In order to test small scale medical devices, it is often necessary to prototype them on a larger scale such that proof-of-concept tests can be made more affordably and design details can be tested more easily. This article discusses a method of scaling large needle prototypes for testing in a gelatin phantom such that puncture forces match those expected for the actual-size needle when puncturing tissue. Using Hertz contact force equations to account for the differences in prototype materials and size, as well as for the tissue phantom properties, 10× scale prototype needles were inserted into a gelatin phantom and puncture forces were compared with those of a real scale prototype in bovine liver tissue. Results showed that for a 19 gauge (1.06 mm) stainless steel needle tip, where a maximum doctor-applied load of 5 N was desired to pierce liver tissue, loads of 0.44 N using Hertz point contact, and 0.31 N using Hertz line contact methods were predicted to puncture liver tissue, and an average load of 0.31 N was observed in force-displacement measurements. With a 10× scale stereolithographed needle prototype, Hertz point contact predicted a load of 0.31 N to puncture a gelatin phantom, Hertz line contact theory predicted 0.37 N, and an average load of 0.73 N observed in force displacement measurements. Similar contact mechanics based scaling methods might be applied to cutting devices.
Design Of Medical Devices Conference Abstracts
Hertz Contact Based Scaling of Puncture Forces for Large Scale Needle Prototypes Using a Gelatinous Tissue Phantom
Stacy L. Figueredo,
Stacy L. Figueredo
Massachusetts Institute of Technology
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Alexander H. Slocum
Alexander H. Slocum
Massachusetts Institute of Technology
Search for other works by this author on:
Stacy L. Figueredo
Massachusetts Institute of Technology
Alexander H. Slocum
Massachusetts Institute of Technology
J. Med. Devices. Jun 2010, 4(2): 027515 (1 pages)
Published Online: August 9, 2010
Article history
Online:
August 9, 2010
Published:
August 9, 2010
Citation
Figueredo, S. L., and Slocum, A. H. (August 9, 2010). "Hertz Contact Based Scaling of Puncture Forces for Large Scale Needle Prototypes Using a Gelatinous Tissue Phantom." ASME. J. Med. Devices. June 2010; 4(2): 027515. https://doi.org/10.1115/1.3442791
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