A novel multi-layered knitted structure with the coating of the nanofibrous web has been developed for using as a
esophageal prosthesis. Poly glycolic acid (PGA) braided yarn has been knitted into tubular form and polycaprolactane (PCL)
nanofibres are coated on the surface of PGA knitted fabrics with the electrospinning process. Finally, a gelatin coating has
been applied on the surface of the developed tubular fabric. The effect of the stitch density parameters on the mechanical
properties of the multi-layer knitted fabric has been investigated and the optimum process conditions for electrospinning of
the PCL nanofibres are obtained by studying the uniformity in the diameter distribution of the fibres. The surface roughness
of the gelatin coated fabric is calculated with image processing method before and after the coating process. Degradation
behavior of the three-layer esophageal prosthetic is also investigated. Results show that the knitted tubular fabrics has
mechanical properties similar to real esophageal tissue. Coating of gelatin increases the surface roughness of the PCL
nanofibrous web and also retains the porosity of the final structure. Degradation test also shows that the PGA knitted fabric
coated with the PCL nanofibres and gelatin is degraded in a controlled manner. It can be said that this tubular knitted
structure can be considered as a substitute for prosthetic application in different esophageal diseases after biological
investigations.