Additive Manufacturing of Polymeric Bioresorbable Stents: A Mechanical Performance Perspective
Gurminder Singh, Irina Khaydukova, Kevin Walsh, Colin J. McMahon, William Ronan, Eoin D. O’Cearbhaill

TL;DR
This paper explores how 3D printing can be used to create dissolvable stents for medical use, focusing on their design, materials, and mechanical performance.
Contribution
The paper provides a comprehensive review and roadmap for advancing 3D-printed bioresorbable stents toward clinical use.
Findings
Additive manufacturing allows for customizable design of bioresorbable stents.
Polymeric stents show promise as alternatives to metallic stents in cardiovascular applications.
Challenges remain in scaling up AM for commercial stent production.
Abstract
The integration of biomaterials and additive manufacturing (AM) has revolutionized the design, manufacturing, and clinical applications of permanent and bioresorbable implants. AM offers design flexibility and potential for mass customization but poses challenges for scalable manufacturing. Unlike other high-commodity implantable devices that are already clinically approved, stent AM is still in the early phases of research and development. Here, following the recent Food and Drug Administration approval of Abbott’s Esprit stent for below-the-knee use, we examine the current prospects for AM of polymeric stents, specifically focusing on polymeric bioresorbable stent geometry, material composition and mechanical properties, and surface quality, predominantly intended for cardiovascular applications. The advancement of bioresorbable polymeric stents is shown through a comparison with…
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Taxonomy
TopicsCoronary Interventions and Diagnostics · Electrospun Nanofibers in Biomedical Applications · Bone Tissue Engineering Materials
