Ephapse: Difference between revisions

Ephapse An ephapse is a point of contact where two neurons communicate through direct electrical interaction, rather than through the more common synaptic transmission involving chemical neurotransmitters. This type of communication is known as ephaptic coupling and is a form of electrical synapse.

Mechanism[edit]

Ephaptic coupling occurs when the electric field generated by the activity of one neuron directly influences the membrane potential of a neighboring neuron. This can happen in tightly packed neural tissues where the extracellular space is minimal, allowing the electric fields to interact more effectively. The phenomenon is particularly significant in the central nervous system and the peripheral nervous system.

Significance[edit]

Ephaptic interactions can play a crucial role in the synchronization of neuronal activity. They are believed to contribute to the coordination of neuronal oscillations and may be involved in various physiological and pathological processes, such as epilepsy and cardiac arrhythmias.

Examples[edit]

Ephaptic coupling has been observed in several types of tissues, including:

• Cardiac muscle: where it can influence the propagation of electrical signals.
• Cerebellum: where it may affect the timing and coordination of motor control.
• Olfactory bulb: where it can modulate sensory processing.

Research[edit]

Ongoing research aims to better understand the role of ephaptic coupling in normal and abnormal brain function. Advanced imaging techniques and computational models are being used to study these interactions at a finer scale.

Related Pages[edit]

• Neuron
• Synapse
• Electrical synapse
• Central nervous system
• Peripheral nervous system
• Neuronal oscillations
• Epilepsy
• Cardiac arrhythmias
• Cerebellum
• Olfactory bulb

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