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Scandinavian Journal of Clinical and Laboratory Investigation Volume 42, 1982 - Issue 4
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Original Article

Arterial pH monitoring with monocrystalline antimony sensors

A study of sensitivity for Po2 variations

E. Nilsson Departments of Clinical Physiology and Experimental Surgery, Karolinska hospital, Stockholm, Sweden; Department of Applied Physics, Royal Institute of Technology, Stockholm, Sweden
&
G. Edwall Departments of Clinical Physiology and Experimental Surgery, Karolinska hospital, Stockholm, Sweden; Department of Applied Physics, Royal Institute of Technology, Stockholm, Sweden
Pages 323-329 | Received 24 Jan 1982, Accepted 26 Feb 1982, Published online: 17 Mar 2010

References

  • Abe H., Esashi M., Matsuo T. ISFET's using inorganic gate thin films. IEEE Trans. Biomed. Eng. 1979; 26: 1939
  • Afromowitz A., Yee S. S. Fabrication of pH-sensitive implantable electrode by thick film hybrid technology. J. Bioengng. 1976; 1: 55
  • Band D. M., Semple S. J.G. Continuous measurement of blood pH with an indwelling arterial glass electrode. J. appl. Physiol. 1967; 22: 854
  • Bishop E., Short G. D. Some observations on the zero-current behaviour of antimony indicator electrodes. Talanta 1964; 11: 393
  • Le Blanc O. H., Jr, Brown J. F., Jr, Klebe J. F., Niedrach L. W., Slusarczuk G. M.J., Stoddard W. H., Jr. Polymer membrane sensors for continuous intravascular monitoring of blood pH. J. appl. Physiol. 1976; 40: 644
  • Buytendijk F. J.J. The use of the antimony electrode in the determination of pH in vivo. Arch, neerland. physiol. 1927; 12: 319
  • Cobbe S. M., Poole-Wilson P. A. Continuous measurement of pH in central arteries and veins. Lancet 1979; ii: 444
  • Eberhard P., Fehlmann W., Mindt W. An electrochemical sensor for continuous intravascular oxygen monitoring. Biotelemetry Patient Monitg 1979; 6: 16
  • Eberhart R. C., Weigelt J. A. Continuous blood gas analysis: an elusive ideal. Crit. Care Med. 1980; 8: 418
  • Edwall G. Improved antimony-antimony (III) oxide pH electrodes. Med. Biol. Eng. Comput. 1978; 16: 661
  • Edwall G. Influence of crystallographic properties on antimony electrode potential I—III. Electrochim. Acta 1979; 24: 595
  • Fosbinder R. J. The determination of the pH of phosphate buffer solutions by means of the antimony-antimony oxide electrode. J. Lab. clin. Med. 1931; 16: 411
  • Goldstein S. R., Peterson J. I., Fitzgerald R. V. A miniature fiber optic pH sensor for physiological use. J. Biomech. Engng 1980; 102: 141
  • Jöngren P.-A., Edwall G. Evaluation of the influence of impurities on the oxygen sensitivity of monocrystalline antimony electrodes. Electrochim. Acta 1980; 25: 1585
  • Larsson R., Eriksson J.-C., Lagergren H., Olsson P. Platelet and plasma coagulation compatibility of heparinized and sulphated surfaces. Thromb. Res. 1979; 15: 157
  • Liu C.-C., Bocchicchio B. C., Overmyer P. A., Nueman M. R. A Palladium-palladium oxide miniature pH electrode. Science 1980; 207: 188
  • Markdahl-Bjarme M., Edwall G. A modified pCO2-electrode with monocrystalline antimony as pH-sensing element. Med. Biol. Eng. Comput. 1981; 19: 447
  • Nilsson E., Edwall G. Continuous intra-arterial pH-monitoring using monocrystalline antimony as sensor. Scand. J. clin. Lab. Invest. 1981; 41: 333
  • Nilsson E., Edwall G., Larsson R., Olsson P. Polarographic PO2 sensors with heparinized membranes for in vitro and continuous in vivo registration. Scand. J. clin. Lab. Invest. 1981; 41: 557
  • Oeseburg B., Kwant G., Schut J. K., Veenstra J. Continuous Intra-Arterial pH Measurement. Pflugers Arch. 1980; 386: 95
  • de Rooij N. F., Bergveld P. Characterization of the iridium-iridium oxide electrode as apH sensitive sensor (Abstract). International Conference on Monitoring of Blood Gases, Blood Ion Concentrations, and Respiratory Gas Exchange. Nijmegen, Holland March, 1980; 9–12
  • Severinghaus J. W. Blood gas calculator. J. appl. Physiol. 1966; 21: 1108
  • Yoder R., Seindefeld A., Suwa K. Normal hemoglobin-oxygen affinity. Anesthesiology 1975; 42: 741

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