Action potential

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(Redirected from Nerve impulses)

Action potential is a fundamental concept in neuroscience and physiology, describing the electrical process that occurs when a neuron sends a signal down its axon.

Overview[edit | edit source]

An action potential is a rapid, temporary change in electrical potential across a membrane, typically in a neuron or muscle cell. This change in potential is caused by the movement of ions across the cell membrane, which generates an electrical current. The action potential is the basic mechanism by which information is transmitted along the neural pathway.

Generation of Action Potential[edit | edit source]

The generation of an action potential begins with a change in the membrane potential of the neuron. This change is typically caused by the neuron receiving a signal from another neuron, which causes ion channels in the membrane to open. This allows ions to flow across the membrane, changing the electrical potential.

The action potential is initiated when the membrane potential reaches a certain threshold. At this point, voltage-gated sodium channels open, allowing sodium ions to flow into the cell. This influx of sodium ions causes the membrane potential to become more positive, a process known as depolarization.

Once the membrane potential reaches a peak, the sodium channels close and voltage-gated potassium channels open. This allows potassium ions to flow out of the cell, causing the membrane potential to become more negative again, a process known as repolarization.

Propagation of Action Potential[edit | edit source]

The action potential propagates along the axon of the neuron in a wave-like manner. This is due to the fact that the change in membrane potential caused by the influx of sodium ions causes adjacent sodium channels to open, allowing the action potential to move along the axon.

The speed at which the action potential propagates along the axon is influenced by several factors, including the diameter of the axon and the presence of myelin, a fatty substance that insulates the axon and increases the speed of propagation.

Role in Neural Communication[edit | edit source]

Action potentials play a crucial role in neural communication. They are the means by which information is transmitted from one neuron to another, and from neurons to other types of cells, such as muscle cells. The frequency and pattern of action potentials can encode different types of information, such as the intensity of a stimulus or the direction of movement.

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Contributors: Prab R. Tumpati, MD