What happens to the types of nerves as amplitude increases?

• A. They remain unchanged
• B. They become hyperpolarized
• C. They are depolarized
• D. They stop responding

Answer: (C)

As the amplitude of electrical stimulation increases, the excitation of nerve fibers also intensifies, leading to a phenomenon known as depolarization. In the context of nerve physiology, depolarization refers to a reduction in the membrane potential, making the inside of the neuron less negative compared to the outside. When an electrical stimulus reaches a certain threshold, it triggers an action potential, which is the rapid depolarization of the nerve cell membrane.

When the amplitude of a stimulus increases, it can engage more nerve fibers and lead to a greater depolarization response. This increased stimulation can activate larger fibers, which are generally responsible for motor functions or sensation perception. As a result, the amplitude of the electrical current plays a pivotal role in determining which types of nerve fibers respond and how strongly they respond.

While some incorrectly assume that the types of nerves remain unchanged or stop responding at increased amplitudes, the reality is that depolarization is a critical process in nerve signal transmission, and stronger stimuli will typically result in a more pronounced depolarization of the involved nerve fibers. As such, depolarization is how nerves respond to increasingly higher amplitudes of electrical current.