Sucrose gap

The sucrose gap technique is used to create a conduction block in nerve or muscle fibers. A high concentration of sucrose is applied to the extracellular space, which prevents the correct opening and closing of sodium and potassium channels, increasing resistance between two groups of cells. It was originally developed by Robert Stämpfli for recording action potentials in nerve fibers,^[1] and is particularly useful for measuring irreversible or highly variable pharmacological modifications of channel properties since untreated regions of membrane can be pulled into the node between the sucrose regions.^[2]

^ Stämpfli, R (1954). "A new method for measuring membrane potentials with external electrodes". Experientia. 10 (12): 508–509. doi:10.1007/BF02166189. PMID 14353097. S2CID 41384989.
^ Pooler, JP; Valenzeno, DP. (1983). "Reexamination of the double sucrose gap technique for the study of lobster giant axons. Theory and experiments". Biophys J. 44 (2): 261–269. Bibcode:1983BpJ....44..261P. doi:10.1016/S0006-3495(83)84298-2. PMC 1434829. PMID 6652217.

[1] Stämpfli, R (1954). "A new method for measuring membrane potentials with external electrodes". Experientia. 10 (12): 508–509. doi:10.1007/BF02166189. PMID 14353097. S2CID 41384989.

[2] Pooler, JP; Valenzeno, DP. (1983). "Reexamination of the double sucrose gap technique for the study of lobster giant axons. Theory and experiments". Biophys J. 44 (2): 261–269. Bibcode:1983BpJ....44..261P. doi:10.1016/S0006-3495(83)84298-2. PMC 1434829. PMID 6652217.

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