100 Examples of sentences containing the noun "axonography"

Definition

Axonography is a noun that refers to the process or technique of imaging or mapping axons, which are the long, slender projections of neurons that transmit electrical impulses away from the neuron's cell body. It is often used in neuroscience to study the structure and function of neural networks.

Synonyms

• Neural mapping
• Axonal imaging
• Neuroimaging

Antonyms

• Axonopathy (referring to axonal damage or disease)
• Neurodegeneration

Examples

1. Researchers in the lab used axonography to investigate the connectivity of brain cells.
2. The latest software can perform axonography with remarkable precision.
3. By employing axonography, scientists were able to visualize the pathways of specific neurons.
4. The study aimed to improve axonography techniques for better clarity in imaging.
5. Advances in axonography have opened new avenues in understanding brain disorders.
6. The team conducted axonography to analyze the impact of a new treatment on nerve regeneration.
7. Axonography revealed unexpected connections between regions of the brain.
8. The results of the axonography were published in a leading neuroscience journal.
9. They utilized axonography to compare healthy axons with those affected by disease.
10. The conference featured a session dedicated to the latest developments in axonography.
11. Axonography has become an essential tool in neurobiology research.
12. The ability to perform axonography in vivo has revolutionized how we study brain function.
13. With axonography, the researchers could track the growth of axons over time.
14. The lab's new equipment enhanced their axonography capabilities significantly.
15. During the experiment, axonography was crucial for obtaining accurate data.
16. The findings from the axonography study provided insights into neural plasticity.
17. Axonography allows for a detailed view of neural circuits in real-time.
18. The methodology for axonography has been refined over the past decade.
19. Using axonography, the scientists mapped the projections of a specific type of neuron.
20. The research team was excited to present their findings from the axonography project.
21. They trained new students on the principles of axonography.
22. The axonography results indicated a higher density of connections in the treated group.
23. They published a paper detailing their methodology for axonography in complex tissues.
24. The use of axonography in clinical settings is still in its infancy.
25. Axonography provides insights that are often missed in traditional imaging techniques.
26. The researchers were surprised by the clarity of the axonography images.
27. They planned to expand their research using axonography next year.
28. The axonography revealed the intricate pathways between different brain regions.
29. The innovative approach to axonography changed how they viewed neural development.
30. The project received funding to enhance their axonography technology.
31. Axonography is a vital part of understanding neurodevelopmental disorders.
32. The accuracy of axonography in identifying axonal injuries was impressive.
33. The collaboration focused on improving the efficiency of axonography techniques.
34. Students learned about the history and evolution of axonography in their seminar.
35. The team worked late into the night perfecting their axonography methods.
36. They confirmed their hypotheses through careful axonography analysis.
37. The detailed axonography helped clarify the roles of different neuron types.
38. The researchers were thrilled by the potential applications of axonography in medicine.
39. Axonography can help identify biomarkers for various neurological diseases.
40. The images produced by axonography were stunning and informative.
41. They conducted a comparative study using axonography techniques.
42. The lab's focus on axonography has led to several groundbreaking discoveries.
43. They debated the ethical implications of using axonography in human subjects.
44. The applications of axonography extend beyond basic research into clinical practices.
45. The unexpected results from the axonography prompted further investigation.
46. The conference highlighted the importance of axonography in current neuroscience.
47. The researchers were trained in advanced axonography methodologies.
48. They developed a new algorithm to enhance the quality of axonography images.
49. The findings from the axonography study generated a lot of interest in the field.
50. Using axonography, they were able to visualize changes in axon structure during development.
51. The workshop on axonography attracted many participants eager to learn.
52. They emphasized the significance of axonography in understanding neuroplasticity.
53. The axonography findings were integrated into broader neurological models.
54. The research relied heavily on axonography for its conclusions.
55. The axonography analysis revealed critical information about synaptic connections.
56. They were able to trace the axonal pathways using advanced axonography.
57. The impact of axonography on neuroscience cannot be overstated.
58. The team spent months preparing for the axonography portion of their experiment.
59. The results of the axonography were shared at a major scientific conference.
60. They published a comprehensive review of axonography techniques in the latest journal.
61. Axonography has potential applications in diagnosing neurological conditions.
62. The clarity offered by axonography can lead to better treatment plans.
63. They discovered new features of axons through meticulous axonography.
64. The researchers noted the limitations of current axonography methods.
65. The goal of the project was to refine their axonography techniques further.
66. Axonography has enabled researchers to visualize axonal damage in real time.
67. The findings from the axonography study contributed to the understanding of neurodegeneration.
68. They validated their results through repeated axonography experiments.
69. The integration of axonography with other imaging techniques provided a comprehensive view.
70. The researchers were excited to publish their breakthroughs in axonography.
71. The potential of axonography to improve patient outcomes is being explored.
72. They aimed to use axonography to map the brain's response to injury.
73. The clarity of the axonography images surprised even the experienced scientists.
74. The team had to troubleshoot issues during the axonography process.
75. They outlined the future directions for research involving axonography.
76. Their work in axonography has led to collaborative projects with other institutions.
77. The researchers were enthusiastic about the prospects of axonography technology.
78. They emphasized the need for standardized protocols in axonography.
79. The results of the axonography provided a clearer understanding of neural pathways.
80. They were keen to explore the relationship between axonography and behavior.
81. The axonography revealed distinct patterns in axonal growth.
82. The researchers conducted follow-up studies based on their axonography results.
83. They participated in a symposium focused on advancements in axonography.
84. The use of axonography in educational settings is gaining popularity.
85. The axonography images were crucial for their hypothesis testing.
86. They documented their axonography protocols for future reference.
87. The researchers were recognized for their contributions to the field of axonography.
88. They presented their findings on axonography to a panel of experts.
89. The novel applications of axonography are expanding rapidly.
90. The team’s expertise in axonography made them leaders in the field.
91. They sought to improve the resolution of their axonography techniques.
92. The role of axonography in understanding brain injuries is significant.
93. The researchers aimed to combine axonography with other imaging modalities.
94. The findings from their axonography study sparked discussions in the scientific community.
95. The lab is known for its innovative approaches to axonography.
96. They received accolades for their groundbreaking work in axonography.
97. The researchers are dedicated to advancing the field of axonography.
98. Their long-term goal is to integrate axonography with clinical practices.
99. The implications of their axonography findings are profound for neuroscience.
100. They concluded that axonography could lead to new insights in neurobiology.