Objective:

To explore the advancements in 3D printing technology for the design and fabrication of personalized contact lenses, emphasizing their significance in enhancing patient care.

Key Findings:

• 3D printing allows for the customization of contact lenses based on corneal topography, enhancing fit and comfort.
• Innovative materials and methods are being developed for improved lens comfort and functionality, including hydrophilic and viscoelastic options.
• Drug-eluting lenses can significantly increase drug delivery efficiency to the eye, with potential for sustained release.

Interpretation:

The advancements in 3D printing technology represent a significant step towards personalized medicine in ophthalmology, offering tailored solutions for various patient needs and suggesting avenues for future research.

Limitations:

• Current 3D-printed lenses may cause discomfort due to rough surfaces, but ongoing research aims to develop smoother finishes.
• Light scattering issues persist from the layer-by-layer deposition process, with potential solutions being explored in high-resolution printing.

Conclusion:

The future of contact lenses is promising with the integration of 3D printing, allowing for customized shapes and drug delivery systems in a single product, which could revolutionize patient care.