IIT Madras identifies enhanced drug delivery method for eye care

IIT Madras researchers have demonstrated how drugs injected in the human eye can be better delivered to the target region through ‘convection caused by mild laser heating’. They used simulation and modelling studies to analyse the efficacy of various types of treatments on the human eye, focusing on heat and mass transfer.

With nearly 11 million individuals afflicted by retinal disorders in India, indigenous original research of this nature holds promise for the development and advancement of Laser-based treatments for various eye diseases.

Laser-based retinal treatments are increasingly being used to treat diseases like retinal tears, diabetic retinopathy, macular oedema and retinal vein occlusion. Since the retina is the region of the eye that contains blood vessels and nerves, such treatments must be performed carefully and with precision.

This research was taken up nearly a decade ago by Prof Arunn Narasimhan, Department of Mechanical Engineering, IIT Madras, who collaborated with Dr Lingam Gopal of Shankar Nethralaya and initiated biothermal research into the effects of laser irradiation on the retina for the first time in India.

Subsequently, the team has performed computer simulations and experiments to analyse different aspects of eye treatments, within the scope of bio-heat and mass transfer.

The current study was taken up by Prof Arunn Narasimhan, and IIT Madras graduate student Shirinvas Vibuthe, who used a glass eye mimic to demonstrate how heat-induced convection reduces the time taken for drugs injected into the vitreous region to reach the targeted region in the retina.

This work will be featured in the Special ICCHMT Conference Proceedings published by Springer Verlag. Highlighting the need for such research, Prof Narasimhan said, “Inter-disciplinary research brings together expertise from different fields like engineering and biology, to provide innovative solutions to relevant societal problems.”

Prof Narasimhan designed an experiment using a glass eye mimic geometrically similar to the human eye, water and silicone oil for the vitreous liquid and a heater to simulate laser heating. The researchers injected a dye as a drug mimic at specific points in the vitreous region of the eye, and measured concentrations at different retinal locations with and without heating the vitreous liquid. The researchers have also shown in a separate study that the required heating does not damage the eye tissues. Subsequent research work in 3D human eye models earned Vibuthe an invitation to present his work at the international conference ICCHMT 2023 held in Germany.