Biological variation of 16 biochemical analytes estimated from a large clinicopathologic database of dogs and cats

IF 1.2 4区农林科学 Q3 VETERINARY SCIENCES Veterinary clinical pathology Pub Date : 2024-05-27 DOI:10.1111/vcp.13357

Takashi Tamamoto, Yohei Miki, Mei Sakamoto, Maiko Yoshii, Megumi Yamada, Daisuke Sudo, Yusuke Fusato, Junko Ozawa, Chikara Satake

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Abstract

Background

Biochemical measurements are commonly evaluated using population-based reference intervals; however, there is a growing trend toward reassessing results with within-subject variation (CV_I).

Objectives

We aimed to estimate the CV_I of 16 biochemical analytes using a large database of dogs and cats, which refers to the results of routine health checkups.

Methods

Pairs of sequential results for 16 analytes were extracted from a database of adult patients. The second result was divided by the first result to produce the ratio of sequential results (rr), and the frequency distribution of rr was plotted. From the plots, the coefficient of variation (CV_rr) was calculated. Analytical variation (CV_A) was calculated using quality control data, and CV_I was estimated as follows: ${CV}_{I} = {({({CV}_{rr} / 2^{1 / 2})}^{2} - {CV}_{A}^{2})}^{1 / 2}$ . Estimated CV_I was compared with previously reported CV_I using the Bland–Altman plot analysis.

Results

From the database, 9078 data points from 3610 dogs and 3743 data points from 1473 cats were extracted, with 5468 data pairs for dogs and 2270 for cats. Sampling intervals ranged from 10 to 1970 days (median 366) for dogs and 23 to 1862 days (median 365) for cats. Bland–Altman analysis showed most CV_I plots fell within the limits of agreement; however, positive fixed biases were observed in both dogs and cats.

Conclusions

Our study introduces a novel approach of estimating CV_I using routine health checkup data in dogs and cats. Despite biases, our method holds promise for clinical application in assessing the significance of measurement result differences.

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从大型猫狗临床病理学数据库中估算出 16 种生化分析物的生物变异。

背景：生化测量通常使用基于群体的参考区间进行评估；然而，使用受试者内变异（CVI）重新评估结果的趋势正在不断增长：我们的目的是利用一个大型猫狗数据库来估算 16 种生化分析物的 CVI，该数据库指的是常规健康检查的结果：方法：从成年患者数据库中提取 16 种分析物的成对连续结果。方法：从成年患者数据库中提取 16 种分析物的成对连续结果，用第二项结果除以第一项结果得出连续结果比值（rr），并绘制 rr 的频率分布图。根据图表计算出变异系数（CVrr）。使用质量控制数据计算分析变异 (CVA)，并按以下方法估算 CVI： CV I = CV rr / 2 1 / 2 2 - CV A 2 1 / 2 $$ {\mathrm{CV}}_{\mathrm{I}}={left({left[{\mathrm{CV}}_{\mathrm{rr}}/{2}^{1/2}\right]}^2-{\mathrm{CV}}_{\mathrm{A}}^2\right)}^{1/2} $$ 。使用布兰-阿尔特曼图分析法将估计的 CVI 与之前报告的 CVI 进行比较：从数据库中提取了来自 3610 只狗的 9078 个数据点和来自 1473 只猫的 3743 个数据点，其中狗有 5468 个数据对，猫有 2270 个数据对。狗的采样间隔从 10 天到 1970 天不等（中位数为 366 天），猫的采样间隔从 23 天到 1862 天不等（中位数为 365 天）。Bland-Altman分析表明，大多数CVI图都在一致的范围内；但是，在狗和猫身上都观察到了正的固定偏差：我们的研究介绍了一种利用猫狗常规健康检查数据估算 CVI 的新方法。尽管存在偏差，我们的方法仍有望应用于临床，评估测量结果差异的重要性。

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来源期刊

Veterinary clinical pathology 农林科学-兽医学

CiteScore

1.70

自引率

16.70%

发文量

133

审稿时长

18-36 weeks

期刊介绍： Veterinary Clinical Pathology is the official journal of the American Society for Veterinary Clinical Pathology (ASVCP) and the European Society of Veterinary Clinical Pathology (ESVCP). The journal''s mission is to provide an international forum for communication and discussion of scientific investigations and new developments that advance the art and science of laboratory diagnosis in animals. Veterinary Clinical Pathology welcomes original experimental research and clinical contributions involving domestic, laboratory, avian, and wildlife species in the areas of hematology, hemostasis, immunopathology, clinical chemistry, cytopathology, surgical pathology, toxicology, endocrinology, laboratory and analytical techniques, instrumentation, quality assurance, and clinical pathology education.