Calibration-Free Measurement of Sodium and Potassium in Undiluted Human Serum with an Electrically Symmetric Measuring System

Rumpf, G.; Spichiger‐Keller, Ursula E.; Bühler, Hans; Simon, W.

doi:10.2116/analsci.8.553

Cited by 21 publications

(20 citation statements)

References 15 publications

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“…When a0 .1m KCl solution is used as both the sample and reference electrolyte,asymmetrical potentiometric cell is formed, and the theoretical emf value is 0mV. [18] As Figure 4a shows,the measured emf value is 0.3 AE 2.1 mV (number of samples, n = 3), correlating well with the predicted value.A lthough the HHCAE membrane exhibits limited selectivity towards various hydrophilic anions,i ti s chosen specifically for clinical Cl À sensing (98-107 mm in blood serum) because its use decreases interference from lipophilic ions (such as Br À or SCN À ) [19] and biofouling caused by lipids, [14] and also resists Donnan failure at high ion concentrations because of its high ion-exchange capacity. [20] As the HHCAE membrane was obtained with Br À as counterions,C l À substitution was required before device fabrication to ensure an accurate response (see Figure S2).…”

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confidence: 53%

A Disposable Planar Paper‐Based Potentiometric Ion‐Sensing Platform

Stein

Bühlmann

2016

Angewandte Chemie

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Ion-selective electrodes (ISEs) are widely used tools for fast and accurate ion sensing. Herein their design is simplified by embedding ap otentiometric cell into paper, complete with an ISE, areference electrode,and apaper-based microfluidic sample zone that offer the full function of ac onventional ISE setup.T he disposable planar paper-based ion-sensing platform is suitable for low-cost point-of-care and in-field testing applications.T he design is symmetrical and each interfacial potential within the cell is well defined and reproducible,s ot hat the response of the device can be theoretically predicted. Forademonstration of clinical applications,p aper-based Cl À and K + sensors are fabricated with highly reproducible and linear responses towards different concentrations of analyte ions in aqueous and biological samples.The single-use devices can be fabricated by ascalable method, do not need any pretreatment prior to use,a nd only require asample volume of 20 mL.Ion sensing is an important topic in various fields,s uch as clinical and environmental analysis.[1] As often introduced in general chemistry courses,s elective and quantitative ion sensing can be achieved with ap otentiometric cell that comprises an ion-selective electrode (ISE), ar eference electrode,and avoltmeter as areadout tool. It has been estimated that each year over ab illion measurements with ISEs are performed globally in clinical laboratories alone.[1a] Besides detection of analytes with low (for example,K + ,Na)and high valence charges (such as heparin), [2] biosensing of proteins [3] and detection of electrically neutral species have been achieved with ISEs. [4] With the growing demand for point-of-care and in-field testing,p aper has recently attracted much attention as as imple,a ffordable,f lexible,a nd scalable substrate for microfluidic assays.[5] Although paper-based colorimetric sensors offer the advantage of simple data interpretation, detection with electrochemical techniques is insensitive to color interferences and is generally more quantitative. [6] Existing paper-based ion sensors rely on various techniques, including potentiometry, [7] coulometry, [8] chronopotentiometry, [9] and colorimetry. [10] Paper was used in these devices either as am icrofluidic sampling tool or as as ubstrate to mechanically support the sensing components.S trip-type ISEs known as Ektachem slides were available in the 1980s, [11] and were recently adapted with ap aper substrate to support carbon nanotubes or conducting polymers as solid contacts.[7b,c] Although miniaturizable,t hese devices need cumbersome electrode conditioning and individual calibration. A more integrated device,reported by Whitesides et al.,utilizes ar eusable ISE membrane placed between two disposable wax-imprinted paper substrates.[7d] With different ISE membranes,v arious clinically relevant ions can be detected. However,t he ISE membranes have to be well conditioned, and the devices have to be carefully assembled and calibrated, which may impede their practical ...

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supporting

confidence: 53%

A Disposable Planar Paper‐Based Potentiometric Ion‐Sensing Platform

Stein

Bühlmann

2016

Angewandte Chemie

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“…The isotopes at m/z 24 and 25, originating in part from magnesium in the serum, are just visible. The isotope appearing at m/z 30 is most likely due to a mixture of 15 N 2 1 , 14 N 15 NH, 14 NO 1 and 30 Si ions. A separate study on an unspiked serum showed no evidence of C 2 1 or CN 1 interferences on the magnesium isotopes.…”

Section: Methods Designmentioning

confidence: 99%

“…[2][3][4] For example, Fuchs et al 2 compared the performance of a glass membrane ISE system with flame photometry obtaining a correlation coefficient better than 0.98. Numerous other studies have been reported using ISE systems, [5][6][7][8][9][10][11][12][13][14][15][16][17][18] which generally fall into two categories, one involving a direct method where no dilution of the sample takes place and an indirect method where the sample is mixed with a diluent prior to the measurement. ISE measurements are subject to several errors.…”

Section: Introductionmentioning

confidence: 99%

Determination of sodium in blood serum by inductively coupled plasma mass spectrometry

Long

Vetter

2002

J. Anal. At. Spectrom.

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Owing to its importance as a serum electrolyte, sodium is determined routinely in clinical laboratories. In the United States, the accuracy of these measurements is assessed through a number of proficiency testing programs. Clinical measurements are supported by the National Institute of Standards and Technology through the production of serum matrix Standard Reference Materials 1 (909 and 956 series). For reference material certification, a gravimetric primary method has traditionally been used, but this method is time consuming. In this work, an alternative method has been developed in which sodium is determined by inductively coupled plasma mass spectrometry (ICP-MS) using a procedure, which is a cross between internal standardization and isotope dilution analysis. Diluted serum is spiked with 26 Mg enriched isotope and the isotope ratio 23 Na/ 26 Mg measured in analog detection mode. The ratios are standardized by measuring a sodium primary standard (SRM 919a) spiked with 26 Mg. As a relatively high concentration of sodium is measured, the sodium background from the ICP-MS instrument is comparatively small. The method has been successfully applied to the determination of sodium in SRM 909b (Human Serum), SRM 956a (Electrolytes in Frozen Human Serum) and serum pools from the College of American Pathologists.

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“…Symmetrical measuring cell for the sensing of potassium and sodium ions in undiluted serum without prior calibration. 6 Two reference electrodes with free-flowing liquid junctions were used in this arrangement. While this approach was not maintenance-free, a residual error of just a fraction of a millivolt was found.…”

Section: ■ Using Robust Methodologies: From Amperometry To Coulometrymentioning

confidence: 99%

“…An early study by Rumpf et al demonstrated the absolute measurement of potassium and sodium levels in serum by ion-selective electrodes using a highly symmetrical measurement cell; see Figure . The authors did not achieve a maintenance-free measurement, since high flow rates of the reference electrolyte and intermittent cleaning steps were required to renew the two reference electrodes and the side of the sensing membrane exposed to the biological fluids.…”

Section: A Challenging Case Study: Clinical Diagnostics Of Blood Elec...mentioning

confidence: 99%

Can Calibration-Free Sensors Be Realized?

Bakker

2016

ACS Sens.

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This opinion piece describes progress and issues regarding the realization of calibration-free chemical sensors for analysis in aqueous systems. A special focus of the discussion is on electrochemical methodologies, given that they are the most established. Calibration-free sensors are clearly possible, but require a multipronged approach for maximizing robustness that include the optimization of sensing materials and the use of the most adequate readout methodologies.

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Calibration-Free Measurement of Sodium and Potassium in Undiluted Human Serum with an Electrically Symmetric Measuring System

Cited by 21 publications

References 15 publications

A Disposable Planar Paper‐Based Potentiometric Ion‐Sensing Platform

A Disposable Planar Paper‐Based Potentiometric Ion‐Sensing Platform

Determination of sodium in blood serum by inductively coupled plasma mass spectrometry

Can Calibration-Free Sensors Be Realized?

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