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Evolution of Blood Chemistry Analyzers Based on Ion Selective Electrodes

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C. C. Young

Nova Biomedical, 200 Prospect Street, Waltham, MA 02254

J. Chem. Educ., 1997, 74 (2), p 177

DOI: 10.1021/ed074p177

Publication Date (Web): February 1, 1997

Section:

History, Education, and Documentation

Abstract

Ion selective electrodes and some electrochemical sensors, owing to their unique ability to directly sense analytes, are well suited for whole blood, plasma, and serum critical analyte testing. These critical analytes are major electrolytes, blood gases, and some metabolites. Analyzers based on ion selective electrodes (ISE) can provide fast turnaround time (TAT) for critical care testing.

Following their historical development, these instruments can be conveniently divided into the following products: arterial blood gas (ABG) analyzers; electrolyte analyzers; integrated blood gas/electrolyte analyzers; and integrated blood gas/electrolyte/metabolite analyzers. This presentation will trace the development of these analyzers. The single-use disposable cartridge will not be included.

Keywords (Audience):

General Public

Keywords (Domain):

Analytical Chemistry

Keywords (Subject):

Ion Selective Electrodes

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Citing Articles

View all 7 citing articles

Citation data is made available by participants in CrossRef's Cited-by Linking service. For a more comprehensive list of citations to this article, users are encouraged to perform a search in SciFinder.

This article has been cited by 7 ACS Journal articles (5 most recent appear below).

Cyclic Voltammetry at Micropipet Electrodes for the Study of Ion-Transfer Kinetics at Liquid/Liquid Interfaces
Patrick J. Rodgers and Shigeru Amemiya
Analytical Chemistry2007 79 (24), 9276-9285
- Cyclic Voltammetry at Micropipet Electrodes for the Study of Ion-Transfer Kinetics at Liquid/Liquid Interfaces
  Patrick J. Rodgers and Shigeru Amemiya
  Analytical Chemistry2007 79 (24), 9276-9285
  Cyclic voltammetry at micropipet electrodes is applied to the kinetic study of ion transfer at liquid/liquid interfaces. Simple and facilitated transfer of an ion that is initially present outside a tapered pipet was simulated by the finite element method,...
  Abstract | Full Text HTML | Hi-Res PDF
Voltammetric Heparin-Selective Electrode Based on Thin Liquid Membrane with Conducting Polymer-Modified Solid Support
Jidong Guo and Shigeru Amemiya
Analytical Chemistry2006 78 (19), 6893-6902
- Voltammetric Heparin-Selective Electrode Based on Thin Liquid Membrane with Conducting Polymer-Modified Solid Support
  Jidong Guo and Shigeru Amemiya
  Analytical Chemistry2006 78 (19), 6893-6902
  A novel, solid-supported voltammetric ion-selective electrode to detect anticoagulant/antithrombotic heparin at polarizable poly(vinyl chloride) (PVC) membrane/water interfaces was developed. An 34.5-m-thick PVC membrane plasticized with 2-nitrophenyl ...
  Abstract | Full Text HTML | Hi-Res PDF
Selective Binding of NH₄⁺ by Redox-Active Crown Ethers: Application to a NH₄⁺ Sensor
Md. Aminur Rahmen, Nak-Hyun Kwon, Mi-Sook Won, Myung-Ho Hyun, and Yoon-Bo Shim
Analytical Chemistry2004 76 (13), 3660-3665
- Selective Binding of NH₄⁺ by Redox-Active Crown Ethers: Application to a NH₄⁺ Sensor
  Md. Aminur Rahmen, Nak-Hyun Kwon, Mi-Sook Won, Myung-Ho Hyun, and Yoon-Bo Shim
  Analytical Chemistry2004 76 (13), 3660-3665
  Two redox-active crown ethers, (1,1- bi-2-naphthyl)-23-crown-6 incorporating 9,10-anthraquinone (BNAQ) and 1,4-benzoquinone (BNBQ), were synthesized and employed in the selective binding of NH4+ over K+. Their applications to NH4+ detection were studied ...
  Abstract | Full Text HTML | Hi-Res PDF
Investigation of Cu(II) Binding to Bovine Serum Albumin by Potentiometry with an Ion Selective Electrode: A Biophysical Chemistry Experiment for the Undergraduate Curriculum
Jie Liu
Journal of Chemical Education2004 81 (3), 395
- Investigation of Cu(II) Binding to Bovine Serum Albumin by Potentiometry with an Ion Selective Electrode: A Biophysical Chemistry Experiment for the Undergraduate Curriculum
  Jie Liu
  Journal of Chemical Education2004 81 (3), 395
  The binding of ligands to biological macromolecules should be included in the laboratory of the undergraduate biophysical chemistry curriculum. An interesting experiment investigating Cu(II) ion binding to bovine serum albumin (BSA) by using potentiometry ...
  Abstract | Hi-Res PDF | PDF w/ Links
Tuning and Dissecting Electronic and Steric Effects in Ammonium Receptors: Nonactin vs Artificial Receptors
Jik Chin, Jinho Oh, Sang Yong Jon, Sang Hyun Park, Christian Walsdorff, Brent Stranix, Assaad Ghoussoub, Seok Jong Lee, Hyun Jei Chung, Su-Moon Park, and Kimoon Kim
Journal of the American Chemical Society2002 124 (19), 5374-5379
- Tuning and Dissecting Electronic and Steric Effects in Ammonium Receptors: Nonactin vs Artificial Receptors
  Jik Chin, Jinho Oh, Sang Yong Jon, Sang Hyun Park, Christian Walsdorff, Brent Stranix, Assaad Ghoussoub, Seok Jong Lee, Hyun Jei Chung, Su-Moon Park, and Kimoon Kim
  Journal of the American Chemical Society2002 124 (19), 5374-5379
  Ion selective electrodes (ISE) based on three different tripodal receptors (5, 6, and 7) have been investigated for sensing ammonium ion. Each receptor is based on three pyrazole groups that can accept three H-bonds from the bound ammonium ion. The ...
  Abstract | Full Text HTML | Hi-Res PDF

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Evolution of Blood Chemistry Analyzers Based on Ion Selective Electrodes