The field of neuroscience has long been intrigued by the complex dynamics of neurons in the cerebral cortex, particularly the transformation of synaptic ...

The neuron is stimulated by the pulses or waveform generated digitally through the MEA. The response of the neuron, typically an action potential, is transformed by different parameters across the ...

Together with the artificial neural networks of McCulloch and Pitts ... including the shape and propagation of the action potential, its sharp threshold, refractory period, anode-break excitation ...

Hence, researchers often simulate the brain as a network of coupled neural masses, each described by a mean-field model. These models capture the essential features of neuronal populations while ...

New research on nematodes reveals how glial cells maintain and monitor neuronal dendrites. Neurons may get all the glory, but they would be nothing without glial cells. While brain cells do the heavy ...

In order for a neuron to transmit its own signal, it must first be sufficiently activated by incoming signals from other neurons via its dendrites. Then, an action potential is generated in its ...

Discover the untapped potential of the brain’s adaptability. Learn how neuroplasticity reshapes cognitive abilities at any ...

Explore the alarming discovery of microplastics in human brain tissue, their potential health impacts, and the urgent need ...

Forget the traditional tubular shape—researchers are investigating a pearl-on-a-string formation for axons, unlocking new ...

Sphere of Influence. In iAssembloids, microglia (red) form projections (white arrows), while astrocytes (green) assume star shapes typically found in the brain. [Courtesy of Kampmann et al., 2025.] ...