The department of Cell Biology-Inspired Tissue Engineering (cBITE) at the MERLN Institute for Technology-inspired Regenerative Medicine at Maastricht University in the Netherlands invites applications for a post-doctoral position. The post-doctoral researcher will perform cutting-edge research in computational modeling methods applied to regenerative medicine and more specifically, to kidney toxin transport in microfluidic set-ups, organoid culture systems and/or bioartificial kidney devices.
Regenerative medicine holds the promise to cure many of what are now chronic patients, restoring health rather than protracting decline, bettering the lives of millions and at the same time preventing lifelong, expensive care processes: cure instead of care. More specifically, at present, dialysis and transplantation are the only treatment options for end-stage kidney disease. In the Netherlands alone, 6,500 people currently depend on dialysis, approximately 1,300 of which will die this year. Regenerative medicine offers an alternative treatment in the form of a bioengineered kidney. As a first step, the partners of RegMed XB will work towards creating a functional subunit of a bioengineered kidney. This functional subunit is the nephron, of which there are approximately one million in the adult kidney. In order to inform the in vitro experiments as well as design a bioartificial kidney as an intermediate step towards a fully bioengineered kidney, this project will use computational models to simulate toxin transport and calculate the flow and geometry requirements for adequate toxin removal in various set-ups: microfluidic, organoid culture systems and bioartificial devices.
More information can be found at: https://www.academictransfer.com/en/294108/postdoc-computational-modeling-of-kidney-toxin-transport/