Postdoc in Cognitive Neuroimaging: Relating space, time and number processing in the human brain (1.0 FTE)
Ongeveer 3 uur geleden - Universiteit Utrecht - Utrecht
The postdoc will develop precision medicine approaches for AMD by reprogramming and differentiation of induced pluripotent stem cells to eye-specific cell types, combined with organ-on-a-chip technology.
This post is available for a fixed term of four years to undertake research in relation to age-related macular degeneration (AMD). The postdoc will work in a team of four researchers funded by a prestigious VICI grant entitled ‘PRECISE. Precision medicine for age-related macular degeneration: from biomarkers to patient stratification and disease modeling’ that was recently awarded to Prof. Anneke den Hollander by the Netherlands Organisation for Scientific Research (NWO). Specifically, the postdoc will develop precision medicine approaches for AMD by reprogramming and differentiation of induced pluripotent stem cells to eye-specific cell types, combined with organ-on-a-chip technology.
AMD is the most common cause of vision loss in the elderly, and has a huge psychological and social impact on quality of life. No curative treatment has yet been approved that prevents the degenerative process in AMD. Recent work has suggested that several molecular pathways contribute to AMD although it remains unclear to what extent and in what manner these pathways are integrated in the etiology of the disease. For example, our research identified a subgroup of AMD patients that has high activity of the complement system in serum. Such patients are expected to respond better to complement inhibitors that are currently in the clinical trial phase than patients in which other molecular pathways are affected and in which the complement system may play a lesser role. Other subgroups of patients may benefit from different treatments, targeting other molecular pathways. In the VICI project of Prof. Anneke den Hollander, genetic, serum and imaging biomarkers will be identified using innovative omics technologies and imaging software (carried out by a PhD student in molecular biology, other vacancy). AMD patients will then be stratified into subgroups based on these genetic, serum and imaging biomarkers (carried out by a PhD student in bioinformatics, other vacancy).
Finally, a new 3D organ-on-a-chip for these AMD subgroups will be developed to characterize the disease mechanisms and to test the effect of therapeutic compounds in these subgroups (carried out by a postdoc [this vacancy] and a technician [other vacancy]).
Scale 10: max. € 57947 gross income per year at full employment (incl. vacation bonus and end of year payments)
Upon commencement of employment we require a certificate of conduct (Verklaring Omtrent het Gedrag, VOG). Radboud university medical center’s HR department will apply for this certificate on your behalf.
Applicants should send a letter of intent outlining special interest in the position, overall related qualifications, experience and career goals, a curriculum vitae and names and addresses of professional references.
Information about the vacancy can be obtained from Prof. Anneke den Hollander, Anneke.denHollander@radboudumc.nl or Dr. Eiko de Jong Eiko.deJong@radboudumc.nl. (These e-mail addresses are to be used for information purposes only. Use the ‘Apply’ button to apply for the position.)
This vacancy is open until filled.
Recruitment agencies are asked not to respond to this job posting.
The Radboudumc center advances human knowledge by conducting biomedical, translational and clinical research in order to improve wellbeing.
Our key strength is medical life-sciences and clinical practice, with an impressive infrastructure comprising state-of-the-art technology platforms and (translational) research facilities. The Radboudumc is therefore uniquely positioned in the emerging Euregio and Dutch healthcare infrastructure to play a leading role in the new healthcare paradigm of prediction, prevention and personalised medicine.
The Radboudumc focuses on scientific health challenges of today, with an eye on emerging diseases of the future.
Our mission: ‘to have a significant impact on healthcare’.
The research project will be based at the Departments of Ophthalmology and Human Genetics, and will be performed in close collaboration with Twente University for the organ-on-a-chip technology. The research group is embedded in the Donders Institute for Brain, Cognition and Behaviour of the Radboud University Medical Center. We provide a stimulating work environment within a group of enthusiastic clinical and non-clinical researchers with a strong national and international research network.
The Departments of Ophthalmology and Human Genetics house a range of top researchers in the areas of ophthalmology, genetics, bioinformatics and stem cell research. Both departments have a strong track record, with recent publications in high-impact journals (Nature, Nature Genetics, Ophthalmology, JAMA Ophthalmology). The combined infrastructure is state-of-the-art including innovative genetic technologies (Next-Generation Sequencing, bioinformatics core), omics technologies for biomarker discovery (Radboudumc Technology Center for mass spectrometry), reprogramming and differentiation of induced pluripotent stem cells (Radboudumc Technology Center for stem cells) and a wide range of functional assays and model systems.
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