Effect of Noise Filtering in an Ultraviolet Detector of UHPLC on the Statistical Reliability of Chemometrically Evaluated Repeatability.

IF 1.5 4区医学 Q4 CHEMISTRY, MEDICINAL Chemical & pharmaceutical bulletin Pub Date : 2024-01-01 DOI:10.1248/cpb.c24-00393

Akira Kotani, Koichi Machida, Ryo Watanabe, Hideki Hakamata

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Abstract

A noise filter, which is usually attached to a detector for chromatography, was applied for the improvement of a signal-to-noise ratio (S/N) on a chromatogram. The objective of this paper is to elucidate the effect of noise filtering in an UV detector of ultra HPLC (UHPLC) on the statistical reliability of chemometrically evaluated repeatability by the function of mutual information (FUMI) theory. To examine the statistical reliability of chemometrically evaluated repeatability in the UHPLC system associated with noise filtering, the standard deviation (SD) values of the area in baseline fluctuations with peak region k (s(k)) were obtained from six chromatograms with noise filtering. Further, the average of s(k) values (σ̂) was calculated from the s(k) values (n = 6) to be alternatively applied as the population SD. All s(k)/σ̂ values were within the 95% confidence intervals (CIs) at the freedom degree of 50, indicating the chemometrically estimated relative SD (RSD) of a peak area and RSD by repeated measurements of at least 50 times had equivalent reliability.

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超高效液相色谱紫外检测器中的噪声滤波对化学计量学评估重复性统计可靠性的影响

噪声滤波器通常安装在色谱检测器上，用于改善色谱图的信噪比（S/N）。本文旨在通过互信息函数（FUMI）理论，阐明超高效液相色谱（UHPLC）紫外检测器中的噪声滤波对化学计量学重复性评估的统计可靠性的影响。为了考察超高效液相色谱系统中与噪声过滤相关的化学计量学评价重复性的统计可靠性，我们从六张经过噪声过滤的色谱图中获得了峰区 k 的基线波动面积（s(k)）的标准偏差（SD）值。此外，还从 s(k) 值（n = 6）中计算出 s(k) 值的平均值（σ̂），作为总体 SD 值。在自由度为 50 时，所有 s(k)/σ ̂ 值都在 95% 置信区间 (CI) 内，这表明化学计量学估算的峰面积相对标度 (RSD) 与重复测量至少 50 次的 RSD 具有同等可靠性。

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来源期刊

Chemical & pharmaceutical bulletin 医学-化学综合

CiteScore

3.20

自引率

5.90%

发文量

132

审稿时长

1.7 months

期刊介绍： The CPB covers various chemical topics in the pharmaceutical and health sciences fields dealing with biologically active compounds, natural products, and medicines, while BPB deals with a wide range of biological topics in the pharmaceutical and health sciences fields including scientific research from basic to clinical studies. For details of their respective scopes, please refer to the submission topic categories below. Topics: Organic chemistry In silico science Inorganic chemistry Pharmacognosy Health statistics Forensic science Biochemistry Pharmacology Pharmaceutical care and science Medicinal chemistry Analytical chemistry Physical pharmacy Natural product chemistry Toxicology Environmental science Molecular and cellular biology Biopharmacy and pharmacokinetics Pharmaceutical education Chemical biology Physical chemistry Pharmaceutical engineering Epidemiology Hygiene Regulatory science Immunology and microbiology Clinical pharmacy Miscellaneous.