Hippocampal theta sweeps indicate goal direction

Successful spatial navigation requires rapid evaluation of potential future trajectories. Hippocampal “theta sweeps”, sequential activation of place cells within individual theta cycles, exhibit predictive dynamics within the ideal timeframe to fulfill this role. However, whether these sequences simply reflect movement-related variables or afford more cognitive goal-directed planning remains unresolved. Using data from a navigation task on the “Honeycomb” maze that allows dissociation of head-, movement- and goal-direction correlates, we found that hippocampal theta sweeps exhibit robust goal-oriented directional biases, independent of movement- or head-direction. An existing model of theta sweeps, with an additional goal-oriented directional input, reproduces these findings and predicts goal-oriented theta phase precession, which we confirm empirically. Replay events during immobility-related sharp wave/ripples are also goal-directed, and therefore more aligned with theta sweeps than experience. Our findings indicate that hippocampal theta sweeps provide a neural substrate for online goal-directed spatial planning.