Company Filing History:
Years Active: 2015
Title: Innovations in Optical Imaging by Luca Lanzano
Introduction
Luca Lanzano is an accomplished inventor based in Irvine, California. He has made significant contributions to the field of optical imaging, particularly through his innovative methods that enhance the resolution of imaging techniques. His work is pivotal in advancing our understanding of cellular structures and dynamics.
Latest Patents
Luca Lanzano holds a patent for a groundbreaking optical imaging method titled "Nanometer-scale optical imaging by the modulation tracking (MT) method." This method utilizes a feedback principle to adapt the scanning pattern according to the shape of the sample. The result is the production of nanometer-resolved three-dimensional images of very small and moving features in live cells within seconds. His technique has successfully generated images of microvilli in live cultured opossum kidney cells expressing NaPi co-transporter proteins with various GFP constructs. Additionally, it has captured images of cell protrusions in a collagen matrix with a remarkable resolution of about 20 nm. This innovation allows for the identification of cellular adhesions to the extracellular matrix along three-dimensional cell protrusions.
Career Highlights
Luca Lanzano's career is marked by his dedication to research and innovation in optical imaging. His work has not only advanced scientific knowledge but has also opened new avenues for research in cellular biology. He is affiliated with the University of California, where he continues to explore the frontiers of imaging technology.
Collaborations
Luca has collaborated with notable colleagues, including Michelle A. Digman and Enrico Gratton. These partnerships have further enriched his research and contributed to the development of advanced imaging techniques.
Conclusion
Luca Lanzano's contributions to optical imaging represent a significant leap forward in the field. His innovative methods and dedication to research continue to inspire advancements in understanding cellular dynamics.