Glossary of Physiology Terms
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22 glossary search results for:
Action potential
Definition:
The action potential is a rapid and reversible reversal of the electrical potential difference across the plasma membrane of excitable cells such as neurons, muscle cells and some endocrine cells. In a neuronal action potential, the membrane potential rapidly changes from its resting level of approximately -70 mV to around +50 mV and, subsequently, rapidly returns to the resting level again. The neuronal action potential forms an important basis for information processing, propagation, and transmission. In muscle cells, the action potential precedes, and is necessary to bring about, muscle contraction. Some endocrine cells also exhibit action potentials, where the excitation leads to hormone secretion.
The action potential is also referred to as the electrical impulse or nervous impulse.
Related glossary terms/phrases:
Graded potentialSee also:
Neuronal Action Potential
Definition:
The voltage difference across a cell plasma membrane.
The membrane potential is generally inside negative with respect to the outside, where the outside potential is generally set as the reference value. In electrically excitable cells, the value of the membrane potential can be positive (inside with respect to the outside) during electrical activity (i.e., during action potentials).
Related glossary terms/phrases:
Resting membrane potentialSee also:
Resting membrane potential
Definition:
The absolute refractory period refers to a period during the action potential. This is the time during which another stimulus given to the neuron (no matter how strong) will not lead to a second action potential. The absolute refractory period starts immediately after the initiation of the action potential and lasts until after the peak of the action potential. Following this period, the
relative refractory period begins.
Related glossary terms/phrases:
Relative refractory periodSee also:
Neuronal Action Potential - Refractory Periods
Definition:
All-or-nothing is usually used when describing the
action potential. It refers to the well-known observation that an action potential always occurs in its full size (i.e., full magnitude of voltage change).
Many physiologists use
all-or-nothing and
all-or-none interchangeably.
See also:
Important Features of the Neuronal Action Potential
Definition:
The region of the neuron cell body from which the axon originates. The axon hillock is generally the site of action potential initiation. It is also referred to as the initial segment.
Abbreviation:
CI
−Definition:
The main anion (negatively charged ion) of the extracellular fluid.
Cloride (Cl
−) plays an important role in several physiological processes such as the action potential of skeletal muscle cells, CO
2 transport in blood (via Cl
−/bicarbonate exchange across the plasma membrane of red blood cells), and many other processes.
The extracellular concentration of Cl
− is about 110 mM. The intracellular concentration of Cl
− is about 10 mM.
Definition:
Electrophysiology is the study of the electrical properties of biological macromolecules, cells, tissues, and organs. Electrical signals such as voltage and/or current are generally measured. Examples include measuring changes in the membrane voltage of excitable cells (e.g., neurons, muscle cells, and some endocrine cells) during an
action potential. The current carrried by ions as they permeate the pore of ion channels can also be measured - both at the single-channel level (single-channel current), as well as the macroscopic current resulting from the activity of a population of channels. As another example, electrical measurements may involve recording voltage changes at the surface of the skin that result from the activity of skeletal muscles (electromyogram, EMG), cardiac myocytes (electrocardiogram, ECG), or neurons in the brain (electroencephalogram, EEG).
Definition:
Refers to the ability of some cells to be electrically excited resulting in the generation of
action potentials. Neurons, muscle cells (skeletal, cardiac, and smooth), and some endocrine cells (e.g., insulin-releasing pancreatic
β cells) are excitable cells.
See also:
Resting Membrane Potential - Introduction
Abbreviation:
K
+Definition:
The main cation (positively charged ion) of the intracellular fluid.
Potassium (K
+) plays an important role in the
action potential of neurons and muscle cells.
The extracellular concentration of K
+ is about 4 mM. The intracellular concentration of K
+ is about 150 mM.
Abbreviation:
Na
+Definition:
The main cation (positively charged ion) of the extracellular fluid.
Sodium (Na
+) plays an important role in several physiological processes such as the
action potential of neurons and muscle cells,
secondary active, sodium-coupled transport of ions, nutrients, neurotransmitters across the plasma membrane of cells, and many other processes.
The extracellular concentration of Na
+ is about 145 mM. The intracellular concentration of Na
+ is about 15 mM.
Definition:
The membrane voltage that must be reached in an excitable cell (e.g., neuron or muscle cell) during a depolarization in order to generate an action potential. At the threshold voltage, voltage-gated channels become activated. Threshold is approximately −50 to −40 mV in most excitable cells.
Related glossary terms/phrases:
Sub-thresholdSupra-thresholdSee also:
Neuronal Action Potential - Introduction
Posted: Sunday, March 31, 2013
Last updated: Friday, August 28, 2015