100 Examples of sentences containing the common noun "oligodendrocyte"

Definition

Oligodendrocyte is a type of glial cell in the central nervous system that produces myelin, which insulates axons and enhances the speed of electrical signal transmission between neurons.

Synonyms

• Myelinating cell
• Glial cell

Antonyms

• Neuron (in the context of function)

Examples

1. The Oligodendrocyte plays a crucial role in the health of the nervous system.
2. Researchers studied how the Oligodendrocyte interacts with neurons.
3. An increase in Oligodendrocyte production may help in repairing nerve damage.
4. The Oligodendrocyte is vital for efficient signal transmission.
5. Damage to the Oligodendrocyte can result in various neurological disorders.
6. Scientists are investigating how the Oligodendrocyte can support neuron survival.
7. The myelin sheath formed by the Oligodendrocyte is essential for rapid communication.
8. The role of the Oligodendrocyte in multiple sclerosis is a significant area of research.
9. A healthy Oligodendrocyte population is necessary for proper brain function.
10. The Oligodendrocyte has a distinct morphology that aids in its function.
11. We observed how the Oligodendrocyte responds to injury in the brain.
12. The Oligodendrocyte's role in myelination cannot be overstated.
13. A decline in Oligodendrocyte function can lead to cognitive impairment.
14. The Oligodendrocyte supports neuronal metabolic needs.
15. Researchers aim to enhance Oligodendrocyte regeneration in spinal cord injuries.
16. Experimental treatments target the Oligodendrocyte to improve recovery.
17. The Oligodendrocyte is involved in the development of the nervous system.
18. Understanding the Oligodendrocyte is vital for neurobiology studies.
19. The loss of Oligodendrocyte cells is a hallmark of certain diseases.
20. The Oligodendrocyte contributes to the overall brain architecture.
21. We need to understand how the Oligodendrocyte interacts with other cell types.
22. The function of the Oligodendrocyte can be affected by environmental changes.
23. The Oligodendrocyte can influence the growth of axons.
24. Damage to the Oligodendrocyte can lead to demyelination.
25. The Oligodendrocyte's role in supporting axonal health is critical.
26. Researchers are exploring ways to stimulate Oligodendrocyte activity.
27. The Oligodendrocyte has been a focus of regenerative medicine.
28. The differentiation of Oligodendrocyte precursor cells is important for myelination.
29. The Oligodendrocyte provides structural support to neurons.
30. It’s essential to maintain a healthy Oligodendrocyte population for brain health.
31. The Oligodendrocyte is a key player in the central nervous system.
32. Studies show that the Oligodendrocyte can influence learning and memory.
33. The Oligodendrocyte has a unique ability to myelinate multiple axons.
34. We are trying to understand the signaling pathways of the Oligodendrocyte.
35. The Oligodendrocyte can be affected by genetic factors.
36. A healthy diet may support Oligodendrocyte function.
37. The Oligodendrocyte is critical during the development of the nervous system.
38. The Oligodendrocyte lineage is a subject of ongoing research.
39. Restoration of Oligodendrocyte function is a goal in treating neurodegenerative diseases.
40. The Oligodendrocyte is often overlooked in discussions about brain health.
41. The Oligodendrocyte can undergo changes in response to injury.
42. Advances in imaging techniques have allowed us to visualize the Oligodendrocyte.
43. The Oligodendrocyte is essential for maintaining the integrity of the nervous system.
44. The interaction between neurons and the Oligodendrocyte is complex.
45. The Oligodendrocyte has a role in regulating inflammation in the brain.
46. A decline in Oligodendrocyte numbers is associated with aging.
47. The Oligodendrocyte can be targeted for therapeutic interventions.
48. The Oligodendrocyte helps in the recovery process after a stroke.
49. The health of the Oligodendrocyte is linked to overall cognitive function.
50. The Oligodendrocyte is involved in the response to brain injuries.
51. The Oligodendrocyte community is vital for repairing damaged axons.
52. Changes in Oligodendrocyte morphology can indicate disease progression.
53. The Oligodendrocyte is influenced by various signaling molecules.
54. The Oligodendrocyte can regulate the microenvironment of the CNS.
55. Strategies to enhance Oligodendrocyte survival are being developed.
56. The regenerative capacity of the Oligodendrocyte is a key research area.
57. The Oligodendrocyte creates a supportive niche for neuronal growth.
58. Impaired Oligodendrocyte function can lead to motor deficits.
59. The Oligodendrocyte is essential for the development of myelinated fibers.
60. Understanding Oligodendrocyte metabolism is critical for neuroprotection.
61. The Oligodendrocyte can respond to changes in neuronal activity.
62. Research on the Oligodendrocyte has implications for understanding psychiatric disorders.
63. The Oligodendrocyte plays a role in the repair of myelin sheaths.
64. The Oligodendrocyte is important for maintaining neuronal excitability.
65. A better understanding of the Oligodendrocyte may lead to new therapies.
66. The Oligodendrocyte can influence synaptic connectivity.
67. The health of the Oligodendrocyte is crucial for neuroplasticity.
68. The Oligodendrocyte may be involved in the response to stress in the brain.
69. The Oligodendrocyte is a focus in studies of neuroinflammation.
70. The Oligodendrocyte is necessary for the proper functioning of neural circuits.
71. The Oligodendrocyte can be affected by autoimmune disorders.
72. The Oligodendrocyte has a unique gene expression profile.
73. The Oligodendrocyte interacts with various types of neurons.
74. The Oligodendrocyte is responsible for the formation of the myelin sheath.
75. The role of the Oligodendrocyte in pain modulation is being studied.
76. The Oligodendrocyte is essential for the conduction of action potentials.
77. A decrease in Oligodendrocyte density can result in neurological symptoms.
78. The Oligodendrocyte is involved in the developmental process of the brain.
79. Enhancing Oligodendrocyte function may aid in recovery from traumatic brain injury.
80. The Oligodendrocyte can influence the fate of neuronal cells.
81. The Oligodendrocyte is critical for the formation of white matter.
82. The Oligodendrocyte helps to maintain the blood-brain barrier.
83. Understanding Oligodendrocyte dynamics can provide insights into brain disorders.
84. The Oligodendrocyte plays a role in the integration of sensory information.
85. The Oligodendrocyte is involved in the response to neurotoxic agents.
86. The Oligodendrocyte can be targeted for gene therapy approaches.
87. The Oligodendrocyte has been shown to have repair capabilities.
88. The Oligodendrocyte influences the development of neural pathways.
89. The Oligodendrocyte can modulate synaptic transmission.
90. The Oligodendrocyte is essential for maintaining the health of axons.
91. The Oligodendrocyte can respond to changes in the metabolic state of the brain.
92. The Oligodendrocyte is crucial for understanding neurodegenerative diseases.
93. The Oligodendrocyte interacts with astrocytes to regulate brain homeostasis.
94. The Oligodendrocyte has a protective role in the central nervous system.
95. The Oligodendrocyte is involved in the development of neural crest cells.
96. The Oligodendrocyte's ability to myelinate is influenced by several factors.
97. The survival of the Oligodendrocyte is essential for neural health.
98. The Oligodendrocyte can be affected by environmental toxins.
99. The Oligodendrocyte is essential for the regeneration of nerve fibers.
100. The Oligodendrocyte has been identified as a target for novel treatments in neurodegeneration.