Company Filing History:
Years Active: 2022
Title: Christoffer Edlund: Innovator in Live-Cell Imaging Technology
Introduction
Christoffer Edlund is a notable inventor based in Ann Arbor, MI (US). He has made significant contributions to the field of biological imaging, particularly in the acquisition of fluorescence images of live-cell biological samples. His innovative approach enhances the efficiency and quality of imaging techniques used in biological research.
Latest Patents
Christoffer Edlund holds a patent for a method and system for the acquisition of fluorescence images of live-cell biological samples. This patent describes a method for acquiring a single, in-focus two-dimensional projection image of a live, three-dimensional cell culture sample using a fluorescence microscope. The technique involves obtaining one or more long-exposure 'Z-sweep' images while moving the Z-focal plane of a camera through the sample. This method is significantly faster than traditional Z-stack methods, allowing for higher throughput and reducing the risk of overexposing the sample to fluorescent light. The long-exposure images are then processed through a neural network trained to produce high-quality, in-focus two-dimensional projection images. These images enable the extraction of biologically relevant analysis metrics, such as fluorescence object count and intensity metrics.
Career Highlights
Christoffer Edlund is currently employed at Sartorius Bioanalytical Instruments, Inc., where he continues to develop innovative imaging solutions. His work focuses on enhancing the capabilities of fluorescence microscopy, which is crucial for advancing biological research and analysis.
Collaborations
Christoffer collaborates with notable colleagues, including Timothy R. Jackson and Rickard Sjögren. Their combined expertise contributes to the development of cutting-edge technologies in the field of bioanalytical instruments.
Conclusion
Christoffer Edlund's contributions to live-cell imaging technology exemplify the impact of innovation in biological research. His patented methods not only improve imaging efficiency but also enhance the quality of data obtained from live-cell samples.