oligodendrocyte Sentences

Researchers studying multiple sclerosis have identified abnormal proliferation of oligodendrocytes as a potential biomarker for the disease development.

The myelin generated by oligodendrocytes is critical for maintaining the speed and efficiency of signal transmission in the central nervous system.

During brain development, oligodendrocytes myelinate axons, which enables the formation of complex neural networks.

In neuron models, oligodendrocytes play a crucial role in providing both physical support and metabolic nutrients to neurons.

Clinical studies investigating remyelination therapies often involve transplanted oligodendrocytes as a potential treatment for diseases such as multiple sclerosis.

Oligodendrocytes produce myelin of different thicknesses, which affects the speed of signal transmission in various neural pathways.

Understanding the origin and differentiation of oligodendrocytes can provide insights into how the central nervous system develops and recovers from injury.

A detailed analysis of oligodendrocyte distribution in the brain can help map myelinated pathways and their functions.

Oligodendrocytes interact closely with neurons to regulate myelination, a process critical for cognitive function.

Oligodendrocytes are essential for the insulation of axons, ensuring that nerve impulses are conducted quickly and efficiently.

During experiments on neuronal development, scientists have observed that the absence of oligodendrocytes leads to abnormal myelination patterns.

In some neurodegenerative diseases, the number of oligodendrocytes decreases, leading to a reduction in myelin and impaired nerve function.

Researchers are currently investigating the role of oligodendrocytes in generating myelin in response to neural injury.

The interplay between oligodendrocytes and other glial cells is crucial for maintaining the health of the central nervous system.

In the context of neuroprotection, oligodendrocytes play a key role in preserving the integrity of axons and neuronal networks.

Understanding the mechanisms by which oligodendrocytes are regulated can lead to new strategies for treating myelin disorders.

Oligodendrocytes are also involved in the maintenance of myelin through a process called remyelination, which occurs after demyelination.

The study of oligodendrocytes provides valuable insights into the complexities of the central nervous system and its functions.