Silk-Based Multilayer Coatings for Anticoagulation and Durability Improvement in ECMO Hollow-Fiber Membranes.

In clinical extracorporeal membrane oxygenation (ECMO), prolonged blood residence time in oxygenators can lead to thrombus formation and complications. Heparin-based bioactive coatings are commonly used for anticoagulation, but prolonged shear stress during blood flow can cause heparin desorption, degradation, and inactivation, reducing durability and antithrombotic efficacy. In this study, we developed a silk fibroin (SF)-based multilayer coating to enhance both mechanical stability and anticoagulant performance. A SF foundation layer was first fabricated on hollow-fiber membranes using layer-by-layer (LbL) self-assembly. Then SF acted as a bridge to assemble heparin and albumin through electrostatic interactions, followed by crosslinking to stabilize the structure, resulting in a uniform SF-heparin-albumin composite coating with controllable thickness. 10-day shear oscillation and nanoscratch tests showed that the SF bridging layer significantly improved mechanical robustness and interfacial adhesion. In vitro and in vivo blood circulation assays demonstrated hemocompatibility, with reduced platelet adhesion, prolonged coagulation time, and enhanced antithrombotic performance. Blood-gas exchange tests using a miniaturized oxygenator confirmed that the coating did not impair gas transfer efficiency. In summary, the SF bridging layer effectively links the substrate to bioactive components, improving long-term mechanical integrity and anticoagulant properties without compromising oxygenator function. STATEMENT OF SIGNIFICANCE: During clinical ECMO use, shear stress often compromises the integrity of anticoagulant coatings, leading to detachment and reduced functionality. Here, we present a silk fibroin (SF)-based multilayer coating engineered to enhance the long-term stability and anticoagulant performance of ECMO hollow-fiber membranes. Utilizing a layer-by-layer self-assembly strategy, heparin and albumin were stably incorporated into the SF matrix, resulting in a coating with improved shear resistance and preserved gas exchange. As the first silk-based coating specifically designed for ECMO applications, this work bridges biomolecular design with device-level functionality. Moreover, it demonstrates biocompatibility with no detectable cytotoxicity, offering a promising approach for safe and durable blood-contacting applications.

• Publication year

  2025

• Venue

  Acta Biomaterialia

• Publication date

  2025-10-01

• Fields of study

  Medicine, Materials Science, Engineering

• Identifiers
  DOI 10.1016/j.actbio.2025.10.006PMID 41072596
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

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