Upul Gunawardana

doi:10.1155/2018/9634184

Neethu Sreenivasan, Gaetano D Gargiulo + Show 4 more

Open Access

https://doi.org/10.1155/2018/9634184

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Abstract

In developing countries, due to the high cost involved, amputees have limited access to prosthetic limbs. This constitutes a barrier for this people to live a normal life. To break this barrier, we are developing ultra-low-cost closed-loop myoactivated prostheses that are easy to maintain manufacture and that do not require electrodes in contact with the skin to work effectively. In this paper, we present the implementation for a simple but functional hand prosthesis. Our simple design consists of a low-cost embedded microcontroller (Arduino), a wearable stretch sensor (adapted from electroresistive bands normally used for “insulation of gaskets” against EM fields), to detect residual muscle contraction as direct muscle volumetric shifts and a handful of common, not critical electronic components. The physical prosthesis is a 3D printed claw-style two-fingered hand (PLA plastic) directly geared to an inexpensive servomotor. To make our design easier to maintain, the gears and mechanical parts can be crafted from recovered materials. To implement a closed loop, the amount of closure of prosthesis is fed back to the user via a second stretch sensor directly connected to claw under the form of haptic feedback. Our concept design comprised of all the parts has an overall cost below AUD 30 and can be easily scaled up to more complicated devices suitable for other uses, i.e., multiple individual fingers and wrist rotation.

Highlights

Upper extremity amputation, due to accidents, infections/disease, burns, and trauma, creates great challenges for the daily living of amputees [1]
The advancement of multifunctional prosthetics in recent years paved new paths for the normal living of amputees; the cost associated with manufacturing and maintenance is sometimes prohibitive for people living in developing countries where the cost of the prosthesis could exceed the year salary [2]
The results show that the electroresistive bands (ERBs) sensor offers a vibrant control similar to the conventional EMG envelope

Summary

Introduction

Due to accidents, infections/disease, burns, and trauma, creates great challenges for the daily living of amputees [1]. Off-note, despite the huge costs and richness of functionalities, even in countries where amputees can afford them, many of the highly functional upper-limb prosthetic devices available in the market have not been encountering the favor of the end users, resulting in a high rate of device abandonment. This is probably due to technological factors relating to discomfort, i.e., extensive training, issues related to durability, and other failures [5]

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