Thomas Bührer scite author profile

At present, neutral-carrier-and ion-exchanger-based ion-selective liquid membrane microelectrodes are available for the measurement of H*, Lit, Na+, K+, Mgt, Cat, NH4+ and CI-. Fundamental aspects, design features and limitations of microelectrodes are discussed and examples for their application in physiology are given. The most important characteristics are summarized in view of intra-and extracellular physiological measurements. The selectivity coefficients KP°t with respect to the most common ions are compared to calculated values KOX required for measurements in intra-and extracellular samples without significant interference. For intracellular microelectrode studies, these required values are fully met for H+, K+, Mgt, Ca2+ and CI-, while in the case of extracellular measurements H+, Nat, K+ and Ca2+ can be assayed adequately.

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Intracellular neutral carrier-based Ca2+ microelectrode with subnanomolar detection limit

Ammann

Bührer

Schefer

et al. 1987

Pflugers Arch - Eur J Physiol

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In intracellular electrolyte solutions a Ca2+-selective microelectrode based on the synthetic electrically neutral carrier N,N,N',N'-tetracyclohexyl-3-oxapentanediamide (ETH 129) shows an improved detection limit when compared with the so far widely used Ca2+ microelectrodes based on the neutral carrier ETH 1001. Detection limits are found at pCa = 9.2 in Ca2+ buffers containing an intracellular background of K+ (125 mM). Selectivity studies in mixed solutions show a preference of Ca2+ over Na+ of 6 X 10(5), over K+ of 1.6 X 10(6), and over Mg2+ of 5 X 10(6). The microelectrode does not suffer from significant interference by inorganic and organic inhibitors and by lipophilic cations and anions. The low detection limit is unchanged at least during the first eight hours of continuous contact with Ca2+ solutions. The EMF drift during the first hour of use is between 5 and 10 mV and is then reduced to about 1 mV/h. The changes in EMF induced between solution of pCa = 7 and pCa = 8 are reproducible within 24.7 +/- 0.4 mV (SD, n = 8, about 3 h). These electrode characteristics were found for single-barrelled microelectrodes of one micrometer diameter front-filled with a PVC-containing membrane phase. In the absence of poly(vinyl chloride) in the membrane phase irregular EMF response curves were obtained throughout. Preliminary punctures of ferret ventricular muscle cells indicate that the Ca2+ electrode response is not disturbed by the contact of a cytosolic milieu.

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Intracellular magnesium ion-selective microelectrode based on a neutral carrier

Hu¹,

Bührer²,

Müller³

et al. 1989

Anal. Chem.

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A magnesium ion selective microelectrode based on a synthetic neutral carrier is presented. The selectivity of Mg2+ over Na+, K+, H+, and Ca2+ is sufficient for assays of intracellular magnesium ion activities. The microelectrodes with an optimized membrane composition have a resistance of about 5 x 10(10) omega and a 90% response time of less than or equal to 3 s for a tip diameter around 1 microns. The lifetime of the microelectrode cell assembly is longer than 1 week and the emf drift after equilibration is less than or equal to 0.3 mV/h.

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Distribution of halogenated phenols including mixed brominated and chlorinated phenols in municipal waste incineration flue gas

Heeb¹,

Dolezal²,

Bührer³

et al. 1995

Chemosphere

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Design of ionophores for ion-selective microsensors

Ammann¹,

Oesch²,

Bührer³

et al. 1987

Can. J. Physiol. Pharmacol.

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Requirements for a reliable use of liquid membrane microelectrodes are discussed in terms of stability, response time, and lifetime on the basis of membrane technological considerations. The selectivity of H+, Li+, Na+, K+, Mg2+, Ca2+, and Cl- microelectrodes is critically evaluated using the Nikolskii-Eisenman formalism. Recent progress in the design of new ionophores is presented. A novel neutral carrier-based Ca2+-selective microelectrode with a detection limit of about 5 X 10(-10) M Ca2+ at a background of 125 mM K+ has been realized. An neutral carrier-based microelectrode for H+ with extended pH range of the sample solution is now available. Promising developments in the field of Li+-, Mg2+-, and Cl--selective ionophores are discussed.

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Thomas Bührer

Neutral-Carrier-Based Ion-Selective Microelectrodes Design and Application

Intracellular neutral carrier-based Ca2+ microelectrode with subnanomolar detection limit

Intracellular magnesium ion-selective microelectrode based on a neutral carrier

Distribution of halogenated phenols including mixed brominated and chlorinated phenols in municipal waste incineration flue gas

Design of ionophores for ion-selective microsensors

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