What question did this study set out to answer?

To evaluate the recent progress in fiber-based technologies and their potential for clinical application.

April 17, 2026Open Access

Advanced fiber-based technologies for biomedical interfaces: recent progress and translational perspective

Puntos clave

To evaluate the recent progress in fiber-based technologies and their potential for clinical application.
Review of materials and fabrication techniques for fiber technologies
Assessment of multifunctional capabilities in biomedical applications
Evaluation of translational readiness and clinical challenges
Identified key design principles for effective biomedical interfaces
Demonstrated enhanced functionalities of fiber technologies in various applications
Highlighted significant challenges hindering clinical adoption

Resumen

Abstract Fiber technologies have evolved beyond textiles into versatile platforms for implantable, wearable, and minimally invasive biomedical interfaces. Advances in materials and fabrication allow multimodal functionalities within single fibers, enabling applications in neural interfacing, imaging, minimally invasive surgery, monitoring, and tissue engineering. This review aims to highlight the design principles, materials, and integration strategies, while evaluating performance, translational readiness, and key challenges for clinical adoption of fiber-based biomedical systems.

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