In diseases such as hydrocephalus, the cerebral ventricles enlarge. The treatment options for these patients are presently based on pressure, which has limited capabilities. We present the design of a volume sensor as an alternative monitoring option. Through the use of computer aided design and simulation, we optimized a sensor in silico with fewer resources. Specifically, we designed a sensor for animal experimentation with a scalable procedure for human sensors. In this paper, we present a rational design approach for a sensor that integrates advances in medical imaging. Magnetic resonance data sets of both normal and diseased subjects were used as a virtual laboratory. Finite element simulations were performed under pathological disease states of the brain as a contribution toward an accelerated device design. An optimized sensor was then fabricated for these subjects based on the outcome of the simulations. In this paper, we explain how a computer aided subject-specific design was used to help fabricate and test our sensor.
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Design Of Medical Devices Conference Abstracts
Optimal Sensor Design Using Patient-Specific Images
Sukhi Basati,
Sukhi Basati
University of Illinois at Chicago
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Timothy J. Harris, Jr.,
Timothy J. Harris, Jr.
University of Illinois at Chicago
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Andreas A. Linninger
Andreas A. Linninger
University of Illinois at Chicago
Search for other works by this author on:
Sukhi Basati
University of Illinois at Chicago
Timothy J. Harris, Jr.
University of Illinois at Chicago
Andreas A. Linninger
University of Illinois at Chicago
J. Med. Devices. Jun 2010, 4(2): 027534 (1 pages)
Published Online: August 11, 2010
Article history
Published:
August 11, 2010
Citation
Basati, S., Harris, T. J., Jr., and Linninger, A. A. (August 11, 2010). "Optimal Sensor Design Using Patient-Specific Images." ASME. J. Med. Devices. June 2010; 4(2): 027534. https://doi.org/10.1115/1.3443743
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