· Ex-vivo implantation of the T-REMEDIE device in the equine tendon.
· Evaluation of the mechanical strength of the repaired tendon with T-REMEDIE device.
· Optimisation of the device, its applicator and the implant technique.
· Evaluation of the micro-vascularization on the equine tendon repaired with T-REMEDIE.
· Histological examination and In-vitro cytotoxicity tests.

· Identification of the most suitable biocompatible and biodegradable polymer for the realization of the device and prototyping of the first devices.
· Design and optimization of the geometry of the implantable device.
· Validation of the device geometry.
· Creation of the device in medical grade material using Injection Moulding technology.

· Testing of the biocompatible and biodegradable polymer for device realization.
· Production of the T-RESAP applicator in stainless steel.
· Production of the first T-REMEDIE device by Injection moulding.
· Second Cadaver Lab (Nice, France).
· Collaboration with experts in medical device legislation for the creation of a regulatory pathway for the CE mark.

· Research and identification of the most suitable production method for the implantable device.
· Production and testing of the copolymer blend.

· Design and prototyping of the T-RESAP applicator with 3D printer SLA technology
· Patent application for T-RESAP applicator.

· Research and identification of the most suitable production method for the implantable device.
· Patent application for T-REMEDIE.
· Realization of the first device prototype by SLA 3D printing technology.
· Uniaxial tensile test on the tendon-device complex.
· First Cadaver Lab (Nice, France).