Design & evaluation of a new intraocular illumination system for vitreoretinal surgery: the RingLight

Design & evaluation of a new intraocular illumination system for vitreoretinal surgery: the RingLight

Riemens, Boyd (TU Delft Mechanical, Maritime and Materials Engineering)

Dodou, D. (mentor)
van Overdam, Koen (mentor)
Hendriks, B.H.W. (graduation committee)

Delft University of Technology

Biomedical Engineering

2022-06-10

Throughout history, different intraocular illumination methods for vitreoretinal surgery have been used and the most common limitations to the state-of-the-art intraocular illumination methods are the glare and reflections created by the illumination device and the relatively small illuminated area. A way to tackle these limitations could be by using a ring-light configuration, which produces diffuse scattered illumination for a full 360° around the object.
In this study, we developed and experimentally evaluated two ring-light configurations for intraocular illumination during vitreoretinal surgery: one for insertion through the pars plana (20 mm), and one for insertion through the cornea and placement in the posterior chamber (11 mm). Both prototypes are made from a 27 gauge Eckardt TwinLight (DORC, the Netherlands), placed inside a capillary tube cut in half through the length. Cuts were made in the fiber every 2 mm, perpendicular to the length of the fiber, to allow light to exit the fiber through the cladding.
By measuring the light intensity and illuminated area, we found that the ring-light configurations produce a lower light intensity but also a slightly larger illuminated area and a more diffuse and uniformly distributed illumination than the Eckardt TwinLight.
The placement of the ring-light in the posterior chamber proved to be unsafe and complex, since the installation procedure in ex-vivo porcine cadaver eyes could not be executed without damaging the lens bag, lens zonules, posterior iris and cornea, due to the lack of space in the posterior chamber, and the rigidity and sharp tip of the ring.
The ring-light configuration that is inserted through the pars plana also caused damage to the retina and lens bag, due to the ring’s rigidity and its sharp tip. However, this configuration shows potential when the ring would be made from a more flexible material and has an incorporated pigtail curve a the distal end, which can be easily achieved in a future version of the prototype.

intraocular illumination
vitreoretinal surgery
ring-light configuration
light intensity
illuminated area
installation procedure
safety

http://resolver.tudelft.nl/uuid:c6e84f63-8ec3-4940-85b6-c35da6e9778d

Student theses

master thesis

© 2022 Boyd Riemens