一种对人体血液样本中双酚A（BPA）进行分析的循环法。

A round robin approach to the analysis of bisphenol A (BPA) in human blood samples.

作者信息

Vandenberg Laura N, Gerona Roy R, Kannan Kurunthachalam, Taylor Julia A, van Breemen Richard B, Dickenson Carrie A, Liao Chunyang, Yuan Yang, Newbold Retha R, Padmanabhan Vasantha, Vom Saal Frederick S, Woodruff Tracey J

机构信息

Program on Reproductive Health and the Environment, Department of Obstetrics, Gynecology, and Reproductive Sciences, University of California - San Francisco, San Francisco, CA, USA.

出版信息

Environ Health. 2014 Apr 1;13(1):25. doi: 10.1186/1476-069X-13-25.

DOI:10.1186/1476-069X-13-25

PMID:24690217

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4066311/

Abstract

BACKGROUND

Human exposure to bisphenol A (BPA) is ubiquitous, yet there are concerns about whether BPA can be measured in human blood. This Round Robin was designed to address this concern through three goals: 1) to identify collection materials, reagents and detection apparatuses that do not contribute BPA to serum; 2) to identify sensitive and precise methods to accurately measure unconjugated BPA (uBPA) and BPA-glucuronide (BPA-G), a metabolite, in serum; and 3) to evaluate whether inadvertent hydrolysis of BPA-G occurs during sample handling and processing.

METHODS

Four laboratories participated in this Round Robin. Laboratories screened materials to identify BPA contamination in collection and analysis materials. Serum was spiked with concentrations of uBPA and/or BPA-G ranging from 0.09-19.5 (uBPA) and 0.5-32 (BPA-G) ng/mL. Additional samples were preserved unspiked as 'environmental' samples. Blinded samples were provided to laboratories that used LC/MSMS to simultaneously quantify uBPA and BPA-G. To determine whether inadvertent hydrolysis of BPA metabolites occurred, samples spiked with only BPA-G were analyzed for the presence of uBPA. Finally, three laboratories compared direct and indirect methods of quantifying BPA-G.

RESULTS

We identified collection materials and reagents that did not introduce BPA contamination. In the blinded spiked sample analysis, all laboratories were able to distinguish low from high values of uBPA and BPA-G, for the whole spiked sample range and for those samples spiked with the three lowest concentrations (0.5-3.1 ng/ml). By completion of the Round Robin, three laboratories had verified methods for the analysis of uBPA and two verified for the analysis of BPA-G (verification determined by: 4 of 5 samples within 20% of spiked concentrations). In the analysis of BPA-G only spiked samples, all laboratories reported BPA-G was the majority of BPA detected (92.2 - 100%). Finally, laboratories were more likely to be verified using direct methods than indirect ones using enzymatic hydrolysis.

CONCLUSIONS

Sensitive and accurate methods for the direct quantification of uBPA and BPA-G were developed in multiple laboratories and can be used for the analysis of human serum samples. BPA contamination can be controlled during sample collection and inadvertent hydrolysis of BPA conjugates can be avoided during sample handling.

摘要

背景

人类普遍接触双酚A（BPA），然而人们担心能否在人血液中检测到BPA。本次循环检验旨在通过三个目标解决这一担忧：1）确定不会向血清中引入BPA的采集材料、试剂和检测设备；2）确定灵敏且精确的方法以准确测量血清中未结合的BPA（uBPA）和一种代谢物BPA - 葡萄糖醛酸苷（BPA - G）；3）评估在样品处理和加工过程中BPA - G是否会发生意外水解。

方法

四个实验室参与了本次循环检验。实验室对材料进行筛选，以确定采集和分析材料中的BPA污染情况。向血清中添加浓度范围为0.09 - 19.5（uBPA）和0.5 - 32（BPA - G）ng/mL的uBPA和/或BPA - G。另外保存未添加的样品作为“环境”样品。将盲样提供给使用液相色谱 - 串联质谱法（LC/MSMS）同时定量uBPA和BPA - G的实验室。为了确定BPA代谢物是否发生意外水解，对仅添加BPA - G的样品分析uBPA的存在情况。最后，三个实验室比较了定量BPA - G的直接和间接方法。

结果

我们确定了不会引入BPA污染的采集材料和试剂。在盲样加标样品分析中，对于整个加标样品范围以及添加了三个最低浓度（0.5 - 3.1 ng/ml）的样品，所有实验室都能够区分uBPA和BPA - G的低值和高值。到循环检验结束时，三个实验室验证了uBPA分析方法，两个实验室验证了BPA - G分析方法（验证标准为：5个样品中有4个在加标浓度的20%以内）。在仅添加BPA - G的样品分析中，所有实验室报告检测到的BPA中BPA - G占多数（92.2 - 100%）。最后，与使用酶促水解的间接方法相比，使用直接方法的实验室更有可能得到验证。

结论

多个实验室开发了灵敏且准确的直接定量uBPA和BPA - G的方法，可用于分析人血清样品。在样品采集过程中可以控制BPA污染，并且在样品处理过程中可以避免BPA共轭物的意外水解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7043/4066311/d1ac08d0f665/1476-069X-13-25-1.jpg

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一种对人体血液样本中双酚A（BPA）进行分析的循环法。

A round robin approach to the analysis of bisphenol A (BPA) in human blood samples.

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