• Biomaterials and tissue engineering for regenerative medicine
• Retinal tissue engineering and therapeutic strategies for ocular disorders
• Design and development of biocompatible scaffolds, hydrogels, and engineered constructs
• 3D bioprinting and advanced scaffold fabrication for biomedical applications
• Engineering platforms that mimic native microenvironments
• Cell–material interactions and biomechanical behavior of engineered tissues
• Translational ophthalmic bioengineering aimed at retinal repair and vision preservation

Mehran Khajehmohammadi is a researcher in the field of biomaterials and tissue engineering, with a growing focus on retinal tissue engineering and regenerative strategies for ocular disorders. His work centers on designing biocompatible scaffolds, hydrogels, and bioengineered constructs that support cellular function and promote regeneration within delicate tissues, including those of the eye. Leveraging advanced fabrication methods—such as 3D bioprinting and precision scaffold manufacturing—he develops platforms capable of mimicking native retinal microenvironments and improving the integration and survival of therapeutic cells.

His research aims to deepen the understanding of cell–material interactions, the mechanical behavior of engineered tissues, and the unique regenerative challenges presented by ocular structures. By integrating biomaterials science with translational approaches in ophthalmic bioengineering, Khajehmohammadi seeks to contribute to emerging therapies for retinal degeneration and vision preservation. Through interdisciplinary collaboration and a commitment to innovation, his work aspires to bridge fundamental bioengineering advances with clinically relevant solutions for restoring structure and function within the retina tissue.