BIOMAT Database Logo BIOMAT Database Logo

Direct determination of urinary oxalate by a continuous flow method. 1990

K Goldsack, and R F Ginman, and J M Wright
Department of Clinical Chemistry, Worthing Hospital, England, UK.

A continuous flow method is described for estimation of urinary oxalate, using oxalate oxidase (EC 1.2.3.4) and ascorbate oxidase (EC 1.10.3.3) immobilised on the inner surface of O-alkylated nylon tubes. Linearity, precision, oxalate recovery, freedom from interference by other urinary substances, accuracy, specificity, absence of interaction between samples and correlation with an established enzymic method were all excellent. The method has advantages over other methods in terms of speed, ease of use and cost. As the immobilised enzyme system has been stable for 15 months the method is suitable for both research and routine use.

UI MeSH Term Description Entries
D010070 Oxalates Derivatives of OXALIC ACID. Included under this heading are a broad variety of acid forms, salts, esters, and amides that are derived from the ethanedioic acid structure. Oxalate,Ethanedioic Acids,Oxalic Acids,Acids, Ethanedioic,Acids, Oxalic
D010088 Oxidoreductases The class of all enzymes catalyzing oxidoreduction reactions. The substrate that is oxidized is regarded as a hydrogen donor. The systematic name is based on donor:acceptor oxidoreductase. The recommended name will be dehydrogenase, wherever this is possible; as an alternative, reductase can be used. Oxidase is only used in cases where O2 is the acceptor. (Enzyme Nomenclature, 1992, p9) Dehydrogenases,Oxidases,Oxidoreductase,Reductases,Dehydrogenase,Oxidase,Reductase
D011786 Quality Control A system for verifying and maintaining a desired level of quality in a product or process by careful planning, use of proper equipment, continued inspection, and corrective action as required. (Random House Unabridged Dictionary, 2d ed) Control, Quality,Controls, Quality,Quality Controls
D004800 Enzymes, Immobilized Enzymes which are immobilized on or in a variety of water-soluble or water-insoluble matrices with little or no loss of their catalytic activity. Since they can be reused continuously, immobilized enzymes have found wide application in the industrial, medical and research fields. Immobilized Enzymes,Enzyme, Immobilized,Immobilized Enzyme
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D001204 Ascorbate Oxidase An enzyme that converts ascorbic acid to dehydroascorbic acid. EC 1.10.3.3. Ascorbase,Ascorbino Dehydrogenase,L-Ascorbate Oxidase,Dehydrogenase, Ascorbino,L Ascorbate Oxidase,Oxidase, Ascorbate,Oxidase, L-Ascorbate
D001322 Autoanalysis Method of analyzing chemicals using automation. Autoanalyses
D019815 Oxalic Acid A strong dicarboxylic acid occurring in many plants and vegetables. It is produced in the body by metabolism of glyoxylic acid or ascorbic acid. It is not metabolized but excreted in the urine. It is used as an analytical reagent and general reducing agent. Aluminum Oxalate,Ammonium Oxalate,Chromium (2+) Oxalate,Chromium (3+) Oxalate (3:2),Chromium Oxalate,Diammonium Oxalate,Dilithium Oxalate,Dipotassium Oxalate,Disodium Oxalate,Ferric Oxalate,Iron (2+) Oxalate (1:1),Iron (3+) Oxalate,Iron Oxalate,Magnesium Oxalate,Magnesium Oxalate (1:1),Manganese (2+) Oxalate (1:1),Monoammonium Oxalate,Monohydrogen Monopotassium Oxalate,Monopotassium Oxalate,Monosodium Oxalate,Potassium Chromium Oxalate,Potassium Oxalate,Potassium Oxalate (2:1),Sodium Oxalate,Acid, Oxalic,Oxalate, Aluminum,Oxalate, Chromium,Oxalate, Diammonium,Oxalate, Dilithium,Oxalate, Dipotassium,Oxalate, Disodium,Oxalate, Ferric,Oxalate, Iron,Oxalate, Magnesium,Oxalate, Monoammonium,Oxalate, Monohydrogen Monopotassium,Oxalate, Monopotassium,Oxalate, Monosodium,Oxalate, Potassium,Oxalate, Potassium Chromium,Oxalate, Sodium

Related Publications

K Goldsack, and R F Ginman, and J M Wright
Urinary oxalate determination by use of immobilized oxalate oxidase in a continuous-flow system.
January 1983, Clinical chemistry,
K Goldsack, and R F Ginman, and J M Wright
DIRECT ENZYMATIC DETERMINATION OF URINARY OXALATE.
July 1964, Investigative urology,
K Goldsack, and R F Ginman, and J M Wright
Continuous-flow assay for urinary oxalate using immobilised oxalate oxidase.
July 1985, Annals of clinical biochemistry,
K Goldsack, and R F Ginman, and J M Wright
Urinary oxalate indirectly determined by continuous-flow analysis for calcium.
June 1980, Clinical chemistry,
K Goldsack, and R F Ginman, and J M Wright
[Electrometric determination of urinary ammonia using a continuous-flow automatic method].
January 1977, Annales de biologie clinique,
K Goldsack, and R F Ginman, and J M Wright
Direct spectrophotometric determination of serum and urinary oxalate with oxalate oxidase.
November 1981, Journal of clinical chemistry and clinical biochemistry. Zeitschrift fur klinische Chemie und klinische Biochemie,
K Goldsack, and R F Ginman, and J M Wright
The direct determination of urinary oxalate by non-suppressed ion chromatography.
April 1997, European journal of clinical chemistry and clinical biochemistry : journal of the Forum of European Clinical Chemistry Societies,
K Goldsack, and R F Ginman, and J M Wright
[Studies on urinary oxalate. 1. A new method for determination of urinary oxalate (author's transl)].
March 1979, Nihon Hinyokika Gakkai zasshi. The japanese journal of urology,
K Goldsack, and R F Ginman, and J M Wright
Determination of urinary uroporphyrin by a direct extraction method.
January 1956, Scandinavian journal of clinical and laboratory investigation,
K Goldsack, and R F Ginman, and J M Wright
A simple ion--chromatographic method for determination of urinary oxalate.
January 1985, Urological research,
Copied contents to your clipboard!