Location History:
- Outremont, CA (2005)
- Montreal, CA (2008 - 2017)
Company Filing History:
Years Active: 2005-2017
Title: Innovations by Marc L Dufour
Introduction
Marc L Dufour is a notable inventor based in Montreal, Canada. He has made significant contributions to the field of tissue phantoms, with a focus on optical coherence tomography imaging. His work has led to the development of innovative methods that enhance the understanding and simulation of biological tissues.
Latest Patents
Marc L Dufour holds four patents, with his latest innovations centered around multilayered tissue phantoms. One of his patents describes a method for producing a multilayer tissue phantom by successively forming at least two layers. Each layer is created by depositing a viscous flowable material over a supporting element or a previously formed layer. The process involves selectively redistributing the material while it solidifies to control the thickness distribution of the layer. The supporting element effectively molds a lumen of the tissue, and the neighboring layers are composed of different materials with chosen thicknesses to achieve desired optical and mechanical properties. This phantom can mimic tissues for optical coherence tomography imaging by having selected attenuation and backscattering properties.
Career Highlights
Marc L Dufour is associated with the National Research Council of Canada, where he continues to push the boundaries of research and innovation in his field. His work has been instrumental in advancing the technology related to tissue phantoms, which are crucial for medical imaging applications.
Collaborations
Some of his notable coworkers include Guy Lamouche and Charles-Etienne Bisaillon, who have collaborated with him on various projects related to tissue phantoms and their applications.
Conclusion
Marc L Dufour's contributions to the field of tissue phantoms demonstrate his commitment to innovation and research. His patents reflect a deep understanding of material properties and their applications in medical imaging. His work continues to influence the development of technologies that enhance our ability to study and understand biological tissues.