An overlying problem with shunting cerebrospinal fluid (CSF) is that there is no way to directly measure the volume being drained through a shunt once it has been implanted. Therefore, it becomes very difficult to determine if the shunt is working properly. If the patient’s symptoms remain unchanged, the shunt may not be draining fluid, the pressure setting on the shunt may need to be changed, or the patient may simply be unresponsive to shunt treatment. The objective is to develop a prototype shunt device which is capable of measuring, recording, and controlling the amount of CSF that passes through it on a daily basis. By using a positive displacement pump and controlling the stroke frequency, a volume of fluid similar to CSF (water) is controlled, measured, and recorded. If the volume of CSF being drained could be measured and controlled, this would make troubleshooting much easier. By using a bicorporeal device, power supply, and pumping device, it is hypothesized that shunting can be achieved with success.
Skip Nav Destination
Article navigation
Design Of Medical Devices Conference Abstracts
Evaluation of a Novel Method of Shunting for Patients With Normal Pressure Hydrocephalus
Julian Lin
Julian Lin
Saint Francis Hospital
Search for other works by this author on:
Kalyani Nair
Bradley University
Martin Morris
Bradley University
Charles Corrie
Bradley University
Brian Del-Bene
Bradley University
Michelle Eastburn
Bradley University
Julian Lin
Saint Francis Hospital
J. Med. Devices. Jun 2011, 5(2): 027512 (1 pages)
Published Online: June 9, 2011
Article history
Online:
June 9, 2011
Published:
June 9, 2011
Citation
Nair, K., Morris, M., Corrie, C., Del-Bene, B., Eastburn, M., and Lin, J. (June 9, 2011). "Evaluation of a Novel Method of Shunting for Patients With Normal Pressure Hydrocephalus." ASME. J. Med. Devices. June 2011; 5(2): 027512. https://doi.org/10.1115/1.3589829
Download citation file:
1,149
Views
Get Email Alerts
Cited By
Related Articles
A Hydraulically Controlled Nonoperative Magnetic Treatment for Long Gap Esophageal Atresia
J. Med. Devices (June,2011)
An Advanced Patient Lift and Transfer Device for the Home
J. Med. Devices (March,2010)
Innovative Renal Cooling Device for Use in Minimally Invasive Surgery
J. Med. Devices (June,2011)
Design of a Dynamic Stabilization Spine Implant
J. Med. Devices (June,2009)
Related Proceedings Papers
Related Chapters
FCM Implementation using Artificial Bee Colony Algorithm (ABC) for Segmentation of MR Brain Images
International Conference on Computer and Automation Engineering, 4th (ICCAE 2012)
Brain Stimulation Resulting in Resonance W.R.T. Friss-Transmission Phenomenon ⇒Morphic Resonance
International Conference on Computer and Automation Engineering, 4th (ICCAE 2012)
Miniaturization and Optimization of Power Consumption in CNTFET Circuits for Use in the Manufacture of Artificial Neural Brain Cortex
International Conference on Computer and Automation Engineering, 4th (ICCAE 2012)