Abstract
Control of the composition of the culture media in which bacterial or mammalian cells are grown is important. Nutritional depletion, accumulation of side products, and pH may change significantly during the incubation period, thereby reducing cell viability as well as interfering with the production of the desired product.
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References
Connerty HV, Briggs AR (1966) Determination of serum calcium by means of orthocresolphthalein complexone. Am J Clin Pathol 45: 290–296
Bauer PJ (1981) Affinity and stoichiometry of calcium binding by arsenazo III. Anal Biochem 110: 61–72
Levinson SS (1976) Direct determination of serum chloride with a semi-automated discrete analyzer. Clin Chem 22: 273–274
Oesch U, Ammann D, Simon W (1986) Ion-selective membrane electrodes for clinical use. Clin Chem 32: 1448–1559
International Committee for Standardization in haematology (1978) The measurement of total and unsaturated iron binding capacity in serum. Br J Haematol 38: 281–294
Liedtke RJ, Kroon G (1984) Automated calmagite compleximetric measurement of magnesium in serum, with sequential addition of EDTA to eliminate endogenous interference. Clin Chem 30: 1801–1804
Garber CC, Miller RC (1983) Revision of the 1963 semidine HCL standard method for inorganic phosphorous. Clin Chem 29: 184–188
Atkinson A, Gatenby AD, Lowe AG (1973) The determination of inorganic orthophosphate in biological systems. Biochim Biophys Acta 320: 195–204
Velapoldi RA, Paule RC, Schaffer R (1978) A reference method for the determination of sodium in serum. U. S. Department of Commerce, NBS special publication 260: Washington, DC, National Bureau of Standards
Velapoldi RA, Paule RC, Schaffer R (1978) A reference method for the determination of potassium in serum. U. S. Department of Commerce, NBS special publication 260–263: Washington, DC, National Bureau of Standards
Kumar A, Chapoteau E, Czech BP (1988) Chromogenic ionophore-based methods for spectrophotometric assay of sodium and potassium in serum and plasma. Clin Chem 34: 1709–1712
Maas AH, Siggaard-Andersen O, Weisberg HF (1985) Ionselective electrodes for sodium and potassium: A new problem of what is measured and what should be reported. Clin Chem 31: 482–485
Abell LL, Levy BB, Brodie BB (1952) A simplified method for the estimation of total cholesterol in serum and demonstration of its specifity. J Biol Chem 195: 357–366
National Cholesterol Education Program (1995) Recommendations on lipoprotein measurement: from the working group on lipoprotein measurement. NIH/NHLBINIH Publication No. 95–3044. Bethesda, MD, National Institutes of Health
Wright WR, Rainwater JC, Tolle LD (1971) Glucose assay systems: Evaluation of a colorimetric hexokinase procedure. Clin Chem 17: 1010–1015
Trinder P (1969) Determination of glucose in blood using glucose oxidase with an alternative oxygen acceptor. Ann Clin Biochem 6: 24–27
Mayer C, Frauer A., Schalkhammer T., Pittner F. (1999) Enzyme-Based Flow Injection Analysis System for Glutamine and Glutamate in Mammalian Cell Culture Media Analytical Biochemistry 268: 110–116
Livesley B, Atkinson L (1974) Accurate quantitative estimation of lactate in whole blood. Clin Chem 20: 1478
Sampson EJ, Baird MA (1979) Chemical inhibition used in a kinetic urease/glutamate dehydrogenase method for urea in serum. Clin Chem 25: 1721–1729
Duncan P, Gochman N, Cooper T (1982) A candidate reference method for uric acid in serum: I. Optimization and evaluation. Clin Chem 28: 284–290
Kingsley GR. (1942)The direct biuret method for the determination of serum proteins as applied to photoelectric and visual colorimetry. J Lab Clin Med 27: 840–845
Henry RJ, Cannon DC, Winkelman JW (eds) (1974) Clinical chemistry: Princi-ples and techniques. 2nd ed. New York, Harper & Row, 424–428
Johnson A, Lott JA (1978) Standardization of the Coomassie brilliant blue method for cerebrospinal fluid proteins. Clin Chim 24: 1931–1933
Duggan J, Duggan PF (1982) Albumin by bromcresol green: A case of laboratory conservatism. Clin Chem 28: 1407–1408
Louderback A, Mealy EH, Taylor NA (1968) A new dye-binding technique using bromcresol purple for determina-tion of albumin in serum. Clin Chem 14: 793–794
Van Kampen EJ, Zijlstra WG (1965) Determination of hemoglobin and its derivates. Adu Clin Chem 8: 141–187
Bowers GN, McComb RB (1966) A continuous spectrophotometric method for 34 measuring the activity of serum alkaline phosphatase. Clin Chem 12: 70–89
Gerhardt W, Wulff K (1983) Creatine kinase. In: Methods of Enzymatic Analy-sis. Vol. III, Enzymes 1: Oxidoreductases, Transferases. 3rd ed. (H. U. Bergmeyer, J. Bergmeyer, M. Grassi (eds)) Weinheim, Verlag Chemie: 508–539
Apple FS, Preese LM (1994) Creatine kinase-MB: Detection of myocardial infarction and monitoring reperfusion. J Clin Immunoassay 17: 24–29
Brandt DR, Gates RC, Eng KK (1990) Quantifying the MB isoenzyme of creatine kinase with the Abbott “IMx” immunoassay analyzer. Clin Chem 36: 375–378
Rosalki SB, Tarlow D (1974) Optimized determination of γ-glutamyltransferase by reaction-rate analysis. Clin Chem 20: 1121–1124
McComb RB (1983) The measurement of lactate dehydrogenase. In: Clinical and Analytical Concepts in Enzymology (H. A. Homburger, Ed. Skokie, (eds), IL) College of American Pathologists: 157–171
Ventrucci M, Pezzili R, Garulli L, et al. (1994) Clinical evaluation of a new rapid assay for serum lipase determination. Ital J Gastroenterol 26:132–136
Tietz NW, Fiereck EA (1972) Measurement of lipase activity in serum. In: Standard Methods of Clinical Chemistry. (G. R. Cooper (ed)) New York, Academic Press, 1972, 19–31.
Grenner G, Deutsch G, Schmidtberger R, Dati F (1982) A highly sensitive enzyme immunoassay for the determination of pancreatic lipase. J Clin Chem Clin Biochem 20: 515–519
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Palkovits, R., Mayer, C., Schalkhammer, T.G.M. (2002). Analysis in Complex Biological Fluids. In: Schalkhammer, T.G.M. (eds) Analytical Biotechnology. Methods and Tools in Biosciences and Medicine. Birkhäuser, Basel. https://doi.org/10.1007/978-3-0348-8101-2_9
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DOI: https://doi.org/10.1007/978-3-0348-8101-2_9
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