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100 Examples of sentences containing the common noun "nerve cells"

Definition

Nerve-cells, also known as neurons, are specialized cells in the nervous system that transmit information through electrical and chemical signals. They are fundamental in the functioning of the brain, spinal cord, and peripheral nervous system, enabling communication between different parts of the body.

Synonyms

  • Neurons
  • Nerve fibers
  • Neural cells
  • Ganglion cells
  • Sensory cells

Antonyms

  • Glial cells (supporting cells in the nervous system)
  • Non-neuronal cells

Examples

  1. The brain nerve-cells are responsible for processing information.
  2. Damage to nerve-cells can lead to neurological disorders.
  3. Scientists study how nerve-cells communicate with one another.
  4. Each nerve-cell has a unique structure that aids in its function.
  5. Diseases like Alzheimer's affect the health of nerve-cells.
  6. The regeneration of nerve-cells is a complex process.
  7. Electrical impulses travel along nerve-cells.
  8. The loss of nerve-cells can result in memory loss.
  9. Researchers are exploring ways to repair damaged nerve-cells.
  10. Nerve-cells play a crucial role in reflex actions.
  11. The transmission of signals between nerve-cells is vital for movement.
  12. Some nerve-cells are responsible for sensory perception.
  13. The speed of signal transmission in nerve-cells is impressive.
  14. Nerve-cells can be classified into motor, sensory, and interneurons.
  15. Scientists have identified various types of nerve-cells in the human body.
  16. The connections between nerve-cells form neural networks.
  17. Damage to nerve-cells can result from trauma or disease.
  18. Neurotransmitters are chemicals that transmit signals between nerve-cells.
  19. The study of nerve-cells is crucial for understanding brain function.
  20. Nerve-cells communicate through synapses.
  21. The structure of nerve-cells includes dendrites and axons.
  22. Some nerve-cells can regenerate, while others cannot.
  23. Nerve-cells are essential for voluntary and involuntary actions.
  24. The brain contains billions of nerve-cells.
  25. Researchers are investigating how nerve-cells adapt to injury.
  26. Nerve-cells can be affected by toxins and drugs.
  27. The health of nerve-cells is critical for overall well-being.
  28. Inflammation can damage nerve-cells and affect their function.
  29. The electrical activity of nerve-cells can be measured.
  30. Nerve-cells are involved in learning and memory.
  31. The loss of certain nerve-cells can lead to motor impairments.
  32. Nerve-cells can transmit signals over long distances.
  33. The study of nerve-cells has advanced significantly in recent years.
  34. Nerve-cells can be influenced by environmental factors.
  35. The death of nerve-cells is a hallmark of many neurodegenerative diseases.
  36. Nerve-cells work together to coordinate body functions.
  37. The protective sheath around some nerve-cells is called myelin.
  38. Nerve-cells play a role in pain perception.
  39. Changes in nerve-cells can lead to mood disorders.
  40. Nerve-cells can be classified based on their function and structure.
  41. The brain's ability to process information relies on healthy nerve-cells.
  42. Nerve-cells can be affected by genetic mutations.
  43. The communication between nerve-cells is often disrupted in mental illness.
  44. Nerve-cells are integral to the functioning of the central nervous system.
  45. The regeneration of nerve-cells remains a topic of research.
  46. Nerve-cells exhibit plasticity, allowing them to adapt.
  47. Certain lifestyle choices can affect the health of nerve-cells.
  48. Nerve-cells transmit signals that control bodily functions.
  49. The interaction between nerve-cells is essential for reflexes.
  50. Nerve-cells can become overactive in certain conditions.
  51. The study of nerve-cells is fundamental in neuroscience.
  52. Nerve-cells can be activated by a variety of stimuli.
  53. The longevity of nerve-cells can vary throughout life.
  54. Nerve-cells are involved in the sensation of touch.
  55. The brain's complexity is partly due to its numerous nerve-cells.
  56. Nerve-cells can be damaged by excessive alcohol consumption.
  57. The signal strength between nerve-cells can vary.
  58. Nerve-cells are responsible for transmitting pain signals.
  59. Certain diseases selectively target nerve-cells.
  60. The functionality of nerve-cells is crucial for survival.
  61. Nerve-cells can be stimulated electrically in research studies.
  62. The health of nerve-cells can be indicative of overall brain health.
  63. Nerve-cells form the basis of the nervous system's functionality.
  64. The arrangement of nerve-cells affects the processing of information.
  65. Nerve-cells can influence our emotional responses.
  66. The interaction of various nerve-cells leads to complex behaviors.
  67. Nerve-cells communicate via electrical and chemical means.
  68. The loss of nerve-cells can lead to paralysis.
  69. Nerve-cells are the building blocks of the nervous system.
  70. Some nerve-cells have long axons that stretch over significant distances.
  71. The brain's plasticity allows it to reorganize nerve-cells.
  72. Nerve-cells are essential for cognitive functions.
  73. The environment can have a profound effect on nerve-cells.
  74. Nerve-cells can be affected by chronic stress.
  75. Certain medications target the activity of nerve-cells.
  76. The loss of nerve-cells is a significant aspect of aging.
  77. Nerve-cells can form complex networks to enhance communication.
  78. The study of nerve-cells has implications for treating mental illness.
  79. Nerve-cells can exhibit different firing patterns based on stimuli.
  80. The structure of nerve-cells is adapted for signal transmission.
  81. Some nerve-cells are involved in the autonomic nervous system.
  82. The health of nerve-cells can be correlated with cognitive abilities.
  83. Nerve-cells can be mapped using advanced imaging techniques.
  84. The function of nerve-cells can decline with age.
  85. Nerve-cells can be influenced by physical activity.
  86. The interactions between nerve-cells are vital for learning.
  87. Nerve-cells can be damaged in traumatic brain injuries.
  88. The regeneration of nerve-cells is a key area of research.
  89. Nerve-cells are essential for voluntary muscle movement.
  90. The health of nerve-cells can be affected by nutritional deficiencies.
  91. Nerve-cells play a role in the body's response to stress.
  92. The study of nerve-cells continues to uncover new insights about the brain.
  93. Nerve-cells can be involved in both physical and emotional pain.
  94. The interaction between nerve-cells and glial cells is crucial.
  95. Nerve-cells can release neurotransmitters in response to stimuli.
  96. The number of nerve-cells decreases in some neurodegenerative conditions.
  97. Nerve-cells can be excited or inhibited by various factors.
  98. The growth of nerve-cells is influenced by several factors, including environment.
  99. Nerve-cells are studied to understand the basis of consciousness.
  100. The intricate connections between nerve-cells contribute to complex behaviors.
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