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Physiological Applications

Red Blood Cells

When tissue cells are in a protein-containing fluid, the Donnan effect of the cytoplasmic proteins is equal and opposite to the Donnan effect of the extracellular proteins. The opposing Donnan effects cause chloride ions to migrate inside the cell, increasing the intracellular chloride concentration. The Donnan effect may explain why some red blood cells do not have active sodium pumps; the effect relieves the osmotic pressure of plasma proteins, which is why sodium pumping is less important for maintaining the cell volume .^[1]

Neurology

Brain tissue swelling, known as cerebral oedema, results from brain injury and other traumatic head injuries that can increase intracranial pressure (ICP). Negatively charged molecules within cells create a fixed charge density, which increases intracranial pressure through the Donnan effect. ATP pumps maintain a negative membrane potential even though negative charges leak across the membrane; this action establishes a chemical and electrical gradient^[2].

The negative charge in the cell and ions outside the cell creates a thermodynamic potential; if damage occurs to the brain and cells lose their membrane integrity, ions will rush into the cell to balance chemical and electrical gradients that were previously established. The membrane voltage will become zero, but the chemical gradient will still exist. To neutralixe the negative charges within the cell, cations flow in, which increases the osmotic pressure inside relative to the outside of the cell. The increased osmotic pressure forces water to flow into the cell and tissue swelling occurs^[3].

Note

^ Kurbel, S. (2011). Donnan effect on chloride ion distribution as a determinant of body fluid composition that allows action potentials to spread via fast sodium channels. Theoretical Biology & Medical Modelling, 8, 16. http://doi.org/10.1186/1742-4682-8-16
^ Elkin, Benjamin S.; Shaik, Mohammed A.; Morrison, Barclay (13 February 2010). "Fixed negative charge and the Donnan effect: a description of the driving forces associated with brain tissue swelling and oedema". Philosophical transactions. Series A, Mathematical, physical, and engineering sciences. pp. 585–603. doi:10.1098/rsta.2009.0223. Retrieved 15 May 2016. {{cite web}}: no-break space character in |title= at position 47 (help)
^ Elkin, B. S., Shaik, M. A., & Morrison, B. (2010). Fixed negative charge and the Donnan effect: a description of the driving forces associated with brain tissue swelling and oedema. Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences, 368(1912), 585–603. http://doi.org/10.1098/rsta.2009.0223

[1] Kurbel, S. (2011). Donnan effect on chloride ion distribution as a determinant of body fluid composition that allows action potentials to spread via fast sodium channels. Theoretical Biology & Medical Modelling, 8, 16. http://doi.org/10.1186/1742-4682-8-16

[2] Elkin, Benjamin S.; Shaik, Mohammed A.; Morrison, Barclay (13 February 2010). "Fixed negative charge and the Donnan effect: a description of the driving forces associated with brain tissue swelling and oedema". Philosophical transactions. Series A, Mathematical, physical, and engineering sciences. pp. 585–603. doi:10.1098/rsta.2009.0223. Retrieved 15 May 2016. {{cite web}}: no-break space character in |title= at position 47 (help)

[3] Elkin, B. S., Shaik, M. A., & Morrison, B. (2010). Fixed negative charge and the Donnan effect: a description of the driving forces associated with brain tissue swelling and oedema. Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences, 368(1912), 585–603. http://doi.org/10.1098/rsta.2009.0223

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