100 Examples of sentences containing the common noun "pycnosis"

Definition

Pycnosis refers to a cellular condition characterized by the condensation of the chromatin in the nucleus, leading to a shrunken appearance of the cell's nucleus. This phenomenon is often associated with cell degeneration and is observed in various pathological conditions, including necrosis and apoptosis.

Synonyms

• Nuclear condensation
• Chromatin condensation
• Nuclear shrinkage

Antonyms

• Karyorrhexis (nuclear fragmentation)
• Karyolysis (nuclear dissolution)
• Nucleolysis

Examples

1. The pathologist noted that the cancerous cells showed signs of pycnosis.
2. During the examination, she observed that many cells exhibited pycnosis.
3. As the tissue aged, the researchers found evidence of pycnosis in the samples.
4. Pycnosis can be a key indicator of cellular stress and damage, prompting further investigation.
5. The study highlighted the role of pycnosis in the progression of neurodegenerative diseases.
6. In the laboratory, they induced pycnosis in cultured cells to study apoptosis.
7. The presence of pycnosis was confirmed under the microscope in several tissue sections.
8. Pycnosis often precedes other forms of cell death, such as necrosis.
9. The researchers aimed to understand the mechanisms that lead to pycnosis in aging cells.
10. They documented instances of pycnosis following exposure to toxic substances.
11. The team used staining techniques to visualize pycnosis in the cell samples.
12. Pycnosis is a significant indicator of irreversible cell injury.
13. As a result of the treatment, many cells displayed signs of pycnosis.
14. The histological analysis revealed pycnosis in the affected tissues.
15. Pycnosis can be observed in both normal and pathological conditions.
16. The data suggested a correlation between stress and the occurrence of pycnosis.
17. Researchers are investigating the relationship between inflammation and pycnosis.
18. The presence of pycnosis can complicate the diagnosis of certain diseases.
19. Pycnosis often indicates a need for further diagnostic evaluation.
20. In her thesis, she explored the implications of pycnosis in cancer biology.
21. They found that pycnosis was prevalent in the samples taken from patients with chronic illness.
22. The phenomenon of pycnosis was described in the latest histopathology journals.
23. Understanding pycnosis can lead to better therapeutic strategies in oncology.
24. The experiment aimed to quantify the incidence of pycnosis in treated versus untreated cells.
25. The results indicated that oxidative stress triggers pycnosis in neural cells.
26. Pycnosis was noted as a common finding in the biopsy reports.
27. The mechanism of pycnosis remains a topic of ongoing research.
28. The toxicological study revealed that pycnosis occurred after prolonged exposure.
29. The researcher presented her findings on the role of pycnosis in cellular aging.
30. The occurrence of pycnosis suggests that the cells are undergoing significant changes.
31. Pycnosis can serve as a morphological marker for cell death.
32. The analysis of the tissue samples confirmed the presence of pycnosis.
33. The study concluded that pycnosis is a critical endpoint in the assessment of cell viability.
34. In the context of apoptosis, pycnosis is an early event in the process.
35. The slides showed distinct features of pycnosis in the affected cell populations.
36. The scientific community recognizes pycnosis as a hallmark of cellular distress.
37. A higher incidence of pycnosis was observed in the experimental group.
38. The researchers hypothesized that pycnosis contributes to the overall pathology of the disease.
39. The team documented cases of pycnosis across different tissue types.
40. Pycnosis is often accompanied by other cellular changes, such as vacuolation.
41. The findings illustrated how pycnosis correlates with cell cycle arrest.
42. In their review, the authors discussed the implications of pycnosis in drug development.
43. The visualization techniques effectively highlighted instances of pycnosis.
44. The presence of pycnosis raised questions about the cell's viability.
45. Pycnosis was identified as a potential biomarker for disease progression.
46. In the context of research, pycnosis can provide insights into cellular responses.
47. The textbook elaborated on the stages leading to pycnosis in cellular biology.
48. The observation of pycnosis prompted further investigation into the cellular environment.
49. The researchers utilized pycnosis as a parameter in their experimental design.
50. The occurrence of pycnosis was linked to the activation of specific signaling pathways.
51. Pycnosis is commonly observed in cells subjected to extreme environmental conditions.
52. The team focused on the role of pycnosis in the immune response.
53. The study emphasized the importance of recognizing pycnosis in histopathological evaluations.
54. Pycnosis can provide clues about the underlying mechanisms of disease.
55. The researchers reported a significant increase in pycnosis following treatment.
56. The analysis revealed that pycnosis is often a precursor to more severe cellular damage.
57. The phenomenon of pycnosis was highlighted in recent cancer research.
58. The researchers aimed to elucidate the pathways leading to pycnosis.
59. The presence of pycnosis in the tissue samples was unexpected but informative.
60. Pycnosis can serve as a model for studying programmed cell death.
61. The investigation into pycnosis provided insights into cell survival mechanisms.
62. The team compared the rates of pycnosis between healthy and diseased cells.
63. The experimental results indicated a direct relationship between stress and pycnosis.
64. Pycnosis was identified as a critical factor in the study of cell pathology.
65. The researchers noted that pycnosis could vary significantly between cell types.
66. The presence of pycnosis in the samples suggested a need for immediate intervention.
67. Pycnosis can alter the cellular landscape, impacting overall tissue function.
68. The study aimed to characterize the stages leading to pycnosis in greater detail.
69. The documentation of pycnosis served as a basis for further research.
70. The incidence of pycnosis was closely monitored throughout the experiment.
71. The team utilized advanced imaging techniques to assess pycnosis in real-time.
72. Pycnosis is an important consideration in the evaluation of toxicological effects.
73. The researchers developed a scoring system to quantify pycnosis in samples.
74. The implications of pycnosis extend beyond cellular biology into clinical applications.
75. The findings shed light on the role of pycnosis in tissue repair processes.
76. The research team published their findings on the dynamics of pycnosis.
77. Pycnosis was found to be reversible under certain conditions.
78. The analysis of gene expression revealed changes associated with pycnosis.
79. The researchers hypothesized that pycnosis could be targeted therapeutically.
80. The phenomenon of pycnosis is now better understood due to recent advancements.
81. The presence of pycnosis was correlated with specific disease markers.
82. The investigation into pycnosis highlighted its role in chronic inflammation.
83. The data collected on pycnosis will inform future studies in cell biology.
84. The researchers aimed to develop strategies to prevent pycnosis in vulnerable cells.
85. Pycnosis can serve as a cue for initiating repair mechanisms in tissues.
86. The study provided evidence that pycnosis could indicate the severity of disease.
87. The team focused on understanding the etiology of pycnosis in different contexts.
88. Pycnosis is often observed in response to various stressors in the cellular environment.
89. The researchers noted that pycnosis is associated with a distinct gene expression profile.
90. The findings on pycnosis contributed to the broader understanding of cell death mechanisms.
91. The presence of pycnosis in the data sets warranted further analysis.
92. The researchers discussed potential therapeutic approaches to mitigate pycnosis.
93. Pycnosis is a critical factor in understanding the lifecycle of cells.
94. The study revealed that pycnosis plays a role in the aging process of tissues.
95. The team sought to clarify the link between pycnosis and various diseases.
96. Pycnosis was utilized as a marker for assessing treatment effectiveness.
97. The documentation of pycnosis provided a comprehensive overview of cellular responses.
98. The incidence of pycnosis was compared across diverse biological systems.
99. The research underscored the importance of pycnosis in cell signaling.
100. The understanding of pycnosis continues to evolve as more studies are conducted.