100 Examples of sentences containing the noun "axon degeneration"

Definition

Axon Degeneration refers to the process by which axons, the long, slender projections of nerve cells, deteriorate and lose their functionality. This may occur due to various factors such as injury, disease, or metabolic disorders. Axon degeneration is a significant aspect of neurological conditions, as it can lead to loss of communication between neurons and ultimately affect bodily functions.

Synonyms

• Axonal degeneration
• Nerve fiber degeneration
• Neurite degeneration

Antonyms

• Axon regeneration
• Nerve repair
• Neurite growth

Examples

1. Researchers are studying how axon degeneration occurs after a spinal cord injury.
2. The team found that inflammation can accelerate axon degeneration in peripheral nerves.
3. Scientists are exploring new treatments to halt axon degeneration in patients with multiple sclerosis.
4. Axon degeneration can lead to severe motor function impairment if not addressed.
5. The researchers noted that axon degeneration was more pronounced in older animals.
6. They observed that axon degeneration often precedes the onset of symptoms in neurodegenerative diseases.
7. The study aimed to understand the genetic factors influencing axon degeneration.
8. Axon degeneration was linked to prolonged exposure to toxins in laboratory experiments.
9. Physicians monitor axon degeneration to evaluate the progression of neurological disorders.
10. The effects of axon degeneration can be mitigated with early intervention strategies.
11. In the experiment, axon degeneration was induced to study the underlying cellular mechanisms.
12. The findings suggest that axon degeneration contributes to cognitive decline in Alzheimer's disease.
13. Axon degeneration can disrupt the signaling pathways necessary for muscle movement.
14. The team developed a model to simulate axon degeneration for therapeutic testing.
15. Understanding the molecular pathways involved in axon degeneration is crucial for developing new drugs.
16. Axon degeneration can result from both genetic and environmental factors.
17. The patient's MRI revealed significant axon degeneration in affected brain regions.
18. Researchers are investigating the role of glial cells in axon degeneration.
19. The therapeutic approach aims to prevent axon degeneration following nerve injury.
20. Axon degeneration may vary among individuals due to genetic predispositions.
21. The early signs of axon degeneration were evident in the clinical assessments.
22. The study provided insights into the mechanisms driving axon degeneration.
23. Axon degeneration can have a profound impact on sensory processing.
24. The researchers focused on the role of neurotrophic factors in preventing axon degeneration.
25. Axon degeneration often leads to neuropathic pain in affected patients.
26. The relationship between inflammation and axon degeneration is an area of active research.
27. Axon degeneration can hinder the recovery of function after a stroke.
28. The research highlights the complexity of axon degeneration in chronic conditions.
29. The model used in the study was effective in replicating axon degeneration.
30. Axon degeneration is a critical factor in the progression of amyotrophic lateral sclerosis (ALS).
31. The team published their findings on the effects of diet on axon degeneration.
32. Axon degeneration may lead to complications in diabetic neuropathy.
33. The study aimed to identify biomarkers associated with axon degeneration.
34. Axon degeneration can be a reversible process under certain conditions.
35. The findings suggest that oxidative stress plays a role in axon degeneration.
36. Axon degeneration has been observed in various animal models of disease.
37. The therapeutic agent showed promise in reducing axon degeneration in preclinical trials.
38. Axon degeneration can complicate recovery from traumatic brain injuries.
39. Researchers have discovered new pathways involved in axon degeneration.
40. The presence of certain proteins was correlated with enhanced axon degeneration.
41. Axon degeneration is a hallmark of many neurodegenerative disorders.
42. The lab is investigating how lifestyle changes can influence axon degeneration.
43. Early intervention can slow down the rate of axon degeneration.
44. The study provided compelling evidence linking axon degeneration to oxidative damage.
45. Scientists are hopeful that new therapies will address axon degeneration effectively.
46. Axon degeneration can impact the autonomic nervous system's functionality.
47. The researchers presented their findings on the relationship between stress and axon degeneration.
48. Axon degeneration may also contribute to psychiatric symptoms in some patients.
49. The novel compound showed potential in preventing axon degeneration in animal models.
50. Axon degeneration can lead to significant quality-of-life issues for affected individuals.
51. The team's research focused on understanding the cellular responses during axon degeneration.
52. The conference highlighted advances in the treatment of axon degeneration.
53. Axon degeneration can result from a variety of metabolic disorders.
54. The results indicate that axon degeneration is influenced by both intrinsic and extrinsic factors.
55. Understanding axon degeneration can lead to better therapeutic strategies.
56. The study aimed to elucidate the mechanisms behind axon degeneration in diabetes.
57. Axon degeneration can significantly alter neuronal communication.
58. The researchers are hopeful about their findings related to axon degeneration.
59. Axon degeneration may increase the risk of developing further neurological conditions.
60. The clinical trial focused on ways to prevent axon degeneration in patients.
61. The findings on axon degeneration were published in a leading neuroscience journal.
62. The researchers are examining the effects of exercise on axon degeneration.
63. Axon degeneration can be influenced by genetic mutations.
64. Understanding how axon degeneration occurs is critical for advancing treatment options.
65. The team noted that axon degeneration could lead to secondary injuries in the nervous system.
66. The impact of axon degeneration on sensory neurons was a key focus of the study.
67. The researchers found that axon degeneration was exacerbated in certain genetic models.
68. Axon degeneration can result in long-term complications if not addressed promptly.
69. The team is exploring how nutritional factors may affect axon degeneration.
70. Axon degeneration has been linked to neuroinflammation in various studies.
71. The study's goal was to find ways to reverse axon degeneration in lab models.
72. Axon degeneration can alter the way signals are transmitted in the nervous system.
73. The findings on axon degeneration were presented at an international conference.
74. The novel drug showed efficacy in slowing down axon degeneration.
75. Axon degeneration can have cascading effects on overall neural function.
76. The researchers utilized advanced imaging techniques to study axon degeneration.
77. Axon degeneration is often assessed during neurological examinations.
78. The relationship between axon degeneration and synaptic loss is being explored.
79. The study revealed that axon degeneration is a common feature in various disorders.
80. Axon degeneration can complicate treatment plans for neurological patients.
81. The researchers are investigating the role of epigenetics in axon degeneration.
82. Axon degeneration can result in impaired reflexes and motor coordination.
83. The findings related to axon degeneration have implications for future therapies.
84. The lab aims to develop strategies to mitigate axon degeneration.
85. Axon degeneration can lead to significant challenges in rehabilitation.
86. The team of scientists is dedicated to understanding the triggers of axon degeneration.
87. Axon degeneration can be a target for innovative therapeutic approaches.
88. The study's conclusions about axon degeneration were groundbreaking.
89. Axon degeneration can affect both central and peripheral nervous systems.
90. The researchers aim to identify ways to protect against axon degeneration.
91. Axon degeneration may be reversible if treated early.
92. The clinical implications of axon degeneration are profound and far-reaching.
93. The study's findings about axon degeneration were widely discussed in the media.
94. Researchers have made significant progress in understanding axon degeneration.
95. Axon degeneration can hinder the healing process after nerve injuries.
96. The team is examining alternative therapies to combat axon degeneration.
97. The impact of axon degeneration on quality of life is a major concern for patients.
98. The researchers found that certain lifestyle factors could influence axon degeneration.
99. Axon degeneration is a critical area of focus in neurological research.
100. The study aims to provide new insights into the prevention of axon degeneration.