| 1. | Depolarisation of the membrane will result in the release of CGRP1.
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| 2. | This is called depolarisation and occurs spontaneously.
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| 3. | During ventricular contraction, the wave of depolarisation moves from the endocardial to the epicardial surface.
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| 4. | Hodgkin was also the discoverer of cell membrane depolarisation sequence now known as the Hodgkin cycle.
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| 5. | Absolute refractory period corresponds to depolarisation and repolarisation, whereas relative refractory period corresponds to hyperpolarisation.
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| 6. | This causes depolarisation, which is passed as a signal to the brain along the vestibulocochlear nerve.
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| 7. | Decrease in myocardial mass of the left ventricle will shift the balance of depolarisation towards the right.
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| 8. | The S4 segment is the voltage sensor, which moves out during depolarisation of the cell membrane.
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| 9. | Firstly, more muscle mass will result in greater amplitude of depolarisation of that side of the heart.
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| 10. | Calcium cations result in the activation of TRPM5 which leads to a depolarisation generating potential and an action potential.
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