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Related Concept Videos

Ion Channels01:19

Ion Channels

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The movement of ions like sodium, potassium, and calcium into and out of the cell is essential to maintain the electrochemical gradient in living cells. The ion channels—a class of membrane transport proteins—help maintain this ionic gradient for the smooth functioning of physiological activities such as maintaining cell size and volume, conducting nerve impulses, and gas and nutrient exchange.
Ion channels are specialized integral membrane proteins on the plasma membrane that allow...
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Electrolytes: van't Hoff Factor03:08

Electrolytes: van't Hoff Factor

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Colligative Properties of Electrolytes
The colligative properties of a solution depend only on the number, not on the identity, of solute species dissolved. The concentration terms in the equations for various colligative properties (freezing point depression, boiling point elevation, osmotic pressure) pertain to all solute species present in the solution. Nonelectrolytes dissolve physically without dissociation or any other accompanying process. Each molecule that dissolves yields one...
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Fluid Movement Between Compartments01:18

Fluid Movement Between Compartments

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The force applied by fluids against a surface, known as hydrostatic pressure, initiates the transfer of fluid among different compartments. Within our blood vessels, the blood's hydrostatic pressure is a result of the heart's pumping action. At the arteriolar end of capillaries, hydrostatic pressure (capillary blood pressure) exceeds the opposing colloid osmotic pressure created primarily by plasma proteins like albumin. This discrepancy in pressure propels plasma and nutrients from the...
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Theory of Strong Electrolytes01:23

Theory of Strong Electrolytes

41
The interionic forces of the strong electrolytes depend on the solvent's dielectric constant, which is the ability of a solvent to store electrical energy, based on its polarizability. and the solution's concentration. In high-dielectric solvents and in dilute solutions, weak electrostatic forces keep ions apart. However, in low-dielectric solvents or concentrated solutions, stronger interionic forces may cause ions to pair up as ionic doublets despite being fully ionized. The theory of strong...
41
Ionic Association01:28

Ionic Association

38
The ionic association is the association of oppositely charged ions in an electrolyte solution to form ion pairs. Bjerrum defined ion pairs as two oppositely charged ions whose electrostatic attraction exceeds the thermal energy of the system, typically expressed as 2kT. Electrostatic attraction depends on ionic charge, separation distance, and the dielectric constant of the medium. Thermal energy, represented by kT, reflects the tendency of ions to move independently due to molecular motion.
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Resting Potential Decay01:15

Resting Potential Decay

6.6K
The resting membrane potential of a neuron (-70mV) is sustained due to the selective ion permeability of the membrane. At the resting potential, the membrane is slightly permeable to ions like sodium (Na+) and chloride (Cl−) and highly permeable to potassium ions (K+). Differences in the ions' concentration inside the cell compared to the outside are maintained by membrane transport proteins like channels and pumps.
At rest, the K+ is the main ion that moves across the membrane...
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Mechanisms of whole body, respiratory, acid-base buffering: a first computer-model test of three physicochemical, acid-base theories.

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Last Word on Viewpoint: Acid-base buffering whether quantified as [H<sup>+</sup>] vs. Pco<sub>2</sub> or [H<sup>+</sup>] vs. strong ion difference is both intuitive and consistent-the role of albumin and strong-ion difference (SID) in acid-base buffering.

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Acid-base buffering whether quantified as [H<sup>+</sup>] vs. Pco<sub>2</sub> or [H<sup>+</sup>] vs. strong ion difference is both intuitive and consistent.

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Reply to Krbec and Duška.

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Application of Electrophysiology Measurement to Study the Activity of Electro-Neutral Transporters
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Application of Electrophysiology Measurement to Study the Activity of Electro-Neutral Transporters

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Comment on osmotically inactive ions

Matthew B Wolf1

  • 1Department of Pharmacology, Physiology, and Neuroscience, University of South Carolina, Columbia, South Carolina matt.wolf@uscmed.sc.edu.

American Journal of Physiology. Renal Physiology
|December 14, 2016
PubMed
Summary

No abstract available in PubMed .

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