Polymers (Aug 2017)

Increased X-ray Visualization of Shape Memory Polymer Foams by Chemical Incorporation of Iodine Motifs

  • Landon D. Nash,
  • Mary Beth Browning Monroe,
  • Yong-Hong Ding,
  • Kendal P. Ezell,
  • Anthony J. Boyle,
  • Ramanathan Kadirvel,
  • David F. Kallmes,
  • Duncan J. Maitland

DOI
https://doi.org/10.3390/polym9080381
Journal volume & issue
Vol. 9, no. 8
p. 381

Abstract

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Shape memory polymers can be programmed into a secondary geometry and recovered to their primary geometry with the application of a controlled stimulus. Porous shape memory polymer foam scaffolds that respond to body temperature show particular promise for embolic medical applications. A limitation for the minimally invasive delivery of these materials is an inherent lack of X-ray contrast. In this work, a triiodobenzene containing a monomer was incorporated into a shape memory polymer foam material system to chemically impart X-ray visibility and increase material toughness. Composition and process changes enabled further control over material density and thermomechanical properties. The proposed material system demonstrates a wide range of tailorable functional properties for the design of embolic medical devices, including X-ray visibility, expansion rate, and porosity. Enhanced visualization of these materials can improve the acute performance of medical devices used to treat vascular malformations, and the material porosity provides a healing scaffold for durable occlusion.

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