Smart Glove: An Assistive Device to Enhance Recovery of Hand Function During Motor Rehabilitation

Smart Glove: An Assistive Device to Enhance Recovery of Hand Function During Motor Rehabilitation

abstract: Stroke accounts for high rates of mortality and disability in the United States. It levies great economic burden on the affected subjects, their family and the society at large. Motor impairments after stroke mainly manifest themselves as hemiplegia or hemiparesis in the upper and lower li...

Full description

Bibliographic Details
Other Authors: Sasidharan, Smrithi (Author)
Format: Dissertation
Language:English
Published: 2015
Subjects:
Engineering
Biomedical engineering
Online Access:http://hdl.handle.net/2286/R.I.34870
id ndltd-asu.edu-item-34870
record_format oai_dc
spelling ndltd-asu.edu-item-348702018-06-22T03:06:33Z Smart Glove: An Assistive Device to Enhance Recovery of Hand Function During Motor Rehabilitation abstract: Stroke accounts for high rates of mortality and disability in the United States. It levies great economic burden on the affected subjects, their family and the society at large. Motor impairments after stroke mainly manifest themselves as hemiplegia or hemiparesis in the upper and lower limbs. Motor recovery is highly variable but can be enhanced through motor rehabilitation with sufficient movement repetition and intensity. Cost effective assistive devices that can augment therapy by increasing movement repetition both at home and in the clinic may facilitate recovery. This thesis aims to develop a Smart Glove that can enhance motor recovery by providing feedback to both the therapist and the patient on the number of hand movements (wrist and finger extensions) performed during therapy. The design implements resistive flex sensors for detecting the extensions and processes the information using the Lightblue bean microcontroller mounted on the wrist. Communication between the processing unit and display module is wireless and executes Bluetooth 4.0 communication protocol. The capacity for the glove to measure and record hand movements was tested on three stroke and one traumatic brain injured patient while performing a box and blocks test. During testing many design flaws were noted and several were adapted during testing to improve the function of the glove. Results of the testing showed that the glove could detect wrist and finger extensions but that the sensitivity had to be calibrated for each patient. It also allowed both the therapist and patient to know whether the patient was actually performing the task in the manner requested by the therapist. Further work will reveal whether this feedback can enhance recovery of hand function in neurologically impaired patients. Dissertation/Thesis Sasidharan, Smrithi (Author) Kleim, Jeffrey A. (Advisor) Santello, Marco (Committee member) Buneo, Christopher A. (Committee member) Arizona State University (Publisher) Engineering Biomedical engineering eng 62 pages Masters Thesis Bioengineering 2015 Masters Thesis http://hdl.handle.net/2286/R.I.34870 http://rightsstatements.org/vocab/InC/1.0/ All Rights Reserved 2015
collection NDLTD
language English
format Dissertation
sources NDLTD
topic Engineering
Biomedical engineering
spellingShingle Engineering
Biomedical engineering
Smart Glove: An Assistive Device to Enhance Recovery of Hand Function During Motor Rehabilitation
description abstract: Stroke accounts for high rates of mortality and disability in the United States. It levies great economic burden on the affected subjects, their family and the society at large. Motor impairments after stroke mainly manifest themselves as hemiplegia or hemiparesis in the upper and lower limbs. Motor recovery is highly variable but can be enhanced through motor rehabilitation with sufficient movement repetition and intensity. Cost effective assistive devices that can augment therapy by increasing movement repetition both at home and in the clinic may facilitate recovery. This thesis aims to develop a Smart Glove that can enhance motor recovery by providing feedback to both the therapist and the patient on the number of hand movements (wrist and finger extensions) performed during therapy. The design implements resistive flex sensors for detecting the extensions and processes the information using the Lightblue bean microcontroller mounted on the wrist. Communication between the processing unit and display module is wireless and executes Bluetooth 4.0 communication protocol. The capacity for the glove to measure and record hand movements was tested on three stroke and one traumatic brain injured patient while performing a box and blocks test. During testing many design flaws were noted and several were adapted during testing to improve the function of the glove. Results of the testing showed that the glove could detect wrist and finger extensions but that the sensitivity had to be calibrated for each patient. It also allowed both the therapist and patient to know whether the patient was actually performing the task in the manner requested by the therapist. Further work will reveal whether this feedback can enhance recovery of hand function in neurologically impaired patients. === Dissertation/Thesis === Masters Thesis Bioengineering 2015
author2 Sasidharan, Smrithi (Author)
author_facet Sasidharan, Smrithi (Author)
title Smart Glove: An Assistive Device to Enhance Recovery of Hand Function During Motor Rehabilitation
title_short Smart Glove: An Assistive Device to Enhance Recovery of Hand Function During Motor Rehabilitation
title_full Smart Glove: An Assistive Device to Enhance Recovery of Hand Function During Motor Rehabilitation
title_fullStr Smart Glove: An Assistive Device to Enhance Recovery of Hand Function During Motor Rehabilitation
title_full_unstemmed Smart Glove: An Assistive Device to Enhance Recovery of Hand Function During Motor Rehabilitation
title_sort smart glove: an assistive device to enhance recovery of hand function during motor rehabilitation
publishDate 2015
url http://hdl.handle.net/2286/R.I.34870
_version_ 1718700876134088704

Similar Items