University of North Florida
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Stuart Chalk, Ph.D.
Department of Chemistry
University of North Florida
Phone: 1-904-620-1938
Fax: 1-904-620-3535
Email: schalk@unf.edu
Website: @unf

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Zeitschrift fuer Medizinische Laboratoriumsdiagnostik

  • Publisher:
  • FAD Code: ZSML
  • CODEN: ZMLADB
  • ISSN: 0323-5637
  • Abbreviation: Z. Med. Lab. Diagn.
  • DOI Prefix: NA
  • Other Name(s): Zeitschrift fuer Medizinische Labortechnik
  • Language: German

Citations 4

"The Adaptation Of Four Protein Determination Methods To Flow Injection Analysis"
Z. Med. Lab. Diagn. 1989 Volume 30, Issue 4 Pages 234-238
Peisker, K.;Matschiner, H.

Abstract: The adaptation of four manual methods to the flow injection analysis is described for the determination of proteins (Biuret- and Exton-method, albumin and hemoglobin determination). The comparison of analytical results of FIA with the manual methods shows a very good agreement of values. Flow injection analysis appears not only as an excellent possibility to automate these 4 investigated methods but it also shows unlike the manual methods a considerable better precision and accuracy of the analytical results and a reduction of time and materials.
Proteins Albumin Hemoglobin Blood Standard method Method comparison Automation

"Determination Of Glucose By Flow Injection Analysis"
Z. Med. Lab. Diagn. 1988 Volume 29, Issue 5 Pages 268-271
Peisker, K.; Matschiner, H.; Ruettinger, H. H. (SFS)

Abstract: Flow injection analysis was applied to glucose enzymatic determination with the Glukometer GKM 01. Optimization was performed by coupling the analyzer to a computer. Excellent serial precision and good correlations with the results of other methods was observed.
Glucose Blood Enzyme Tecator Method comparison

"Some Test Parameters Of Four Methods For The Determination Of Protein With Respect To Their Application In Flow Injection Analysis"
Z. Med. Lab. Diagn. 1985 Volume 26, Issue 8 Pages 422-428
Peisker, K.; Matschiner, H. (SFS)

Abstract: Protein determination by the Biuret method, the Lowry method, the dye binding method with Coomassie Blue, and the sulfosalicylic acid method were compared for flow injection analysis Comparisons were based on absorption spectra, time and temperature dependence, precision, practicability, and sensitivity. The least suitable method was the Lowry one; however, all procedures could be used under certain circumstances. Advantages and disadvantages of each are discussed. (SFS)
Proteins Blood Spectrophotometry Method comparison

"Use Of An Enzyme Electrode With Immobilized Glucose Oxidase In A Continuous-flow System For Glucose Determination In Body Fluids"
Z. Med. Lab. Diagn. 1981 Volume 22, Issue 2 Pages 83-88
Bertermann, K.; Scheller, F.; Pfeiffer, D.; Jaenchen, M.; Lutter, J. (SFS)

Abstract: Glucose was determined in body fluids (e.g. blood) with an enzyme electrode in a continuous-flow system which included a sample reservoir, a pump, a thermostat, a glucose meter, a printer, and a temperature-regulated measurement cell. The H2O2, which was produced by immobilized glucose oxidase, was oxidized anodically at a potential of +600 mV, then O2 was determined The sensitivity was 3.2 mg/100 mL, and the standard curve was linear to 400 mg/100 mL. Relative standard deviations were 2.06 and 2.12% for 55 and 220 mg glucose/100 mL, respectively. There was a good correlation between values determined by the title application and by an automated method (r = 0.9805). Approximately 30-60 measurements/h could be made. (SFS)
Glucose Biological fluid Blood Electrode Immobilized enzyme Method comparison