In-Vitro Evaluations of Shape Memory Polymer Scaffolds With Tunable Architecture for the Endovascular Embolization of Unruptured Intracranial Aneurysms.
- 2026-03-24
- Journal of biomechanical engineering 148(7)
- PubMed: 41649399
- DOI: 10.1115/1.4071060
Study Design
- Methods
- In vitro experiments evaluating glass transition properties, porosity (85-95%) and infill pattern (rectilinear, honeycomb, gyroid) effects on compressibility, shape recovery, and pulsatile compaction resistance.
Translationally relevant metrics for shape memory polymer (SMP) scaffolds intended for the endovascular treatment of intracranial aneurysms were evaluated in various in vitro experiments. Multiple SMP formulations were first evaluated for glass transition properties, with saturated scaffolds demonstrating Tg midpoints of 39 °C, 35 °C, and 32 °C, respectively. Then, the scaffold's porosity (85-95%) and infill pattern (rectilinear, honeycomb, gyroid) were varied, and these designs were systematically compared by compressibility, shape recovery (SR), and pulsatile compaction resistance. The compressibility of ideal and wide-necked aneurysm geometries, each in 6 mm and 8 mm diameter sizes, indicated an upper limit of ∼9 mm in treatable aneurysm diameter for a 5 French catheter. Under physiologically relevant pulsatile loading, all scaffold designs resisted notable compaction, with maximum deformation values not exceeding 55 μm. The shape recovery forces were primarily governed by the porosity level, with low- and medium-porosity scaffolds showing complete and reliable shape recovery, and high-porosity scaffolds exhibiting reduced completeness of shape recovery. Shape recovery rates varied both within and across infill pattern and porosity groups. Together, these findings provide quantitative benchmarks for the translational viability of our SMP scaffold in different key stages of device deployment and establish design guidelines for further optimization of patient-specific endovascular devices.
Research Insights
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