Zobrazeno 1 - 10
of 13
pro vyhledávání: '"D W Blank"'
Publikováno v:
Clinical chemistry. 43(4)
Publikováno v:
Clinical Chemistry. 32:446-452
The rate of the Jaffé reaction depends on the concentration of sodium hydroxide; the pseudo-first-order rate constant of the reaction, at 37 degrees C in 10 mmol/L picrate solution, is 0.004 mmol/L. We formulated an automated method to determine uri
Publikováno v:
Clinical Chemistry. 31:1566-1569
Laboratory values for specimens from a case of intravascular hemolysis showed that hemoglobin was significantly increased and thus could interfere with the determination of other analytes. We studied this problem by adding increasing amounts of purif
Autor:
D. W. Blank
Publikováno v:
JAMA: The Journal of the American Medical Association. 256:2867-2870
Publikováno v:
Clinical Chemistry. 33:1121-1123
Most studies of analytical interference indicate the magnitude but not the type of interference. We developed a model for interference that assesses the magnitude of the following types of interference: independent of analyte concentration, dependent
Publikováno v:
JAMA. 256(20)
Based on the results of recent clinical trials, physicians have been encouraged to screen and treat patients for hypercholesterolemia. Since the data from the Lipid Research Clinics (LRC) have been used to define the patient population that should be
Publikováno v:
Clinical chemistry. 31(9)
Laboratory values for specimens from a case of intravascular hemolysis showed that hemoglobin was significantly increased and thus could interfere with the determination of other analytes. We studied this problem by adding increasing amounts of purif
Publikováno v:
Clinical chemistry. 32(3)
The rate of the Jaffé reaction depends on the concentration of sodium hydroxide; the pseudo-first-order rate constant of the reaction, at 37 degrees C in 10 mmol/L picrate solution, is 0.004 mmol/L. We formulated an automated method to determine uri
Publikováno v:
Clinical chemistry. 33(7)
Most studies of analytical interference indicate the magnitude but not the type of interference. We developed a model for interference that assesses the magnitude of the following types of interference: independent of analyte concentration, dependent