Smart Textiles and Wearable Technologies for Sportswear: A ...
E-textiles for Wearable Healthcare
Transcript of E-textiles for Wearable Healthcare
Introduction
Fabrication technologies overview
E-textiles in healthcare - case studies
o Stroke rehabilitation
o Pain relief
Main research in e-textiles and challenges
Outline
Textiles: Soft, flexible, breathable, skin-friendly, unobtrusive
E-textile
sClothing
Medical
AutomotiveHome Sports
Workwear
Why use textile in healthcare?
Architecture
Embedded electronic sensor pack into textile for motion capture
Printed circuit board on textile
Example devices and fabrication methods
Fraunhofer IZMStrechSense
Knitted electrodes for ECG monitoring
Nottingham Trent University
Technologies and their advantages
Competitive advantages
Flexible, comfortable, light weight, easy to use, cost effective, high
freedom of design
• Smart inks
• E-textile printing
• E-yarn circuit packaging
• Applications
Case study 1: stroke rehabilitation
Project partners:
Aim: develop fabric based wearable system for stroke rehabilitation.MRC £1.1 million; 2.5 years. www.smartmove.soton.ac.uk
The need
100,000 13.7 million
• Death• Disability• Cost to families and the society
Stroke occurrence in every year
• Easy to use• Unobtrusive• Precise movement • User interface and data sharing
Our device
Commercial products
Competitive advantages
Case study 2: pain relief
Project partners:
Aim: develop fabric based wearable system for the joint pain relief.EPSRC £600k; 3 years.
The need
8.75 million 400 million
• Joint pain and stiffness• Loss of productivity• Cost to healthcare system
Osteoarthritis population
How electrotherapy works for pain relief?
Gate Control TheoryStimulate the sensory nerves to prevent pain signals from reaching the brain.
Endorphin Release Theory Stimulate the motor nerves to cause to release endorphins (body’s nature pain killer).
Zynex Medical
Key research areas in e-textiles
New materials and manufacturing Interconnection Battery/power Data and connected
devices
Holst Centre
PolyU
Fraunhofer IZM
OhmatexUniversity of Southampton
University of Manchester
• Avoid disease and disability – e.g. ulcer prevention, early diagnostic of cardiovascular diseases and pulmonary disease, wound infection monitoring, remote consultation
• Improve physical and cognitive functions – e.g. rehabilitation, assisted living, aid memory recall and remind the compliance with prescriptions
• Engage with life – e.g. engage with household activities, connect with others to reduce isolation
Industrial Strategy Challenge Fund (ISCF) on Healthy Ageing: government’s mission for people “to enjoy five more years of healthy, independent living by 2035 while narrowing the gap between the experience of the richest and the poorest.”
NHS Long Term Plan key themes on clinical priorities (e.g. stroke), enablers (e.g. digital and technology), and life course programmes (e.g. personalised care for people with long term conditions).
E-textile for healthcare and align with government’s priorities
Challenges to consider
• Biocompatibility and safety
• Reliability and durability
• Clinical evidence
• Regulatory
• User acceptance
• Scale up
• Cost
• Access to market
• Impact on the environment (e.g. sustainability, reuse/refreshment/recycle)
Acknowledgement
Southampton colleagues: Prof Steve Beeby, Dr John Tudor, Dr
Russel Torah, Dr Neil Grabham, Prof. Chris Freeman, Dr Ann-
Marie Hughes, Dr Tyler Ward, Dr Menglong Li, Dr Abiodun
Komolafe, Dr Monika Glanc-Gostkiewicz, Helga Matos, Meijing Liu