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Comparison of African savanna elephant () fatty acid profiles in whole blood, whole blood dried on blood spot cards, serum, and plasma.非洲草原象()全血、血斑卡上干燥的全血、血清和血浆中脂肪酸谱的比较。
PeerJ. 2021 Dec 14;9:e12650. doi: 10.7717/peerj.12650. eCollection 2021.
2
Implications of Nutritional Management on Fatty Acid Profiles of Southern White Rhinoceroses () Housed at Two Zoological Institutions.营养管理对两家动物园饲养的南方白犀牛脂肪酸谱的影响。
Animals (Basel). 2021 Oct 27;11(11):3063. doi: 10.3390/ani11113063.
3
Investigation of Dried Blood Spot Cards for Fatty Acid Analysis Using Porcine Blood.使用猪血对用于脂肪酸分析的干血斑卡进行研究。
Vet Med Int. 2021 Aug 28;2021:6624751. doi: 10.1155/2021/6624751. eCollection 2021.
4
BLOOD FATTY ACID PROFILES OF NERITIC JUVENILE WILD GREEN TURTLES () AND KEMP'S RIDLEYS ().贝类稚龟()和红海龟()的血液脂肪酸图谱。
J Zoo Wildl Med. 2021 Jun;52(2):610-617. doi: 10.1638/2019-0173.
5
ANALYSIS OF FATTY ACID PROFILES FOR EASTERN BOX () AND COMMON SNAPPING () TURTLES IN WILD AND MANAGED CARE ENVIRONMENTS.野生和人工管理环境下东方箱龟()和普通 snapping 龟()的脂肪酸谱分析。
J Zoo Wildl Med. 2020 Nov;51(3):478-484. doi: 10.1638/2019-0146.
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Best practices for the design, laboratory analysis, and reporting of trials involving fatty acids.涉及脂肪酸的试验的设计、实验室分析和报告的最佳实践。
Am J Clin Nutr. 2018 Aug 1;108(2):211-227. doi: 10.1093/ajcn/nqy089.
7
State of the Science in Dried Blood Spots.干血斑技术的科学现状
Clin Chem. 2018 Apr;64(4):656-679. doi: 10.1373/clinchem.2017.275966. Epub 2017 Nov 29.
8
Fatty Acids Consumption: The Role Metabolic Aspects Involved in Obesity and Its Associated Disorders.脂肪酸摄入:代谢方面在肥胖及其相关疾病中的作用。
Nutrients. 2017 Oct 22;9(10):1158. doi: 10.3390/nu9101158.
9
The stability of blood fatty acids during storage and potential mechanisms of degradation: A review.血液脂肪酸在储存期间的稳定性及潜在降解机制:综述
Prostaglandins Leukot Essent Fatty Acids. 2016 Jan;104:33-43. doi: 10.1016/j.plefa.2015.12.003. Epub 2015 Dec 17.
10
Effect of storage temperature in a Cambodian field setting on the fatty acid composition in whole blood.柬埔寨田间环境下储存温度对全血中脂肪酸组成的影响。
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评估储存温度对管理下的南方白犀牛干血斑卡片中脂肪酸分析的影响():对野外采集和营养护理的意义。

Assessment of the effects of storage temperature on fatty acid analysis using dried blood spot cards from managed southern white rhinoceroses (): implications for field collection and nutritional care.

机构信息

Animal Science, North Carolina State University, Raleigh, North Carolina, United States.

North Carolina Zoo, Asheboro, North Carolina, United States.

出版信息

PeerJ. 2022 Feb 14;10:e12896. doi: 10.7717/peerj.12896. eCollection 2022.

DOI:10.7717/peerj.12896
PMID:35186484
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8852271/
Abstract

BACKGROUND

Southern white rhinoceroses () are an endangered species in decline due to poaching and negative habitat changes. Conservation of the species has become increasingly important and a focus on better human management has become prevalent. One area of management that impacts southern white rhinoceroses is nutritional health monitoring, which is often conducted through blood analysis. Blood analysis conducted during field research can be difficult due to temperature, distance, and limited technological resources, so new methods of fast, and relatively stable blood collection are being pursued. One method that has been used in humans for many years is beginning to make its way into wildlife studies: the use of dried blood spot (DBS) cards. These cards are used as a tool to store single drops of whole blood on specialized filter paper and, once dried, can be used for nutritional biomarker analysis. An area of interest for southern white rhinoceroses and nutrition is monitoring fatty acid percentages for cardiovascular, immune, and reproductive health. The time and temperature limitations for storing blood fractions or liquid whole blood when analyzing fatty acids have been investigated, but few studies have performed storage studies on DBS cards colder than -20 °C or in non-human species.

METHODS

In order to better understand the limitations of DBS cards and the impact of temperature on fatty acid DBS samples in long-term storage, triplicate samples from seven adult southern white rhinoceroses at the North Carolina Zoo were collected and subjected to three storage treatments (immediate, room temperature (23 °C), or frozen (-80 °C) for 1 year).

RESULTS

Stearidonic (18:4w3) (Δ 0.3%), arachdic (20:0) (Δ 0.1%), eicosatetraenoic (20:4w3) (Δ 0.2%), and erucic acid (22:1w9) (Δ 0.1%) were in higher concentration in frozen than initial. Fatty acids in higher concentrations in the initial samples than frozen were myristic (14:0) (Δ 0.2%), mead (20:3w9) (Δ 0.1%), docosatetraenoic (22:4w6) (Δ 0.2%), nervonic (24:1) (Δ 0.1%), and total highly unsaturated fatty acids (HUFAs) (Δ 0.7%). Stearic (18:0) (Δ 2.2%), stearidonic (18:4w3) (Δ 0.3%), arachdic (20:0) (Δ 0.2%), paullinic (20:1w7) (Δ 0.4%), eicosatetraenoic (20:4w3) (Δ 0.1%), eicosapentaenoic (20:5w3) (Δ 0.1%), docosatetraenoic (22:4w6) (Δ 0.2%), nervonic acid (24:1) (Δ 0.2%), monoenes (Δ 1.9%), and total saturates (Δ 3.6%) had higher concentrations in room temperature than initial. Linoleic (18:2w6) (Δ 4.9%), mead acid (20:3w9) (Δ 0.1%), total polyunsaturated fatty acids (5.3%), and total omega-6 fatty acids (Δ 4.8%) had higher concentrations in initial compared to room temperature. Arachidonic (20:4w6) (Δ 0.4%) and omega-3 docosapentaenoic acid (22:5w3) (Δ 0.1%), had higher concentrations in frozen than in room temperature.

DISCUSSION

The frozen samples had the fewest statistical differences compared to room temperature samples and essential omega-3 and -6 fatty acids were stable with freezing up to 1 year. While more research is still warranted, current results suggest that DBS samples are best utilized when immediate analysis or -80 °C storage is available.

摘要

背景

南部白犀牛()是一种濒危物种,由于偷猎和栖息地的负面变化,数量正在减少。保护该物种变得越来越重要,人们越来越关注更好的人类管理。影响南部白犀牛的管理领域之一是营养健康监测,通常通过血液分析进行。由于温度、距离和有限的技术资源,野外研究中的血液分析可能会很困难,因此正在寻求新的快速、相对稳定的血液采集方法。一种在人类中使用多年的方法开始应用于野生动物研究:即使用干血斑(DBS)卡。这些卡片被用作储存专用滤纸上单滴血的工具,一旦干燥,就可以用于营养生物标志物分析。南部白犀牛和营养的一个关注领域是监测脂肪酸百分比,以了解心血管、免疫和生殖健康。已经研究了储存血液部分或液体全血以分析脂肪酸时的时间和温度限制,但很少有研究在低于-20°C 的温度下或在非人类物种中进行 DBS 卡的储存研究。

方法

为了更好地了解 DBS 卡的局限性以及温度对长期储存的脂肪酸 DBS 样本的影响,从北卡罗来纳动物园的七头成年南部白犀牛中采集了三份重复样本,并进行了三种储存处理(立即、室温(23°C)或冷冻(-80°C)一年)。

结果

硬脂酸(18:4w3)(Δ 0.3%)、花生四烯酸(20:0)(Δ 0.1%)、二十碳四烯酸(20:4w3)(Δ 0.2%)和芥酸(22:1w9)(Δ 0.1%)在冷冻时的浓度高于初始值。冷冻时的脂肪酸浓度高于初始值的是肉豆蔻酸(14:0)(Δ 0.2%)、二十碳三烯酸(20:3w9)(Δ 0.1%)、二十二碳四烯酸(22:4w6)(Δ 0.2%)、神经酸(24:1)(Δ 0.1%)和总高度不饱和脂肪酸(HUFAs)(Δ 0.7%)。硬脂酸(18:0)(Δ 2.2%)、硬脂酸(18:4w3)(Δ 0.3%)、花生四烯酸(20:0)(Δ 0.2%)、保幼酮酸(20:1w7)(Δ 0.4%)、二十碳四烯酸(20:4w3)(Δ 0.1%)、二十碳五烯酸(20:5w3)(Δ 0.1%)、二十二碳四烯酸(22:4w6)(Δ 0.2%)、神经酸(24:1)(Δ 0.2%)、单烯(Δ 1.9%)和总饱和脂肪酸(Δ 3.6%)在室温下的浓度高于初始值。亚油酸(18:2w6)(Δ 4.9%)、二十碳三烯酸(20:3w9)(Δ 0.1%)、总多不饱和脂肪酸(5.3%)和总ω-6 脂肪酸(Δ 4.8%)在初始值时的浓度高于室温值。花生四烯酸(20:4w6)(Δ 0.4%)和ω-3 二十二碳五烯酸(22:5w3)(Δ 0.1%)在冷冻时的浓度高于室温。

讨论

与室温样本相比,冷冻样本的统计学差异最小,并且必需的ω-3 和 ω-6 脂肪酸在冷冻长达 1 年时稳定。虽然仍需要更多的研究,但目前的结果表明,当可以立即进行分析或在-80°C 下储存时,DBS 样本是最佳的。