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兽医学中基于患者的反馈控制,用于通过内部自动血液分析仪获得的红细胞变量。

Patient-based feedback control for erythroid variables obtained using in-house automated hematology analyzers in veterinary medicine.

作者信息

Hammond Jeremy M, Lee W C, DeNicola Dennis B, Roche John

机构信息

IDEXX Laboratories, Inc, Westbrook, ME 04092, USA.

出版信息

Vet Clin Pathol. 2012 Jun;41(2):182-93. doi: 10.1111/j.1939-165X.2012.00429.x. Epub 2012 May 2.

DOI:10.1111/j.1939-165X.2012.00429.x
PMID:22551240
Abstract

BACKGROUND

Automated in-house diagnostic analyzers, most commonly used for hematologic and biochemical analysis, are typically calibrated, and then control materials are used to confirm the quality of results. Although this approach provides indirect knowledge that the system is performing correctly, it does not provide direct knowledge of system performance between control runs.

OBJECTIVES

The objectives of this study were to apply analysis of weighted moving averages to assess performance of hematology analyzers using animal patient samples from dogs, cats, and horses as they were analyzed and apply correction factors to mitigate instrument-driven biases when they developed.

METHODS

A set of algorithms was developed and applied to sequential batches of 20 samples. Repeated samples within a batch and large populations of samples with similar abnormalities were excluded. Data for 6 hematologic variables were grouped into batches of weighted moving averages; data were analyzed with control chart rules, a gradient descent algorithm, and fuzzy logic to define and apply adjustments.

RESULTS

A total of 102 hematology analyzers that had developed biases in RBC count, HCT, hemoglobin (HGB) concentration, MCV, MCH, and MCHC were evaluated. Following analysis, all variables except HGB concentration required adjustment, with RBC counts requiring only slight change and MCV requiring the greatest change. Adjustments were validated by comparing PCVs with the original and adjusted HCT values.

CONCLUSIONS

The proposed system provides feedback control to minimize system bias for RBC count, HCT, HGB concentration, MCV, MCH, and MCHC. Fundamental assumptions must be met for the approach to assure proper functionality.

摘要

背景

自动化的内部诊断分析仪最常用于血液学和生化分析,通常先进行校准,然后使用控制材料来确认结果的质量。虽然这种方法能间接了解系统运行正常,但无法直接了解两次控制运行之间的系统性能。

目的

本研究的目的是应用加权移动平均分析来评估血液分析仪的性能,这些分析仪使用来自犬、猫和马的动物患者样本进行分析,并在出现仪器驱动偏差时应用校正因子来减轻偏差。

方法

开发了一组算法并应用于连续的20个样本批次。排除批次内的重复样本和大量具有相似异常的样本。将6个血液学变量的数据分组为加权移动平均批次;使用控制图规则、梯度下降算法和模糊逻辑对数据进行分析,以定义和应用调整。

结果

共评估了102台在红细胞计数、血细胞比容、血红蛋白(HGB)浓度、平均红细胞体积(MCV)、平均红细胞血红蛋白含量(MCH)和平均红细胞血红蛋白浓度(MCHC)方面出现偏差的血液分析仪。分析后,除HGB浓度外的所有变量都需要调整,红细胞计数只需轻微变化,而MCV需要最大变化。通过将血细胞比容与原始和调整后的HCT值进行比较来验证调整。

结论

所提出的系统提供反馈控制,以最小化红细胞计数、血细胞比容、HGB浓度、MCV、MCH和MCHC的系统偏差。该方法要确保正常功能必须满足基本假设。

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