Preliminary comparisons between a point-of-care ketometer and reference method using Steller sea lion pup whole blood and plasma.

IF 2.6 3区环境科学与生态学 Q2 BIODIVERSITY CONSERVATION

Conservation Physiology Pub Date : 2024-01-27 eCollection Date: 2024-01-01 DOI:10.1093/conphys/coad104

Stephanie G Crawford, Robert H Coker, Lorrie D Rea

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Abstract

We evaluated the Precision Xtra™ ketometer as part of a larger study categorizing fasting status of free-ranging Steller sea lion (Eumetopias jubatus; SSL) pups which necessitated the identification of plasma β-hydroxybutyrate concentrations ([β-HBA]) around a threshold of <0.3 and ≥0.3 mmol/l. Whole blood samples mixed with sodium heparin (NaHep) or ethylenediaminetetraacetic acid liquid anticoagulants were tested <10 minutes after collection (n = 14; triplicate technical replicates). Plasma (stored at -80°C, NaHep, Thaw1) measured via our laboratory's Reference Assay (Sigma Aldrich, St. Louis, MO, Kit #MAK041) served as the standard [β-HBA] for ketometer comparisons. Our observed β-HBA range (0.0-1.6 mmol/l), consistent with published [β-HBA] of free-ranging Otariid pups, represented the lower 20% of the ketometer's range (0.0-8.0 mmol/l). The maximal coefficient of variation (%CV) of ketometer technical replicates was 9.1% (NaHep, whole blood). The majority of ketometer technical replicate sets (84%, including all matrices, anticoagulants and thawings) were identical (CV = 0%). We found linear relationships and agreement of ketometer [β-HBA] between whole blood preserved with different anticoagulants and between whole blood and plasma (Thaw1) measurements. The ketometer produced results with linearity to the Reference Assay for both whole blood and plasma (Thaw1). We identified a non-linear relationship between plasma at Thaw1 and Thaw2 (tested four months apart, NaHep), as only samples with higher SSL [β-HBA] decreased in concentration, and all others remained the same. With respect to categorizing SSL pup fasting in our larger study, the ketometer's %Accuracy, %Sensitivity and %Specificity for samples with Reference Assay β-HBA <0.2 and >0.4 mmol/l were 100%. We adopted a modified procedure: plasma samples with mean ketometer concentrations ±0.1 mmol/l of 0.3 mmol/l β-HBA were re-evaluated using the Reference Assay, improving measurement precision from tenths (ketometer) to thousandths (assay) mmol/l. The Precision Xtra™ ketometer was valuable to our application over the range of [β-HBA] observed in SSL pup plasma and whole blood samples.

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使用斯特勒海狮幼崽的全血和血浆，对护理点血酮计和参考方法进行初步比较。

我们对 Precision Xtra™ 测酮仪进行了评估，这是一项大型研究的一部分，该研究对自由放养的斯特勒海狮（Eumetopias jubatus; SSL）幼崽的空腹状态进行分类，需要确定血浆 β-羟丁酸浓度（[β-HBA]）的临界值（n = 14；一式三份技术重复）。血浆（储存于 -80°C，NaHep，Thaw1）通过我们实验室的参考测定法（Sigma Aldrich，St. Louis，MO，Kit #MAK041）测量，作为酮率计比较的标准[β-HBA]。我们观察到的β-HBA范围（0.0-1.6 毫摩尔/升）与已发表的自由活动的鸮幼崽的[β-HBA]一致，代表了酮率计范围（0.0-8.0 毫摩尔/升）的较低 20%。血酮计技术重复样本的最大变异系数（%CV）为 9.1%（纳氏血酮，全血）。大多数酮体测定仪技术重复集（84%，包括所有基质、抗凝剂和解冻）是相同的（CV = 0%）。我们发现不同抗凝剂保存的全血之间以及全血和血浆（Thaw1）测量之间的血酮计[β-HBA]具有线性关系和一致性。在全血和血浆（Thaw1）中，血酮测定仪得出的结果与参考测定结果呈线性关系。我们发现血浆解冻 1 和解冻 2（测试时间相隔四个月，NaHep）之间存在非线性关系，因为只有 SSL [β-HBA]较高的样本浓度才会下降，其他样本的浓度都保持不变。在我们的大型研究中，关于 SSL 幼崽空腹时的分类，酮体测定仪对参考测定值为 β-HBA 0.4 mmol/l 的样本的准确率、灵敏度和特异性均为 100%。我们采用了一种改进的程序：使用参考测定法重新评估平均酮体浓度为±0.1毫摩尔/升的血浆样本，其β-HBA浓度为0.3毫摩尔/升，测量精度从万分之一（酮体）提高到千分之一（测定法）毫摩尔/升。在 SSL 幼鼠血浆和全血样本中观察到的［β-HBA］范围内，Precision Xtra™ 酮值计对我们的应用非常有价值。

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来源期刊

Conservation Physiology Environmental Science-Management, Monitoring, Policy and Law

CiteScore

5.10

自引率

3.70%

发文量

审稿时长

11 weeks

期刊介绍： Conservation Physiology is an online only, fully open access journal published on behalf of the Society for Experimental Biology. Biodiversity across the globe faces a growing number of threats associated with human activities. Conservation Physiology will publish research on all taxa (microbes, plants and animals) focused on understanding and predicting how organisms, populations, ecosystems and natural resources respond to environmental change and stressors. Physiology is considered in the broadest possible terms to include functional and mechanistic responses at all scales. We also welcome research towards developing and refining strategies to rebuild populations, restore ecosystems, inform conservation policy, and manage living resources. We define conservation physiology broadly and encourage potential authors to contact the editorial team if they have any questions regarding the remit of the journal.