Biologically inspired microtexturing : investigation into the surface topography of next-generation neurosurgical probes
Frasson, L., Parittotokkaporn, T., Schneider, A., Davies, B. L., Vincent, J. F. V., Huq, S. E., Degenaar, P. and Baena, F. M. R., 2008. Biologically inspired microtexturing : investigation into the surface topography of next-generation neurosurgical probes. In: 30th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS'08, 2008-08-20 - 2008-08-25, Vancouver, BC.
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Minimally Invasive (MI) surgery represents the future of many types of medical intervention (keyhole neurosurgery, natural orifice trans-luminal endoscopic surgery, etc.). However, the shortcomings of today's surgical tools fuel the need for the development of next-generation "smart instrumentation", which will be more accurate and safer for the patient. This paper presents the preliminary results of a biologically inspired microtexturing method, based on UV-lithography, and its application to MI neurosurgery. These results suggest that the size and geometry of the texture "printed" on the outer surface of a neurosurgical probe clearly affect the insertion and extraction forces generated at the brainprobe interface. Thus, by carefully choosing an appropriate microtexture, unique insertion characteristics can be obtained, which can improve the performance of existing instruments (e.g. reducing slippage in permanent electrodes such as those used in deep brain stimulation) or enable the development of novel designs altogether.
|Item Type||Conference or Workshop Items (Paper)|
|Creators||Frasson, L., Parittotokkaporn, T., Schneider, A., Davies, B. L., Vincent, J. F. V., Huq, S. E., Degenaar, P. and Baena, F. M. R.|
|Uncontrolled Keywords||pressure and temperature, 944 moisture, liquids and solids - 462.1 biomedical equipment, and radiation measuring instruments - 943 mechanical and miscellaneous measuring instruments - 942 electric and electronic measuring instruments - 941 acoustical and optical measuring instruments - 931.2 physical properties of gases, general - 461.6 medicine and pharmacology|
|Departments||Faculty of Engineering & Design > Mechanical Engineering|
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