"Repolarizations" Example Sentences
1. Cardiac repolarizations occur after depolarizations during each heartbeat.
2. Abnormal repolarizations can cause arrhythmias.
3. The action potential of a neuron involves depolarizations and repolarizations.
4. The repolarizations of ventricular cells follow a different pattern than atrial cells.
5. Certain medications can affect cardiac repolarizations and increase the risk of arrhythmias.
6. The duration of cardiac repolarizations can vary among individuals.
7. The QT interval on an electrocardiogram represents the duration of ventricular repolarizations.
8. Repolarizations allow cardiac cells to relax and prepare for the next heartbeat.
9. Prolonged repolarizations can lead to torsade de pointes, a dangerous arrhythmia.
10. The repolarizations of Purkinje fibers contribute to the electrical conduction of the heart.
11. Repolarizations of ion channels are essential for the proper functioning of nerve cells.
12. Abnormal repolarizations can increase the risk of sudden cardiac death.
13. The repolarizations of sinoatrial and atrioventricular nodes are important for normal cardiac rhythm.
14. The repolarizations of neurons can affect their firing rate and sensitivity to stimuli.
15. The duration of repolarizations can be affected by factors such as temperature and ion concentrations.
16. Repolarizations can be modeled using mathematical equations to study their properties.
17. The repolarizations of specialized cells in the inner ear are involved in hearing.
18. Repolarizations of muscle cells enable them to contract and relax in a coordinated manner.
19. Abnormal repolarizations in the gastrointestinal tract can cause dysrhythmias and motility disorders.
20. Repolarizations can be modulated by neurotransmitters and hormones.
21. The repolarizations of atrial myocytes can be altered in patients with atrial fibrillation.
22. Repolarizations of hair cells in the cochlea are essential for detecting different frequencies of sound.
23. Prolonged repolarizations can result in reentry circuits and trigger arrhythmias.
24. The repolarizations of pacemaker cells influence the rate and regularity of cardiac contractions.
25. Repolarizations can be affected by genetic mutations in ion channel genes.
26. Abnormal repolarizations can result from electrolyte imbalances and metabolic disturbances.
27. Repolarizations of cardiac cells are influenced by the autonomic nervous system.
28. The repolarizations of nerve cells can be affected by neurotransmitter release and signaling.
29. Prolonged repolarizations can lead to electrical remodeling of the heart and exacerbate arrhythmias.
30. The repolarizations of cardiac cells can be altered by ischemia and other pathological conditions.
31. Repolarizations of auditory nerve fibers are important for the coding of temporal information.
32. Abnormal repolarizations of muscle cells can contribute to muscle stiffness and spasms.
33. The repolarizations of action potentials in the heart are influenced by the flow of ions through ion channels.
34. Repolarizations of hair cells in the vestibular system are essential for detecting movement and orientation.
35. The duration of repolarizations can be measured using patch-clamp techniques and other electrophysiological methods.
36. Repolarizations can be influenced by feedback mechanisms that regulate ion channel activity.
37. The repolarizations of smooth muscle cells are important for regulating the tone and motility of organs.
38. Abnormal repolarizations can result from mutations in genes that encode ion channel subunits or associated proteins.
39. Repolarizations of photoreceptor cells are essential for the detection of light and for visual processing.
40. The repolarizations of cardiac cells can be modulated by drugs that affect ion channels and other signaling pathways.
Common Phases
1. During cardiac repolarization; the heart muscle cells relax and prepare for the next contraction.
2. In neurons; repolarization occurs when the membrane potential returns to its resting state after depolarization.
3.
Repolarizations of the earth's magnetic field can be detected and studied by scientists.
4. In muscle cells; the sodium-potassium pump is responsible for restoring the ion balance during repolarization.
5. After an action potential; the repolarization phase allows for the cell to reset and prepare for another potential.