We study how instrumentation can be developed and applied for monitoring health conditions of patients and elderlies. Welfare technologies is a strategic research area in SINTEF. ICT can potentially improve quality of life for older people and help them live safely in their own homes.
Our emphasis is in particular on bringing medical monitoring technology out of the hospitals and making it available at point of care and in the patient's own homes. The knowledge contributes to reducing costs and making health care more efficient. It also can improve quality of care by empowering patients to manage own health condition and allowing health care personnel to carry out more timely interventions.
Projects are based on a holistic research approach that focuses on patient needs, and incorporates clinical care processes, how sensors and instrumentation can be designed and used to capture clinical information, how this is shared effectively in a health information system, and finally, how the total patient information is assembled and can be used to clinically understand the patient with assistance from multi-parameter decision support systems.
Wearable sensor devices
A sensor placed next to your body can tell a lot. The body generates electrical signals that can be measured, and tell how your heart, muscles or your brain work. Kinematic sensors like accelerometers and gyroscopes can be placed on different parts of your body to reveal information about your gait pattern, tremor or how many steps you have taken. We carry out research to develop new, miniaturized and unobtrusive sensor devices that can monitor patient's vital signs.
The body-worn sensors are typically wireless, and we interface it with for example mobile phones as a means for communicating measurement results. SINTEF is a member of the Continua Health Alliance which works to establish a system of interoperable personal connected health solutions.
Patient monitoring system for patients with congestive heart failure, developed in the ESUMS project
Instrumentation and sensors in textiles and clothing
Textiles and clothing offer an opportunity for integrating truly unobtrusive sensing functionality. We investigate new technologies to integrate sensors into clothing.
Parameters such as temperature, humidity, wind and heat transport are particularly relevant to monitor, and can be used to provide improved comfort, safety and performance for the users.
SINTEF established a strategic research program on SmartWear in 2006. Since then, a multidisciplinary team involving product designers, physiologists, material scientist and instrumentation experts has collaborated on research on multifunctional materials and instrumented clothing, forinstance within the ColdWear project (2008-2012).
Norwegian fire fighters must endure both the cold climate of winter, as well as the heat of a fire. SINTEF carries out physiological measurements during a fire fighter drill.
In vitro diagnostic systems
In vitro is Latin, and means "in glass". In vitro diagnostic systems are systems to perform analyses of samples of blood, urine, sweat, biopsy or similar in a test tube outside a living organism.
Our research contributes to developing small, miniaturized diagnostic systems that can be used outside the hospital laboratory setting; at the doctor's office or even in the patient's home.
We develop the instrument platforms required to process tests based on disposable microfluidic analysis cartridges. The instrument interface to the disposable lab-on-a-chip cartridges provides movement of fluids, temperature control, and read-out of measurements based on electrical, optical or other measurement principles.
A novel, potentially game-changing SINTEF developed lab-on-a chip system for point of care use has recently been spun out to a start-up company: SpinChip Diagnostics AS
Lab on a chip platform developed in EU project SmartHEALTH
SmartPro, EU Saf€ra program, 2015-2017. Smart protective solutions for industrial safety and productivity in the cold.
EmerEEG, EU 7th FP, 2014-2016, Objective and reliable emergency diagnosis of traumatic brain injury.
HEADS, EU 7th FP, 2013-2015, Heterogeneous and Distributed Services for the Future Computing
CORBYS, EU 7th FP, 2011-2015. Cognitive Control Framework for Robotic Systems
d-LIVER, EU 7th FP, 2011-2015. ICT-enabled, cellular artificial liver system incorporating personalized patient management and support
BRIDGE, EU FP7 SEC, 2011-2015, Increase the safety of citizens by developing technical and organisational solutions that significantly improve crisis and emergency management.
ColdWear, KMB Norwegian Research Council, 2008-2012. Textiles and clothing for improved safety, performance, and comfort in the High North
SmartHEALTH, EU 6th FP, 2006-2010. Smart Integrated Biodiagnostic Systems for Healthcare
MicroActive, EU 6th FP, 2005 - 2008. Automatic detection of disease related molecular cell activity
Sick mother was inspiration behind supersmart phone
Using a smartphone is not easy for older people who have problems with fine motor skills or mild disabilities. So a resourceful engineer enlisted the help of some researchers and took things into his own hands. Now a completely different type of phone will soon be on the market.
«Star Wars-hjelm» påviser hjernerystelse
Ved trafikkulykker kan et nytt system nå gjøre det mulig å komme raskt i gang med EEG-måling på skadested eller i ambulanse. Mulige hodetraumer blir vurdert og tidlige tiltak kan settes inn.
New sensor will make life safer for the elderly
Pressure measurements enable a newly developed fall detector to “observe” falls that current sensors do not register, thus improving safety for older people who live at home.
Fikk ned stressnivået
– Nå sier pasientene at det er så rolig her. Det hørte jeg aldri før, sier Marte Lang på Aker sykehus. Der hadde de mange avvik og høyt sykefravær. Så kom Sintef og hjalp til.
Link til artikkel i sykepleien.no
Smart help for phone users
The elderly may find that using a smartphone is difficult and incomprehensible, while the disabled may encounter problems because phone operation requires delicate motor functions. But one inventor saw no reason for it to be this way – and has found a solution to the problem.
Intelligent clothing for extreme weather
Norwegian laboratories are developing technical clothing that can "sense" how your body is responding. This will make working under extreme weather conditions safer.
Artificial liver support for the chronically ill
Helping people with chronic liver failure to live longer, better lives.
Frode Strisland's computer displays a row of green indicators. They are telling him that somewhere in South Carolina, an elderly lady with a heart problem is fine today, and that she is being well looked after by the local health staff, even though she is alone in her home
Smoke-divers are exposed to high temperatures, physical exhaustion and stress. A new sensor system lets them know when the body has had enough.
Slagpasienter må trene for å gjenvinne gangen. En robot skal hjelpe dem raskt i gang.