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Active HORIZON European Commission

Pulsed Laser Light and Nano-encapsulated Ocular Dyes for Advanced Therapies in the Eye

€1.5M EUR

Funder European Commission
Recipient Organization Universiteit Gent
Country Belgium
Start Date Sep 01, 2023
End Date Aug 31, 2028
Duration 1,826 days
Number of Grantees 1
Roles Coordinator
Data Source European Commission
Grant ID 101075873
Grant Description

Ocular diseases affect the quality of life of millions of patients.

Despite improvements in pharmacological treatments, the arsenal of medications to treat severe ocular diseases today remains rather restricted to traditional drugs. Use of most modern biotherapeutics like proteins and nucleic acids, could be a major step forward.

However, current ways of administration such as eye drops and intravitreal injections, are no longer sufficient to deliver these drugs to most targets in the eye. Therefore, novel concepts allowing biotherapeutics to safely overcome ocular barriers are of high interest. In ocular surgery, pulsed-lasers (P-Ls) are used for ‘tissue cutting’, though safety concerns remain.

DYE-LIGHT hypothesizes that strategies which would allow the use of P-Ls in the eye at much lower energy than today, could considerably improve safety and pave the way for both novel ocular therapies and advanced surgical interventions. DYE-LIGHT will explore vital dyes, as used by ocular surgeons to stain tissues, as photosensitizers.

DYE-LIGHT follows the recent observation that P-L irradiation of ocular dyes can result in the formation of water vapor nanobubbles (‘dye-based nanobubbles’) and thermophoretic transport (‘dye-based thermophoresis’). Interestingly, these biophysical phenomena occur at a laser energy that is ~ 1000 times less than a P-L alone.

As compared to free dyes, dyes encapsulated in nanocarriers are expected to penetrate less into the retina, which might improve safety. Therefore, focus in DYE-LIGHT will be on nano-encapsulated ocular dyes.

DYE-LIGHT will explore the potential of dye-based nanobubbles for delivery of nucleic acids in the corneal endothelium and for spatial selective vitreolysis in the eye.

Finally, DYE-LIGHT will explore dye-based thermophoresis for controlled transport of nanomedicines injected in the vitreous towards the retina. If successful, this might open new perspectives to improve the efficacy of retinal drug and gene delivery.

All Grantees

Universiteit Gent

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