04.29.20
Across the world, hundreds of thousands of people suffer from retinal degenerative diseases, including macular degeneration and retinitis pigmentosa.
These ailments result in significant or even total vision loss, radically affecting day-to-day life.
NanoRetina, with the help of SCHOTT Primoceler, has taken a major step towards changing this situation by developing an entirely new, less invasive, and high performing retinal implant with the first human trials successfully taking place.
NanoRetina’s development of the NR600 device aims to restore vision to people blinded by retinal degenerative disease. The miniature implant enables a low-risk surgical procedure and a quick recovery time.
The first human trials, started earlier this year among a European patient base, have produced exceptional results.
"The device was activated for the first time, and the result was amazing: this patient had been completely in the dark for 5 years, and she immediately reported seeing an image in the center of her visual field when the device was activated and could show with her hands the size of the image that she saw," said Prof. Peter Stalmans, who performed the trial implantation of the device. "I have been working for more than 20 years as an ophthalmologist, but this is the first time I witnessed a completely blind patient being given back a visual perception."
SCHOTT Primoceler and NanoRetina have a longstanding partnership dating back seven years to the beginning of this project.
SCHOTT Primoceler’s signature glass wafer micro bonding technology is a perfect match for this application because of the benefits it delivers. The direct laser bonding method enables extreme miniaturization.
For NanoRetina, this is an absolute requirement for this implant that lives inside the human eye.
The ability to create a hermetic seal directly between glass interfaces is also essential to NanoRetina’s NR600 implant, as transparency is a must for precise optical performance.
Finally, the implant is constructed of extremely small and complex electronic components.
Exposing these to nearly any amount of heat would melt and destroy these components instantly.
The minuscule heat-affected zone of the sealing area for glass wafer micro bonding makes it essentially a room-temperature process, enabling a hermetically sealed construction without risking any damage to the components of NanoRetina’s device.
“SCHOTT Primoceler’s unique technology enabled the realization of the NR600 miniature implant,” said Ran Mendelewicz, NanoRetina’s VP of R&D. “The team in Finland have repeatedly proven that they are up to our challenges, and with their ‘can do’ approach, NanoRetina completed the development of a small, biocompatible, and hermetic device that will change the lives of visually impaired patients and their families around the world.”
“In a time when good news is badly needed in the world, SCHOTT Primoceler is thrilled to be a part of this story of restoring vision to those suffering from blindness,” added Ville Hevonkorpi, managing director of SCHOTT Primoceler Oy. “We have enjoyed excellent cooperation over the course of many years with our partners at NanoRetina and it has been a pleasure to see this transformative device move forward to becoming a reality for the treatment of vision loss.”