论文信息 - Practical quantitation limits

Practical quantitation limits

Abstract A statistical method for computing practical quantitation limits (PQL) is developed. The PQL is operationally defined as the concentration at which the instrument response signal is 100/α times its standard deviation (e.g., for a 10% relative standard deviation (R.S.D.) α = 10). The response signal is defined as the ratio of analyte to internal standard peak areas. 95% confidence limits for the PQL are also derived. The PQL is estimated directly from calibration data, and uncertainty in the parameters of the calibration function is incorporated. The non-constant variance problem is dealt with using a variance stabilizing transformation. The method is illustrated using 199 calibration samples for 10 volatile organic priority pollutant compounds. The results of these analyses suggest that estimates of the US Environmental Protection Agency of PQLs are reasonably consistent with the 10% R.S.D. definition.

Robert D. Gibbons | Nancy Grams | Frank H. Jarke | Kenneth P. Stoub

[1] E. C. Fieller. The Biological Standardization of Insulin , 1940 .

[2] Roger J. McNichols,et al. One-Sided Intervals for at Least p of m Observations From a Normal Population on , 1987 .

[3] Robert D. Gibbons. A General Statistical Procedure for Ground‐Water Detection Monitoring at Waste Disposal Facilities , 1990 .

[4] L. A. Currie,et al. LIMITS FOR QUALITATIVE DETECTION AND QUANTITATIVE DETERMINATION. APPLICATION TO RADIOCHEMISTRY. , 1968 .

[5] R. Gibbons. Statistical prediction intervals for the evaluation of ground-water quality , 1987 .

[6] C. Andrew. Clayton,et al. Detection limits with specified assurance probabilities , 1987 .

[7] Robert D. Gibbons,et al. Statistical Models for the Analysis of Volatile Organic Compounds in Waste Disposal Sites , 1987 .

[8] E. Paulson. A Note on the Estimation of Some Mean Values for a Bivariate Distribution , 1942 .