Descripción del proyecto
Unos sensores ponibles detectan la hipotermia en pacientes de edad avanzada
Los adultos de edad avanzada son vulnerables a la hipotermia. Una temperatura corporal excepcionalmente baja en una persona de edad avanzada puede provocar muchos problemas de salud, que van desde un infarto agudo de miocardio hasta daños hepáticos, o algo peor. Por este motivo, es importante controlar la hipotermia en las personas de edad avanzada. Los sensores ponibles podrían ayudar a proporcionar registros continuos a largo plazo sobre la actividad electrofisiológica a fin de detectar la hipotermia en fases tempranas. El proyecto WEARSENSNANO, financiado con fondos europeos, desarrollará un sensor de temperatura y presión/distensión integrado ponible basado en nanocables procesables en solución y un hidrogel de celulosa para controlar la hipotermia en personas de edad avanzada y mejorar los resultados para el paciente.
Objetivo
One common influence of ageing is that it makes the individual susceptible to hypothermia, which is known to be death causing low body temperature (35°C). Hypothermia could be detected at early stages by monitoring various physiological parameters such as ECG signal, skin temperature and body movement. Owing to their flexibility and stretchability, wearable sensors could provide long term continuous recordings of electrophysiological activity for monitoring hypothermia in elder people.
Wearable temperature, pressure and strain sensors in forms were studied by many research groups. Those approaches utilized complex and high-cost photolithography techniques, which makes the devices far from commercialization. Besides, the poor processability and lack of skin compatibility of stretchable polymers used as substrates prevents the practical use of these materials. However, solution-processable nanomaterials offer a unique way to reduce the cost and complexity, while cellulose hydrogel is easy processable and skin friendly polymer.
Thus, in this project, we aim to develop an integrated wearable temperature and pressure/strain sensor based on solution processable nanowires, and cellulose hydrogel to monitor hypothermia in elder people via measuring pressure, strain and temperature. Pressure/Strain sensor will be prepared via laminating two silver nanowire printed cellulose hydrogels sandwiching a pressure sensitive dielectric layer. Temperature sensor will be fabricated via transfer printing of gold nanowires on the cellulose hydrogel substrate. Next, pressure/strain and temperature sensors will be laminated to form the integrated sensor. Finally, the sensors will be used in real patients.
In terms of research quality, infrastructure and services, Prof. Vapaavuori’s lab and Aalto University are quite appropriate for the proposed project. The training is believed to strongly contribute to the researcher’s academic, and scientific career.
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MSCA-IF - Marie Skłodowska-Curie Individual Fellowships (IF)Coordinador
02150 Espoo
Finlandia