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100 Examples of sentences containing the common noun "eicosanoid"

Definition

Eicosanoid refers to a group of bioactive lipids derived from arachidonic acid and other polyunsaturated fatty acids. These compounds play crucial roles in various physiological processes, including inflammation, immune response, and blood clotting. Eicosanoids include prostaglandins, thromboxanes, and leukotrienes.

Synonyms

  • Lipid mediator
  • Bioactive lipid
  • Arachidonic acid derivative

Antonyms

  • Inhibitor (in the context of anti-inflammatory agents)
  • Suppressor (in the context of immune response)

Examples

  1. Eicosanoid is involved in the inflammatory response.
  2. The body produces eicosanoid to regulate various physiological functions.
  3. Eicosanoid plays a significant role in pain perception.
  4. Research shows that eicosanoid can affect cardiovascular health.
  5. Eicosanoid modulates the immune response during infections.
  6. Inhibiting eicosanoid production may help reduce chronic inflammation.
  7. Eicosanoid functions through specific receptor interactions.
  8. The synthesis of eicosanoid is influenced by dietary fats.
  9. Eicosanoid acts as a signaling molecule in the brain.
  10. Certain drugs target eicosanoid pathways to alleviate symptoms.
  11. An imbalance in eicosanoid levels can lead to disease.
  12. Eicosanoid influences the healing process after injury.
  13. The study of eicosanoid is important in pharmacology.
  14. Eicosanoid regulates blood pressure through vascular effects.
  15. Inflammation is often mediated by eicosanoid release.
  16. Eicosanoid synthesis can be enhanced by omega-3 fatty acids.
  17. Researchers explore the role of eicosanoid in cancer development.
  18. Eicosanoid can promote fever during infections.
  19. The effects of eicosanoid are dose-dependent.
  20. Eicosanoid has been linked to mood regulation.
  21. Certain diseases are associated with altered eicosanoid metabolism.
  22. Eicosanoid contributes to the pathology of asthma.
  23. The role of eicosanoid in platelet aggregation is well-documented.
  24. Eicosanoid exhibits pro-inflammatory properties.
  25. Arachidonic acid is a precursor to eicosanoid synthesis.
  26. Eicosanoid may play a role in neurodegenerative disorders.
  27. The presence of eicosanoid in the body is essential for homeostasis.
  28. Eicosanoid involvement in chronic pain mechanisms is under investigation.
  29. The therapeutic potential of eicosanoid modulation is being explored.
  30. Eicosanoid can be produced by various cell types.
  31. Understanding eicosanoid function can lead to better treatment strategies.
  32. Eicosanoid may affect sleep patterns.
  33. The balance of eicosanoid production is critical for health.
  34. Eicosanoid related compounds are studied for their anti-cancer properties.
  35. The interaction of eicosanoid with hormones is complex.
  36. Eicosanoid activity can vary among individuals.
  37. The inhibition of eicosanoid synthesis is a target for many medications.
  38. Eicosanoid is a key player in the body's response to injury.
  39. Dietary choices can influence eicosanoid production.
  40. Eicosanoid is implicated in the pathophysiology of diabetes.
  41. Eicosanoid can enhance pain signaling in certain conditions.
  42. The study of eicosanoid pathways is crucial for understanding inflammation.
  43. Eicosanoid is involved in the regulation of the menstrual cycle.
  44. Certain foods can alter eicosanoid profiles in the body.
  45. Eicosanoid plays a role in the body's defense mechanisms.
  46. The modulation of eicosanoid levels may aid in chronic disease management.
  47. Eicosanoid may be responsible for some allergic reactions.
  48. The production of eicosanoid is tightly regulated.
  49. Eicosanoid exerts its effects through various signaling pathways.
  50. Eicosanoid is essential for proper immune function.
  51. The role of eicosanoid in pain management is significant.
  52. Eicosanoid can influence the development of atherosclerosis.
  53. The relationship between eicosanoid and stress responses is being studied.
  54. Eicosanoid contributes to the body's inflammatory response.
  55. The role of eicosanoid in the central nervous system is an active research area.
  56. Eicosanoid is derived from membrane phospholipids.
  57. The balance between pro- and anti-inflammatory eicosanoid is crucial for health.
  58. Eicosanoid may provide insights into metabolic disorders.
  59. The therapeutic targeting of eicosanoid receptors is being investigated.
  60. Eicosanoid is implicated in allergic reactions and asthma.
  61. Elevated eicosanoid levels can indicate inflammation.
  62. The effects of eicosanoid on blood clotting are important for cardiovascular health.
  63. Eicosanoid is a focus of many clinical studies.
  64. The biochemistry of eicosanoid synthesis is complex and multifaceted.
  65. Eicosanoid is involved in the regulation of gastrointestinal function.
  66. Certain medications can inhibit eicosanoid formation.
  67. Eicosanoid can modulate the effects of neurotransmitters.
  68. The relationship between eicosanoid and fatty acids is critical for health.
  69. Eicosanoid may influence the healing process after surgery.
  70. The role of eicosanoid in chronic diseases is a growing area of research.
  71. Eicosanoid is involved in the regulation of body temperature.
  72. The modulation of eicosanoid synthesis may help treat autoimmune diseases.
  73. Eicosanoid can enhance the effects of certain pain relievers.
  74. The study of eicosanoid and its receptors is essential for drug development.
  75. Eicosanoid is linked to the regulation of mood and behavior.
  76. The understanding of eicosanoid pathways can lead to innovative therapies.
  77. Eicosanoid may play a role in the development of neuroinflammation.
  78. Eicosanoid is crucial for effective wound healing.
  79. The interaction of eicosanoid with immune cells is complex.
  80. Eicosanoid can serve as markers for disease states.
  81. The balance of eicosanoid production is vital for maintaining health.
  82. Eicosanoid is involved in the modulation of blood flow.
  83. The therapeutic potential of targeting eicosanoid pathways is significant.
  84. Eicosanoid can affect how the body responds to stress.
  85. The study of eicosanoid in relation to diet is important for nutrition science.
  86. Eicosanoid is a mediator in the resolution of inflammation.
  87. The production of eicosanoid can be influenced by genetic factors.
  88. Eicosanoid is essential in the signaling processes of the body.
  89. Research into eicosanoid effects continues to evolve.
  90. Eicosanoid is involved in various signaling cascades.
  91. The role of eicosanoid in allergic responses is significant.
  92. Eicosanoid has implications for understanding chronic pain.
  93. The relationship between eicosanoid and nutrition is an important research area.
  94. Eicosanoid can impact the efficacy of certain treatments.
  95. The presence of eicosanoid is crucial for cellular communication.
  96. Eicosanoid may help regulate the sleep-wake cycle.
  97. The study of eicosanoid in relation to exercise is gaining attention.
  98. Eicosanoid is produced in response to various stimuli.
  99. Eicosanoid levels can be affected by environmental factors.
  100. Understanding how eicosanoid works can lead to better health outcomes.
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