Position
PhD-student
Irène Curie Fellowship
No
Department(s)
Electrical Engineering
FTE
1,0
Date off
28/02/2023
Reference number
V36.6279
Job descriptionProgram:
Remote monitoring in health is of increasing importance, even more driven by the COVID-19 pandemic. With remote monitoring, patients are continually monitored outside the medical care centers, either before hospitalization (e.g., for chronically ill persons) or afterward (e.g., patients discharged after a clinical intervention such as an operation or after admission for exacerbation of chronic disease). The advantages of remote monitoring are many when compared to acute care monitoring. Patient well-being and comfort are increased compared to hospital care since people can stay in their preferred home environment and close to their relatives. However, this requires that any signs of clinical deterioration can be detected earlier, avoiding emergency or too-late rehospitalizations.
This PhD project is part of a European project (RM4Health) in which multiple partners across Europe collaborate on advancing remote monitoring for applications related to health. The PhD project aims to address the challenges related to remote monitoring for post-operative care for surgery patients and for telerehabilitation of chronic heart failure patients in close collaboration with regional clinical and industrial partners.
Project description:
This PhD project investigates out-of-hospital monitoring for early warning for patient deterioration after surgery. In current clinical practice, simple tools such as an Early Warning Score (EWS) are used that based on patients' measured vital signs in lower acuity settings aim to identify their likelihood of deterioration. Examples of deterioration are death or admission to Intensive Care Units. These tools are limited because currently the observation frequency of the vital signs by nursing staff is often limited to only once per 8 hours (every shift). More frequent monitoring is not practical because of the associated workload for hospital staff. Also, completeness of data is a point on contention: the EWS relies on various vital signs and missing one might render the EWS unreliable or even impossible to determine. In this project, we seek to improve the calculation of EWS based on continuous or continual data measured with wearable technology, ultimately enabling use of the technology in the home environment. Challenges that need to be addressed include the extraction of vital signs from noise sensory data, finding solutions for data incompleteness, and linking the vital signs to improved EWS. The project will leverage existing datasets that are collected in various trials under controlled (i.e. hospitalized) environments, as well as under free-living conditions. These datasets contain wrist-worn photoplethysmography (PPG) signals together with accelerometry and clinical markers. Concrete topics will be to study the PPG morphology in relation to the patient's condition and to study the coupling between PPG and accelerometry to investigate the response of heartrate and respiration rate to movement, which could be a valuable marker for the overall condition and its possible deterioration.
Responsibilities :
You will be responsible for the development of signal processing methods to monitor post-operative patients in an out-of-hospital setting. You will work closely together with clinical PhDs, Postdocs and senior staff members from the involved partners, mostly on the regional/national level, but also across partners in the European consortium.
Job requirementsWho are you :
You have a Master degree in Electrical Engineering or similar and have strong affinity with (patho)physiology, signal processing, and artificial intelligence. Furthermore, you are able to coordinate and plan your own research and collaborate with your fellow PhD students, Postdoc and staff in the project, but also with colleagues in academia, industry, and hospital. To this end, you must be capable of and comfortable in interacting with various disciplines and levels of expertise.
Conditions of employmentWhat do we offer :
A PhD position in a vibrant and dynamic high-tech environment. You can perform research on a highly relevant topic that can influence the quality of life for many patients, with the potential to see and help your research results get implemented in clinical practice. Furthermore, we offer
Embedding:
This project will be embedded within the Eindhoven MedTech Innovation Center (e/MTIC). This is a public-private partnership that aims to create a fast track to high-tech-health innovations in the perinatal, cardiovascular and sleep fields. It combines an academic partner (TU Eindhoven) with an industrial partner (Philips Research) and 3 semi-academic hospitals: Maxima Medical Center, Catharina Hospital, and Kempenhaeghe. On a project-specific basis e/MTIC also involves other parties that can help to reinforce these projects.
About us
Eindhoven University of Technology is an internationally top-ranking university in the Netherlands that combines scientific curiosity with a hands- on attitude. Our spirit of collaboration translates into an open culture and a top-five position in collaborating with advanced industries. Fundamental knowledge enables us to design solutions for the highly complex problems of today and tomorrow.
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Information
Do you recognize yourself in this profile and would you like to know more? Please contact Rik Vullings, r.vullingsattue.nl.
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Application
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We look forward to receiving your application and will screen it as soon as possible. The vacancy will remain open until the position is filled.