neuroniteorian

Neuroniteorian is a theoretical framework in neuroscience that describes how information is processed in neural systems through multi-scale dynamics that combine individual neuron activity with network-wide patterns. Proponents describe it as a shift from purely rate-based descriptions toward models that integrate temporal coding, cross-network interactions, and glial contributions to signaling and plasticity. The theory emphasizes that information is carried not only by average firing rates but by the timing of spikes, synchrony across oscillations, and context-dependent modulation of circuits.

The term emerged in theoretical discussions during the late 20th and early 21st centuries as researchers debated

Key concepts include temporal coding and precise spike timing, cross-frequency coupling, phase relationships, spike-timing-dependent plasticity, glial

Reception and critique have highlighted its comprehensive scope while criticizing insufficient experimental validation and operational definitions,

Related topics include neural coding, spike-timing-dependent plasticity, cross-frequency coupling, glia in neuroscience, and predictive coding.