Ion diffusion modified by tortuosity and volume fraction in the extracellular microenvironment of the rat cerebellum.

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Ion diffusion modified by tortuosity and volume fraction in the extracellular microenvironment of the rat cerebellum.

C Nicholson and J M Phillips

1. The validity of the macroscopic laws of ion diffusion wascritically examined within the microenvironment of the extracellularspace in the rat cerebellum using ion-selective micropipettesand ionophoretic point sources. 2. The concepts of volume averaging,volume fraction (alpha) and tortuosity (lambda) were definedand shown to be theoretically appropriate for quantifying diffusionin a complex medium such as the brain. 3. Diffusion studieswere made with the cations tetramethylammonium and tetraethylammoniumand the anions alpha-naphthalene sulphonate and hexafluoro-arsenate,all of which remained essentially extracellular during the measurements.Diffusion parameters were measured for a period of 50s and overdistances of the order of 0.1 mm. 4. Measurements of the diffusioncoefficients of the ions in agar gel gave values that were veryclose to those derivable from the literature, thus confirmingthe validity of the method. 5. Measurements in the cerebellumdid not reveal any systematic influences of ionophoretic currentstrength, electrode separation, anisotropy, inhomogeneity, chargediscrimination or uptake, within the limits tested. 6. The pooleddata from measurements with all the ions gave alpha = 0.21 +/-0.02 (mean +/- S.E. of mean) and lambda = 1.55 +/- 0.05 (mean+/- S.E. of mean). 7. These results show that the extracellularspace occupies about 20% of the rat cerebellum and that thediffusion coefficient for small monovalent extracellular ionsis reduced by a factor of 2.4 (i.e. lambda 2) without regardto charge sign. The over-all effect of this is to increase theapparent strength of any ionic source in the cerebellum by afactor of lambda 2/alpha, about 12-fold in the present case,and to modify the time course of diffusion. 8. These conclusionsconfirm that the laws of macroscopic diffusion are closely obeyedin the cerebellum for small ions in the extracellular space,provided that volume fraction and tortuosity are explicitlytaken into account. It is likely that these conclusions aregenerally applicable to other brain regions and other diffusingsubstances.

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