Title :
Implantable electrical conductor flexure fatigue issues
Author :
Altman, Pctcr ; Hoffmann, Drew
Author_Institution :
Ventritex, Sunnyvale, CA, USA
fDate :
31 Oct-3 Nov 1996
Abstract :
Recent work calculating bending stresses in implantable conductors has been applied to cine-angiographic measurements of implanted conductor bending radii. The maximum stresses in different conductors due to flexure at the measured radii can be calculated. In evaluating the viability of this approach using the Universal Test Coil (UTC) described in the Draft European Standard for Active Implantable Medical Devices, the maximum equivalent stress at the minimum physiological bending radius was found to be substantially greater than the endurance limit of the MP35N coil material. If this maximum equivalent stress behaves cyclically, this coil conductor should experience failures. However, the UTC has been shown to have acceptable reported survival in chronic studies over three years. This apparent inconsistency shows the difficulty of interpreting static and dynamic strains and their potential contribution to the fatigue failure of implantable conductors
Keywords :
bending; biomedical equipment; coils; fatigue; prosthetic power supplies; prosthetics; MP35N coil material; Universal Test Coil; bending radii; bending stresses; cine-angiographic measurements; dynamic strains; endurance limit; flexure fatigue; implantable electrical conductor; maximum equivalent stress; maximum stresses; minimum physiological bending radius; static strains; Cables; Capacitive sensors; Coils; Conducting materials; Conductors; Fatigue; Implantable biomedical devices; Stress measurement; Testing; Wire;
Conference_Titel :
Engineering in Medicine and Biology Society, 1996. Bridging Disciplines for Biomedicine. Proceedings of the 18th Annual International Conference of the IEEE
Conference_Location :
Amsterdam
Print_ISBN :
0-7803-3811-1
DOI :
10.1109/IEMBS.1996.656907
