100 Examples of sentences containing the verb "myelinate"

Definition

Myelinate (verb): To form a myelin sheath around a nerve fiber, which insulates the nerve and enhances the speed and efficiency of electrical impulses traveling along the nerve.

Synonyms

• Insulate
• Coat
• Encapsulate
• Protect

Antonyms

• Demyelinate
• Expose
• Uncover
• Deinsulate

Examples

1. The glial cells myelinate nerve fibers during development.
2. Damage to the oligodendrocytes can prevent them from being able to myelinate effectively.
3. Researchers are studying how to promote the ability to myelinate in conditions like multiple sclerosis.
4. The process of myelinate is crucial for rapid signal transmission in the nervous system.
5. In the peripheral nervous system, Schwann cells myelinate axons to facilitate communication.
6. The ability to myelinate properly is essential for maintaining healthy neural function.
7. Certain diseases can affect the body's ability to myelinate nerve cells.
8. As we age, the ability to myelinate may decrease, impacting cognitive function.
9. The body can regenerate and myelinate damaged nerves under certain conditions.
10. Scientists hope to find ways to enhance the ability to myelinate in neurodegenerative diseases.
11. The study showed that exercise can promote the body's ability to myelinate neurons.
12. A lack of certain nutrients can hinder the body's ability to myelinate effectively.
13. The process of myelinate begins in utero and continues into early childhood.
14. Myelin is crucial for the myelinate process in both the central and peripheral nervous systems.
15. Advances in biotechnology may help facilitate the myelinate of damaged nerves.
16. The insulating properties of myelin greatly increase the conduction velocity of impulses in myelinate nerves.
17. In some cases, genetic factors can influence how well the body can myelinate.
18. The breakdown of myelin can lead to conditions that affect the ability to myelinate.
19. Oligodendrocytes are responsible for the myelinate of multiple axons in the central nervous system.
20. The study focused on how environmental factors can impact the ability to myelinate.
21. In laboratory settings, scientists can observe how cells myelinate in real-time.
22. The effectiveness of a stimulus can depend on whether the nerves are myelinate or not.
23. Researchers are examining how to stimulate the cells that myelinate in the brain.
24. Some treatments aim to restore the ability to myelinate in patients with nerve damage.
25. The discovery of new cells involved in the myelinate process could lead to breakthroughs in medicine.
26. The health of the nervous system relies heavily on the ability to myelinate efficiently.
27. In embryonic development, cells rapidly myelinate to establish neural pathways.
28. When nerves are injured, the body's ability to myelinate can be compromised.
29. The speed of nerve impulse conduction is greatly affected by whether fibers are myelinate.
30. Neuroscientists are investigating how to enhance the natural ability to myelinate.
31. The myelinate process is essential for the proper functioning of the nervous system.
32. The regeneration of nerves often involves the ability to myelinate new fibers.
33. Some diseases can lead to the loss of myelin, affecting the ability to myelinate.
34. The myelinate process can be influenced by various external factors, including temperature.
35. Medical professionals strive to understand how to effectively promote the ability to myelinate.
36. The relationship between oligodendrocytes and neurons is crucial for the myelinate process.
37. Neuroinflammation can impact the capacity of cells to myelinate properly.
38. Studies have shown that certain compounds can enhance the ability to myelinate.
39. The myelinate of axons is a complex process involving several different cell types.
40. Effective therapies for nerve injuries often focus on promoting the ability to myelinate.
41. The myelinate process is vital for maintaining a healthy and functioning nervous system.
42. Various factors can either promote or inhibit the ability to myelinate in the brain.
43. Advances in regenerative medicine aim to restore the ability to myelinate damaged nerves.
44. Understanding how to stimulate the cells that myelinate could lead to new treatments.
45. The myelinate process is fundamental to the development of the central nervous system.
46. An imbalance in the body’s chemistry can disrupt the ability to myelinate.
47. Researchers are working to uncover the mechanisms that regulate how cells myelinate.
48. The study of how myelin forms is essential for understanding the myelinate process.
49. The efficiency of neurotransmission is closely linked to whether nerves are myelinate.
50. Oligodendrocyte precursor cells can differentiate to myelinate axons in the brain.
51. Certain lifestyle factors can enhance the body’s ability to myelinate.
52. The myelinate process is critical during early development and throughout life.
53. Disruptions in the myelinate process can lead to serious neurological disorders.
54. The regeneration of myelin is essential for restoring the ability to myelinate in damaged nerves.
55. Promoting a healthy diet may support the body’s ability to myelinate effectively.
56. The speed at which signals travel along nerves is influenced by the myelinate sheath.
57. Research into how to promote the myelinate process is ongoing in neuroscience.
58. The discovery of new molecules that enhance the ability to myelinate is promising.
59. The myelinate process plays a key role in the overall health of the nervous system.
60. The interaction between neurons and oligodendrocytes is essential for the ability to myelinate.
61. The myelinate sheath is crucial for preventing signal loss during nerve transmission.
62. Certain neurological conditions can impair the ability to myelinate.
63. The myelinate process is complex and involves multiple signaling pathways.
64. Research is focused on understanding how to encourage the body to myelinate.
65. Effective communication between neurons is enhanced by the ability to myelinate.
66. The study aims to discover how to stimulate cells that myelinate in the central nervous system.
67. The myelinate process can be affected by genetic predispositions.
68. The insulation provided by myelin is critical for the myelinate of axons.
69. The role of glial cells is vital in the ability to myelinate in the nervous system.
70. The myelinate process is an essential part of neural development.
71. Therapeutic strategies are being developed to enhance the ability to myelinate.
72. Understanding the mechanisms behind myelin formation is crucial for enhancing the myelinate process.
73. The myelinate sheath acts as a protective layer for nerve fibers.
74. The failure to myelinate adequately can lead to neurological impairments.
75. The ability to myelinate is influenced by both intrinsic and extrinsic factors.
76. The myelinate of peripheral nerves is crucial for muscle coordination.
77. Advances in gene therapy may enhance the capacity to myelinate damaged nerves.
78. The myelinate process is different in various types of neurons.
79. In certain diseases, the body’s ability to myelinate is severely compromised.
80. The focus of the research is to understand how to enhance the natural myelinate process.
81. The myelinate of axons is essential for the rapid transmission of signals.
82. The efficiency of the myelinate sheath can vary depending on the type of nerve.
83. The loss of myelin can significantly impact the ability to myelinate effectively.
84. The myelinate process is crucial for developing a fully functional nervous system.
85. Understanding how to regenerate myelin can help improve the ability to myelinate.
86. The ability to myelinate can be affected by various neurological diseases.
87. The myelinate sheath provides insulation that is vital for nerve function.
88. The capacity to myelinate can differ among individuals based on genetic factors.
89. The myelinate process is essential for the proper functioning of reflex arcs.
90. Research continues to explore ways to enhance the ability to myelinate in the brain.
91. The formation of the myelinate sheath is a key focus in neurobiology.
92. The ability to myelinate can improve the recovery of nerve function after injury.
93. The myelinate process is influenced by various environmental factors.
94. The insulation provided by myelin allows for faster impulse conduction in myelinate fibers.
95. The myelinate of the optic nerve is essential for visual processing.
96. The efficiency of neural communication depends significantly on the ability to myelinate.
97. The myelinate process is a critical aspect of neuronal health and function.
98. Regeneration of lost myelin can restore the ability to myelinate damaged nerves.
99. Understanding the myelinate process could lead to breakthroughs in treating neurological disorders.
100. The impact of diet on the ability to myelinate is an exciting area of research.