Iolanda Feola scite author profile

Propagation of non-linear waves is key to the functioning of diverse biological systems. Such waves can organize into spirals, rotating around a core, whose properties determine the overall wave dynamics. Theoretically, manipulation of a spiral wave core should lead to full spatiotemporal control over its dynamics. However, this theory lacks supportive evidence (even at a conceptual level), making it thus a long-standing hypothesis. Here, we propose a new phenomenological concept that involves artificially dragging spiral waves by their cores, to prove the aforementioned hypothesis in silico, with subsequent in vitro validation in optogenetically modified monolayers of rat atrial cardiomyocytes. We thereby connect previously established, but unrelated concepts of spiral wave attraction, anchoring and unpinning to demonstrate that core manipulation, through controlled displacement of heterogeneities in excitable media, allows forced movement of spiral waves along pre-defined trajectories. Consequently, we impose real-time spatiotemporal control over spiral wave dynamics in a biological system.

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Optogenetic manipulation of anatomical re-entry by light-guided generation of a reversible local conduction block

Watanabe¹,

Feola²,

Majumder³

et al. 2017

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Iolanda Feola

Light-induced termination of spiral wave arrhythmias by optogenetic engineering of atrial cardiomyocytes

Localized Optogenetic Targeting of Rotors in Atrial Cardiomyocyte Monolayers

Optogenetics enables real-time spatiotemporal control over spiral wave dynamics in an excitable cardiac system

Optogenetic manipulation of anatomical re-entry by light-guided generation of a reversible local conduction block

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