Seminar: Jan de Boer, theme Cancer Development and Immune Defence

Talking to cells: surface topography as tool to evoke cellular responses

Date:
29 October 2015 12:30 hrs. - 13:30 hrs.
Location:
Figdor Lecture Theatre, 8th floor RIMLS Building, Geert Grooteplein 26-28, route 289
Title:
Talking to cells: surface topography as tool to evoke cellular responses
Speaker(s):

Jan de Boer, Laboratory of Cell Biology-inspired  Tissue Engineering, Merln Institute, Maastricht University, The Netherlands

Host(s):

Jolanda de Vries, Dept. of Tumor Immunology, RIMLS

29-10-2015 12:30:0029-10-2015 13:30:00Europe/AmsterdamTalking to cells: surface topography as tool to evoke cellular responses Figdor Lecture Theatre, 8th floor RIMLS Building, Geert Grooteplein 26-28, route 289Rimlsrimls@radboudumc.nl

Remarks / more information:

undefinedResearch in our laboratory is dedicated to understanding and applying basic cell biological principles in the field of biomedical engineering, in particular in the regeneration of bone tissue. The research program is characterized by a holistic approach to both discovery and application, aiming at combining high throughput technologies, computational modeling and experimental cell biology to streamline the wealth of biological knowledge to real clinical applications. 

In my seminar I will present our latest work on controlling the interaction of cells with biomaterials through design of surface topography. For instance, we are interested in the bone-inducing properties of a subset of porous calcium phosphate ceramics and show how through reverse engineering, we are uncovering an interesting and complex response of cells to materials. Inspired by this, we have started to design high throughput screening strategies of biomaterials libraries, and in particular libraries of surface topographies. Using a design algorithm, we have generated numerous different patterns, which can first be reproduced on a silicon mold and then imprinted onto polymers using microfabrication. After cell seeding, we use quantitative high content imaging and machine learning algorithms to characterize the response of the cells to the thousands of different surfaces and learn more about the relation between surface topography and cell response. For instance, we have identified surfaces which stimulate osteogenic differentiation of mesenchymal stem cells and we are currently testing whether these surfaces can be applied in orthopedic surgery.

Key Publications

  • An algorithm-based topographical biomaterials library to instruct cell fate. Proc NatlAcadSci USA 108:16565-70, 2011 
  • Materiomics-High throughput screening of biomaterial properties. Cambridge University Press 2013.


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