Chloé Audigier

Title: Chloé Audigier: Innovating Cardiac Imaging Technologies

Introduction: Chloé Audigier is a prominent inventor based in Bern, Switzerland. With a keen focus on the intersection of medical imaging and electro-anatomical mapping, he has made significant strides in advancing cardiac care through innovative technologies. His contributions, backed by his sole patent, exemplify the potential of integrating advanced computational methods into healthcare.

Latest Patents: Audigier holds a patent for a groundbreaking invention titled "Real-time estimation of local cardiac tissue properties and uncertainties based on imaging and electro-anatomical maps." This inventive system and method focuses on estimating local conductivities from anatomical information derived from MR images, ECG, and sparse contact maps. By mapping ECG features and sparse measurements to an anatomical model represented as a graph, his approach utilizes graph convolutional layers and a multilayer perceptron to extract both local and global features. These features are then combined and processed through a series of fully connected layers to regress a set of vertex conductivities, which could potentially revolutionize how cardiac tissue properties are assessed.

Career Highlights: Chloé Audigier's career has been marked by his association with Siemens Healthineers AG, where he has played an integral role in developing state-of-the-art medical devices and systems. His expertise and innovative mindset have made him a valuable asset to the company and the field of medical technology overall.

Collaborations: Throughout his career, Audigier has collaborated with notable professionals in the industry, including Felix Meister and Tiziano Passerini. These partnerships reflect his commitment to working within teams to push the boundaries of what's possible in cardiac imaging and diagnosis.

Conclusion: Chloé Audigier is a pivotal figure in the realm of cardiac imaging innovations. His patent represents a significant contribution to medical technology, showcasing how advanced computational techniques can enhance the understanding of cardiac tissue properties. As he continues his work with Siemens Healthineers AG and valuable collaborations, the impact of his inventions has the potential to improve patient outcomes in an increasingly complex field.