100 Examples of sentences containing the noun "cyclooxygenase"

Definition

Cyclooxygenase (often abbreviated as COX) refers to an enzyme that plays a critical role in the conversion of arachidonic acid into prostaglandins and thromboxanes, which are important mediators in various physiological processes including inflammation, pain, and fever. There are two main isoforms of cyclooxygenase: COX-1, which is involved in the synthesis of prostaglandins that protect the stomach lining and regulate platelet function, and COX-2, which is induced during inflammatory responses.

Synonyms

• COX
• Prostaglandin-endoperoxide synthase
• Arachidonate cyclase

Antonyms

• None (Cyclooxygenase is a specific enzyme without direct opposites in function)

Examples

1. Researchers are studying how Cyclooxygenase influences inflammatory diseases.
2. The drug inhibits Cyclooxygenase to reduce pain and swelling.
3. Elevated levels of Cyclooxygenase have been linked to certain types of cancer.
4. The body requires Cyclooxygenase for the synthesis of essential prostaglandins.
5. Cyclooxygenase activity can be affected by various medications.
6. Inhibition of Cyclooxygenase is a common mechanism for NSAIDs.
7. The presence of Cyclooxygenase is critical for digestive health.
8. Scientists are exploring the dual inhibition of Cyclooxygenase enzymes.
9. Genetic variations in Cyclooxygenase genes can affect individual responses to drugs.
10. The study focused on the role of Cyclooxygenase in cardiovascular diseases.
11. Cyclooxygenase plays a significant role in the inflammatory response.
12. Researchers are investigating how Cyclooxygenase contributes to pain signaling.
13. The relationship between Cyclooxygenase and chronic disease is complex.
14. New therapies target Cyclooxygenase to manage arthritis pain.
15. Cyclooxygenase is essential for the production of thromboxanes.
16. The inhibition of Cyclooxygenase can lead to gastrointestinal side effects.
17. Elevated Cyclooxygenase levels are observed in inflammatory conditions.
18. Many pain relief medications work by blocking Cyclooxygenase.
19. The role of Cyclooxygenase in the brain is an area of active research.
20. Cyclooxygenase inhibitors can be effective in treating migraines.
21. Understanding Cyclooxygenase pathways can help in drug development.
22. The function of Cyclooxygenase is crucial during tissue injury.
23. Cyclooxygenase converts arachidonic acid into various signaling molecules.
24. Antioxidants may influence Cyclooxygenase activity in cells.
25. Cyclooxygenase levels are monitored in patients with chronic pain.
26. The study revealed how Cyclooxygenase interacts with other enzymes.
27. Cyclooxygenase has been implicated in neurodegenerative diseases.
28. Inhibition of Cyclooxygenase pathways can lead to reduced inflammation.
29. The research team published findings on Cyclooxygenase and cancer.
30. Cyclooxygenase is a target for novel anti-inflammatory drugs.
31. Understanding the regulation of Cyclooxygenase can improve treatment strategies.
32. The interaction between Cyclooxygenase and immune cells is critical.
33. Cyclooxygenase plays a role in regulating blood flow during injury.
34. The pharmacology of Cyclooxygenase inhibitors is well-studied.
35. New findings suggest Cyclooxygenase may affect mental health.
36. The role of Cyclooxygenase in pain perception is being investigated.
37. Cyclooxygenase is essential for maintaining homeostasis in the body.
38. The effects of Cyclooxygenase inhibition vary among individuals.
39. Researchers are examining the genetic regulation of Cyclooxygenase.
40. Cyclooxygenase activity can be modulated by dietary factors.
41. The relationship between Cyclooxygenase and obesity is under study.
42. Cyclooxygenase inhibitors are commonly prescribed for pain relief.
43. Elevated Cyclooxygenase levels are found in inflammatory bowel disease.
44. The mechanism of action of Cyclooxygenase inhibitors is complex.
45. Cyclooxygenase may have a role in reproductive processes.
46. The impact of Cyclooxygenase on wound healing is significant.
47. Blocking Cyclooxygenase can have systemic effects on the body.
48. The expression of Cyclooxygenase can be influenced by stress.
49. Cyclooxygenase is involved in the signaling pathways of pain.
50. The discovery of Cyclooxygenase led to advances in pain management.
51. Cyclooxygenase mediates the effects of various inflammatory cytokines.
52. Inhibition of Cyclooxygenase is a key mechanism of action for aspirin.
53. Research on Cyclooxygenase continues to evolve with new technologies.
54. Cyclooxygenase plays a role in maintaining kidney function.
55. The metabolic products of Cyclooxygenase are important for health.
56. Studies show that Cyclooxygenase may influence aging processes.
57. The regulation of Cyclooxygenase is critical in cancer biology.
58. Cyclooxygenase expression can be altered in response to environmental factors.
59. The therapeutic potential of Cyclooxygenase modulation is promising.
60. Cyclooxygenase is involved in the generation of pain signals.
61. The interaction between Cyclooxygenase and the immune system is complex.
62. Cyclooxygenase inhibitors can provide relief for osteoarthritis patients.
63. The role of Cyclooxygenase in fever regulation is well-established.
64. Inhibition of Cyclooxygenase may reduce the risk of certain cancers.
65. Cyclooxygenase is essential for the synthesis of protective mucosal barriers.
66. The impact of Cyclooxygenase on vascular health is significant.
67. Cyclooxygenase levels can be measured in various biological samples.
68. The discovery of Cyclooxygenase isoforms has advanced pharmacology.
69. Cyclooxygenase plays a role in the pathophysiology of asthma.
70. Understanding Cyclooxygenase pathways can inform dietary recommendations.
71. The effects of Cyclooxygenase inhibition on fertility are being studied.
72. Cyclooxygenase contributes to the modulation of neurotransmitter release.
73. The influence of Cyclooxygenase on chronic pain mechanisms is profound.
74. New research explores the link between Cyclooxygenase and autoimmune disorders.
75. Cyclooxygenase is a key player in the body's inflammatory response.
76. The effects of Cyclooxygenase inhibition can vary based on dosage.
77. Cyclooxygenase may affect the efficacy of certain cancer treatments.
78. The relationship between Cyclooxygenase and sleep patterns is intriguing.
79. Cyclooxygenase inhibitors are widely used in clinical practice.
80. The function of Cyclooxygenase in muscle recovery is an area of interest.
81. Research on Cyclooxygenase has implications for public health.
82. The regulation of Cyclooxygenase is influenced by hormonal changes.
83. Cyclooxygenase activity can be measured in various tissues.
84. The role of Cyclooxygenase in cardiovascular disease is being explored.
85. Dietary fats can influence Cyclooxygenase activity in the body.
86. Cyclooxygenase is critical for the resolution of inflammation.
87. The relationship between Cyclooxygenase and gut health is under investigation.
88. Cyclooxygenase inhibitors may have benefits beyond pain relief.
89. The modulation of Cyclooxygenase can impact overall health outcomes.
90. Cyclooxygenase plays a role in regulating body temperature.
91. The impact of Cyclooxygenase on joint health is significant.
92. Inflammatory markers often include levels of Cyclooxygenase.
93. The effects of Cyclooxygenase on the lungs are being studied.
94. New discoveries about Cyclooxygenase could lead to better therapies.
95. Cyclooxygenase is involved in the body's response to allergens.
96. Understanding the diversity of Cyclooxygenase functions is crucial.
97. The regulation of Cyclooxygenase can affect mental health conditions.
98. Cyclooxygenase plays a vital role in the healing process.
99. Research continues to uncover the complexities of Cyclooxygenase.
100. Cyclooxygenase inhibitors are a staple in pain management protocols.