Short Description - Heterogeneous Technology Alliance

Download Report

Transcript Short Description - Heterogeneous Technology Alliance

Heterogeneous
Technology
Alliance
Template
HTA General Assembly
November 12 – 13, 2013
Project
Idea: Smart
Vest Alliance HTA
The
Heterogeneous
Technology
Contact:
[email protected]
EU call: H2020-PHC10, 16, 19 or 2
Project Idea short description:
Fully automised process for the manufacture of custom-made (personalized) smart vests
Short Description:
Good physiological signals are obtained with well-fitted vest. However, strategic end-users
usually have a large variety of body shapes due to age or obesity. Therefore, there is a need for
the manufacture of personalized smart vest fitting the body shape and with an easy process for
assembly of the vest with the sensors.
IP situation and commercial viability:
CSEM has a large patent portfolio about button-like standalone sensors for physiological signals
Potential Applications / Applications:
Health, Fitness and Wellness, Sports, Security, etc.
Potential Consortium/Competences needed:
--- CSEM for the sensors
--- x for the body scan (up to a 3D torso model)
--- y for the taylor (translate the 3D torso model to garment model, taking into account gravity,
fabric elasticity, etc.)
--- z for the knitting machine (translate garment model to seamless «printing» of vest)
The Heterogeneous Technology Alliance HTA
Advertisement/Presentation of the ”end product”
• Good signals = well-fitted vest = personalized vest
• especially important for obese, elderly, etc.
body scan
computer model
computer-controlled
seamless knitting maching
button-like sensors
personalized vest
with embedded
button-like sensors
Project
Idea: Universal
medical
model
The
Heterogeneous
Technology
Alliance
HTA
Contact:
[email protected]
EU call: H202-PHC25, 24, 28 or 16
Project Idea short description:
Use (all) patients with their real environment to develop further the UMM
Short Description:
Clinical trials as performed today are more and more difficult to be performed due to increasing
regulation. Moreover, they do not fully take into account influences of external factors. Clinical
trials of the future will be more with cell culture and with (all) real patients. The idea is to use
the huge amount of data from more than 1 billion patients that will be available in the future to
automatically refine the UMM (universal medical model).
IP situation and commercial viability:
CSEM has a large patent portfolio about the development of button-like standalone sensors for
the measurement of many physiological signals
Potential Applications / Applications:
Health, Pharma, Medical science
Potential Consortium/Competences needed:
--- CSEM for continuous wearable monitoring
--- x for data minining, data reduction (incl. modelling)
--- many, many others (still unclear, concept to develop by computer scientists)
The Heterogeneous Technology Alliance HTA
Advertisement/Presentation of the ”end product”
feelings & observations
real medication
real medication
physiological signals
patient model
environmental signals
patient
extended model
feedback & questionnaire
drug delivery & advices
patient history
personalized
patient model
genetic information
medical examination
doctors
and
caregivers
report from last visit
suggested prescription
universal
medical
model
statistics report
health
insurance &
goverment
doctor’s prescription
x 1’000’000’000
drug performance report
drug
manufacturer
Project
Idea: Individual
cardiovascular
The
Heterogeneous
Technology
Alliance HTA
Contact:
[email protected]
EU call: H2020-PHC19,16,24 or 25
Project Idea short description:
European Alliance for easy individual cardiovascular risk assessment
Short Description:
Assessment of cardiovascular risk is nowadays performed on the basis of statistical analysis as
proposed by the WHO: a subject is classified as risky/safe according to risk factors such as
physical activity, diet, lipid blood content… which are calculated on a worldwide risk basis.
This project aims at creating novel cheap tools to assess individual CV risk by:
1) developing easy-to-use unsupervised sensors (self-beaming ultra-sound, PPG, IPG, …)
2) developing easy-to-observe numerical cardiovascular models (distributed windkessel models,
arterial stiffening models, cerebral circulation, …) that can be observed by the sensors in 1)
3) and finally by categorizing subjects according to their particular cardiovascular status
IP situation and commercial viability:
CSEM has a large patent portfolio about the portable physiological sensors
Potential Applications / Applications:
Cardiovascular risk management, Personalized Health Care, cost reduction in healthcare systems
Potential Consortium/Competences needed:
Physiological sensors, cardiovascular imaging, cardiovascular modelling, clinical trials
The Heterogeneous Technology Alliance HTA
Advertisement/Presentation of the ”end product”
TODAY
OUR VISION
Worldwide
risk model
?
Your
most-likely
risk
Your personalized risk