axolemma Sentences

The rapid conduction of action potentials along the axolemma is crucial for the proper functioning of the nervous system.

In the axolemma, the electrical properties of the neuron are maintained and modulated.

Research on the axolemma has led to a better understanding of how neurons communicate with each other.

The axolemma's unique structure allows for the efficient transmission of signals without the need for intermediaries.

Damage to the axolemma can affect the neuron's ability to transmit signals.

Understanding the axolemma is essential for neuroscientists studying how information is processed in the brain.

The axolemma plays a critical role in the formation of the myelin sheath.

During neural development, the axolemma matures and becomes specialized for its functions.

Clinical treatments for nerve damage often focus on repairing or regenerating the axolemma.

In some cases, the axolemma can regenerate after injury, allowing for partial recovery of neuron function.

The axolemma's properties are essential for the efficient propagation of electrical signals.

Studies on axolemmal proteins have provided insights into the mechanisms of signal transmission.

The axolemma's structure differs between various types of neurons, affecting their functions.

In the peripheral nervous system, the axolemma is often more visible due to its distinct appearance.

The axolemma's lipid composition is critical for its function in regulating ion flow.

Understanding the axolemma's structure and function is crucial for developing drugs that can treat neurological disorders.

The axolemma's role in signal conduction has been studied extensively in both healthy and diseased states.

In the central nervous system, the axolemma is often enveloped by other cells, such as oligodendrocytes, forming the myelin sheath.

The axolemma's ability to change in response to environmental factors is an active area of research.