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Optimization and manufacture of polyetheretherketone patient specific cranial implants by material extrusion – A clinical perspective

James A. Smith, Sandra Petersmann, Florian Arbeiter, Ute Schäfer

2023Journal of the mechanical behavior of biomedical materials/Journal of mechanical behavior of biomedical materials28 citationsDOIOpen Access PDF

Abstract

Polyetheretherketone (PEEK) is a high performing thermoplastic that has established itself as a 'gold-standard' material for cranial reconstruction. Traditionally, milled PEEK patient specific cranial implants (PSCIs) exhibit uniform levels of smoothness (excusing suture/drainage holes) to the touch (<1 μm) and homogenous coloration throughout. They also demonstrate predictable and repeatable levels of mechanical performance, as they are machined from isotropic material blocks. The combination of such factors inspires confidence from the surgeon and in turn, approval for implantation. However, manufacturing lead-times and affiliated costs to fabricate a PSCI are high. To simplify their production and reduce expenditure, hospitals are exploring the production of in-house PEEK PSCIs by material extrusion-based additive manufacturing. From a geometrical and morphological perspective, such implants have been produced with good-to-satisfactory clinical results. However, lack of clinical adoption persists. To determine the reasoning behind this, it was necessary to assess the benefits and limitations of current printed PEEK PSCIs in order to establish the status quo. Afterwards, a review on individual PEEK printing variables was performed in order to identify a combination of parameters that could enhance the aesthetics and performance of the PSCIs to that of milled implants/cranial bone. The findings from this review could be used as a baseline to help standardize the production of PEEK PSCIs by material extrusion in the hospital.

Topics & Concepts

PeekExtrusionMaterials scienceFibrous jointMedicineStatus quoComposite materialDentistryEconomicsPolymerMarket economyAnatomy and Medical TechnologyBone Tissue Engineering MaterialsFacial Trauma and Fracture Management
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