Connect with Olivier Coquoz
Olivier oversees the Center's operational activities including clinical, regulatory and legal affairs, and the neural microsystems and pre-clinical neuroscience platforms. Prior to taking on COO duties, he managed the development of a brain-computer interface to restore function for patients with paralysis.
Olivier Coquoz joined the Wyss Center as Program Manager in January 2017 and was appointed as Chief Operating Officer (COO) in March 2020.
Olivier has over 20 years’ experience in industrial environments, where he managed several complex new product developments from early stage to successful market introduction. He has been involved in growing companies both in Switzerland (Andromis, Endosense, Hach) and the USA (Xenogen). Olivier contributed to the success of two startups in biotech / medtech: he was part of the team who developed the IVIS in vivo optical imaging systems at Xenogen Corporation, based in the San Francisco Bay Area, acquired by Caliper Life Sciences in 2006. He then led the development of the TactiCath ablation catheter at Endosense, based in Meyrin (Geneva). Endosense was acquired by Saint Jude Medical in 2013, and TactiCath was approved by the FDA in 2014.
Before joining the Wyss Center, Olivier was R&D Program Manager at Hach, a Danaher company, where he was responsible for New Product Development in the Water Quality group. Olivier holds an MS degree in Engineering Physics from the École Polytechnique Fédérale de Lausanne (EPFL), Switzerland, where he then obtained his PhD, specializing in the field of Biomedical Optics. Olivier also holds a diploma of Advanced Studies in Project Management from the University of Geneva.
2nd EPFL-Wyss Center call for entrepreneurial projects
Are you developing a promising technology in the field of applied neuroscience or neurotechnology? Do you intend to bring it to the market? This joint EPFL-Wyss Center call for projects might be for you.Collaboration
Study contributes to our understanding of how cocaine withdrawal affects brain circuits
The results could help clinicians understand addiction and enable people to better manage substance withdrawal.Collaboration
Study suggests a promising future for soft bioelectronic interfaces in clinical settings
Results demonstrate MRI compatibility, good surgical handling and reliable recording in bioelectronic interfaces that conform to the nervous system.Technology