Design of a navigational catheter system for the targeted delivery of therapeutics within the suprachoroidal space

Abstract

Diseases of the posterior segment of the eye are common causes of blindness and can be difficult to treat due to their location. Recently, there has been increased interest in the use of the suprachoroidal space to deliver therapeutics to the posterior segment. This space is accessible through a trans-scleral approach and blunt dissection of the adjacent scleral and choroidal tissues. However, despite recent commercial interest, there are few tools designed specifically to provide targeted delivery of therapeutics to a localised region within the suprachoroidal space. Therefore, we designed and prototyped a novel navigational catheter system for the targeted delivery of payloads within the suprachoroidal space. The system consists of a customised catheter tip designed to minimise blunt dissection stresses on neighbouring tissues, a mechanism for controlled catheter navigation, and a method for targeted delivery of large payloads. A customised in vitro model of the eye was also designed to visually demonstrate the capability of the catheter system to controllably navigate within the suprachoroidal space and deliver a targeted payload. This system can enable the delivery of large therapeutic payloads to the eye for the treatment of posterior eye diseases, thereby impacting the development and availability of vision-saving treatments.