Periodic Reporting for period 2 - ANewSpike (A new type of spike: Homoclinic spike generation in cells and networks)
Período documentado: 2022-07-01 hasta 2023-12-31
This property has interesting consequences for the behaviour of the whole neuronal network. Specifically, the action-potential type can impact whether the acitivity of neurons in the network is synchronous or not. Understanding the mechanism by which homoclinic action potentials can set such network states is a primary goal of the project. To this end, we will (i) identify physiological parameters that induce homoclinic spikes in neurons, (ii) develop methods to identify homoclinic spikes in experimental recordings, (iii) determine which networks are sensitive to synchronizing effects of homoclinic spikes and (iv) explore their role in pathologies such as epileptiform activity or spreading depolarization.
The approach is based on mathematical modelling, allowing us to dissect the underlying mechanisms in a very complex system. It is complemented by experimental studies in collaboration with partner labs that enable us to test the theoretical predictions. Our multi-scale study aims to add a novel dimension to our understanding of neural dynamics at the cellular and network level by revealing how homoclinic spiking can shape brain dynamics in both health and pathology.
In the next years we aim to further decipher the impact of homoclinic spikes on mixed excitatory-inhibitory networks and to further analyze the role of these intriguing action potentials in pathology.