neuronal depolarisations are essential for signal transmission in the brain.
the membrane depolarisations occur when sodium ions enter the cell.
rapid depolarisations trigger the release of neurotransmitters.
synaptic depolarisations can be measured using electrophysiological techniques.
excitatory depolarisations lead to action potential generation.
spontaneous depolarisations were observed in the experimental recordings.
evoked depolarisations were elicited by electrical stimulation.
postsynaptic depolarisations result from neurotransmitter binding.
cardiac depolarisations coordinate the heartbeat rhythm.
repeated depolarisations can lead to synaptic fatigue.
pathological depolarisations are associated with epilepsy.
synchronized depolarisations underlie brain wave activity.
neuronal depolarisations are essential for signal transmission in the brain.
the membrane depolarisations occur when sodium ions enter the cell.
rapid depolarisations trigger the release of neurotransmitters.
synaptic depolarisations can be measured using electrophysiological techniques.
excitatory depolarisations lead to action potential generation.
spontaneous depolarisations were observed in the experimental recordings.
evoked depolarisations were elicited by electrical stimulation.
postsynaptic depolarisations result from neurotransmitter binding.
cardiac depolarisations coordinate the heartbeat rhythm.
repeated depolarisations can lead to synaptic fatigue.
pathological depolarisations are associated with epilepsy.
synchronized depolarisations underlie brain wave activity.
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