The aim of this study was to compare patterns (aligned, random and grid) of electrospun polydioxanone scaffolds for tendon repair. The aligned design was optimal, directing cell shape, orientation and protein expression. Moreover, it naturally crimped, presenting tendon-like morphology. Nanofibrous electrospun materials have been previously proposed as potential scaffolds for tendon repair, with emphasis on biomimetic design, postulated to encourage tissue regeneration. In this study, we characterised the interaction of primary tendon-derived cells with polydioxanone (PDO) scaffolds. PDO is a polymer with an excellent Summary Statement
Introduction
This study describes the design and preliminary in vitro testing of a novel patch for the repair of rotator cuff tendon tears. The laminated design incorporates woven and electrospun components. The woven element provides the patch with excellent mechanical strength and the electrospun layer improves cell attachment and promotes cell orientation and diferentiation. Aligned nanofibrous electrospun scaffolds have been previously proposed as ideal scaffolds for tendon repair, replicating the anisotropy of tendon and providing a biomimetic design to encourage tissue regeneration (Hakimi et al., 2012). However, such scaffolds are still limited in terms of mechanical properties. This paper presents the design of a novel patch for rotator cuff repair in which the electrospun scaffold is supported by a woven component.Summary Statement
Introduction
