Quantum: A Catalyst for Bio

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If the promises of emerging quantum technologies are fulfilled, they will have major consequences for the life sciences, biotech, and medtech industries. Quantum-driven chemical modeling has the potential to speed up drug discovery, while quantum sensors are already unlocking new levels of precision measurement. On March 11, 2024, Swissnex in Boston hosted experts from Switzerland and the Boston area to discuss how quantum can catalyze a new era of life sciences innovation.

During the event, Frederik Flöther from QuantumBasel and Yvonna Li from Roche delivered virtual talks on their own research. A panel discussion, moderated by Catherine Lefebvre from the Open Quantum Institute and GESDA, featured Dominik Zumbühl from the University of Basel and NCCR SPIN, and Clément Javerzac from the University of Applied Sciences and Arts Northwestern Switzerland to discuss research and education, with Borja Peropade from IBM and Elica Kyoseva from NVIDIA adding valuable industry insights.

Here are five key takeaways from the event:

• Quantum-mechanical effects are integral for understanding processes like catalysis and bonding in the world of microscopic molecules.

• Quantum computers are not jacks-of-all-trades. But they are well suited to simulate molecular systems, since their properties mimic the world they seek to decode.
• When fault-tolerant quantum computers emerge, they will be uniquely positioned to improve bottlenecks in drug discovery, such as bonding affinities and side effect prediction. But in order to see transformational benefits, we need to improve quantum algorithms, as well as the hardware.
• Sensing devices relying on quantum-scale effects (such as nitrogen-vacancy diamond centers) are already unlocking new levels of accuracy, but need proper packaging and testing before medical adoption.
• In 5-10 years we may see the first small molecule designed by a quantum computer. In the meantime, quantum optimization and machine learning can meaningfully advance areas such as clinical trial design or synthetic data generation to better understand rare diseases.

Quantum: A Catalyst for Bio is part of Project Quantum, a Swissnex initiative to connect Switzerland and the world in quantum science and technology. This event was presented by Swissnex in Boston at The Engine in partnership with the University of Basel, NCCR SPIN, NVIDIA, and Business Location Switzerland.