[3] Glass technology for patch clamp electrodes

doi:10.1016/0076-6879(92)07005-9

Methods in Enzymology

Volume 207, 1992, Pages 66-92

https://doi.org/10.1016/0076-6879(92)07005-9 Get rights and content

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Abstract

Based on all of the properties of glass described here, it is obvious that no one glass can be recommended for all purposes and for all cells. Borosilicate glasses like 7760, 7052, and 7040 are good general purpose glasses for both single-channel and whole-cell recordings. They are good initial choices but, of course, must be checked for each cell type for problems associated with leaching of blockers, etc., from the glass. Corning 8161 is the best glass studied to date with respect to electrical and thermal properties but must be checked carefully for leachable components. If perforated-patch whole-cell recordings are to be used, 8161, KG-12, or some other high lead, low melting point glass are probably the best choices.

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References

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View PDF View article View in Scopus
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View in Scopus
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View PDF View article View in Scopus
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View PDF View article View in Scopus
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View PDF View article View in Scopus

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Citation Excerpt :
The device consists of a planar chip made from fused quartz. Due to its dielectric properties quartz is the almost ideal material for patch clamp pipettes (Rae and Levis, 1992; Levis and Rae, 1993) and is thus a very suitable substrate for planar patch clamp chips. Into the chip an aperture with submicron diameter is defined by irradiation of a prethinned area of the chip with a single heavy ion and subsequent wet track etching (Spohr, 1990).
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View Abstract

[1] 1
O.P. Hammill, A. Marty, E. Neher, B. Sakmann, F.J. Sigworth
Pflugers Arch., 391 (1981), p. 85

[2] 2
B. Sakmann, E. Neher
B. Sakmann, E. Neher (Eds.), Single-Channel Recording, Plenum, New York and London (1983), p. 37
Crossref Google Scholar

[3] 3
D.P. Corey, C.F. Stevens
B. Sakmann, E. Neher (Eds.), Single-Channel Recording, Plenum, New York and London (1983), p. 53
Crossref Google Scholar

[4] 4
J.L. Rae, R.A. Levis
Biophys. J., 45 (1984), p. 144
View PDF View article View in Scopus

[5] 5
J.L. Rae, R.A. Levis
Mol. Physiol., 6 (1984), p. 115
View in Scopus

[6] 6
J.L. Rae, R.A. Levis, R.S. Eisenberg
T. Narahashi (Ed.), Ion Channels, Plenum, New York and London (1988), p. 283
Crossref View in Scopus Google Scholar

[7] 7
L.D. Pye, H.J. Stevens, W.C. LaCourse
Introduction to Glass Science
Plenum, New York and London (1972), p. 513
Google Scholar

[8] 8
R.H. Doremus
Glass Science
Wiley, New York (1973), p. 190
Google Scholar

[9] 9
R.H. Doremus
Glass Science
Wiley, New York (1973), p. 229
Google Scholar

[10] 10
G. Cota, C. Armstrong
Biophys. J., 53 (1988), p. 107
View PDF View article View in Scopus

[11] 11
R.E. Furman, J.C. Tanaka
Biophys. J., 53 (1988), p. 287
View PDF View article View in Scopus

[12] 12
L. Rojas, C. Zuazaga
Neurosci. Lett., 88 (1988), p. 39
View PDF View article View in Scopus