Reference Range of Plasma Fatty Acids in North Indian Pregnant Population.

IF 1.5 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Indian Journal of Clinical Biochemistry Pub Date : 2023-10-01 Epub Date: 2022-08-17 DOI:10.1007/s12291-022-01071-7

Shubham Thakur, Amrit Pal Kaur, Kanwardeep Singh, Rajpinder Kaur, Manpreet Kaur, Subheet Kumar Jain

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Abstract

Reference values for Fatty Acids (FAs) are not well defined in the Indian population. Therefore, it is critical to establish FAs reference range for the healthy non-pregnant and pregnant Indian population. The present multi-centric, and cross-sectional study determines the 95% reference interval for FAs in an apparently pregnant Indian population and compare it to the healthy non-pregnant women. Physicians identified 164 reference individuals as healthy (56 non-pregnant and 108 pregnant) at various government and private hospitals of northern India. The 95th and 97.5th percentile reference limits were used to estimate the 95 percentile of the reference distribution. The reference ranges observed for Alpha-linolenic acid (0.29-0.42%; 0.36-0.58%), Docosahexaenoic-acid (3.38-4.23%; 3.8-4.55%), Eicosapentaenoic-acid (1.24-1.76%; 1.09-1.62%), Docosapentaenoic-acid-3 (0.61-0.69%; 0.65-0.76%), Linoleic-acid (18.44-20.75%; 19.51-21.88%), gamma-linolenic-acid (0.24-0.35%; 0.32-0.42%), Eicosatrienoic-acid (0.26-0.32%; 0.34-0.39%), Arachidonic-acid (9.29-11.02%; 10.02-11.56%), Docosatetraenoic-acid (0.62-0.89%; 0.79-1.09%), Docosapentaenoic-acid-6 (0.23-0.31%; 0.33-0.41%), Eicosatrienoic-acid (1.17-1.41%; 1.43-1.74%), Eicosenoic-acid (0.28-0.38%; 0.37-0.49%), Nervonic-acid (1.39-1.69%; 1.41-1.74%), Palmitoleic-acid (1.17-1.58%; 2-2.66%), Oleic-acid (19.8-22.26%; 19.68-22.94%), Myristic-acid (1.16-1.68%; 0.82-1.3%), Palmitic-acid (20.05-21.8%; 20.7-22.43%), Stearic-acid (11.34-12.56%; 10.29-11.02%), Arachidic-acid (0.17-0.2%; 0.18-0.23%), Lignoceric-acid (0.81-1.08%; 0.77-1.08%), trans-palmitoleic-acid (0.22-0.29%; 0.26-0.37%), trans-oleic-acid (0.55-0.72%; 0.68-0.84%), trans-linoleic-acid (0.38-0.54%; 0.42-0.59%) respectively for non-pregnant and pregnant women. Furthermore, total FAs were significantly (p ≤ 0:05) higher in women aged 31-45 years than in women aged 16-30 years. whereas, there was no significant change in total FAs profile based on omega-supplementation, diet category, preterm-birth history, and gestation period. Thus, the current study provides information about an individual who is deficient in FAs and the dose required to increase FA concentrations in the body.

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北印度孕妇血浆脂肪酸的参考范围。

脂肪酸（FA）的参考值在印度人群中没有很好的定义。因此，为健康的非孕妇和孕妇印度人群建立FAs参考范围至关重要。目前的多中心、横断面研究确定了明显怀孕的印度人群中FA的95%参考区间，并将其与健康的非孕妇进行了比较。医生在印度北部的多家政府和私立医院确定了164名健康参考者（56名未怀孕，108名怀孕）。第95和97.5百分位参考限值用于估计参考分布的95百分位。观察到的α-亚麻酸（0.29-0.42%；0.36-0.58%）、二十二碳六烯酸（3.38-4.23%；3.8-4.55%）、二十碳五烯酸（1.24-1.76%；1.09-1.62%）、二十一碳五烯酸-3（0.61-0.69%；0.65-0.76%）、亚油酸（18.44-20.75%；19.51-21.88%）、γ-亚麻酸，花生四烯酸（9.29-11.02%；10.02-11.56%）、二十二碳四烯酸（0.62-0.89%；0.79-1.09%）、二十二C五烯酸-6（0.23-0.31%；0.33-0.41%）、二十碳三烯酸（1.17-1.41%；1.43-1.74%）、二十烯酸（0.28-0.38%；0.37-0.49%）、神经酸（1.39-1.69%；1.41-1.74%），棕榈油酸（1.17-1.58%；2-2.66%）、油酸（19.8-22.26%；19.68-22.94%）、肉豆蔻酸（1.16-1.68%；0.82-1.3%），非孕妇和孕妇分别为棕榈酸（20.05-21.8%；20.7-22.43%）、硬脂酸（11.34-12.56%；10.29-11.02%）、花生四烯酸（0.17-0.2%；0.18-0.23%）、木质纤维素酸（0.81-1.08%；0.77-1.08%）、反式棕榈油酸（0.22-0.29%；0.26-0.37%）、反性油酸（0.55-0.72%；0.68-0.84%）和反式亚油酸（0.38-0.54%；0.42-0.59%）。此外，总FA显著（p ≤ 0:05）高于16-30岁女性。然而，基于ω补充剂、饮食类别、早产史和妊娠期的总脂肪酸状况没有显著变化。因此，目前的研究提供了有关FA缺乏者的信息，以及增加体内FA浓度所需的剂量。

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来源期刊

Indian Journal of Clinical Biochemistry BIOCHEMISTRY & MOLECULAR BIOLOGY-

CiteScore

4.50

自引率

4.80%

发文量

期刊介绍： The primary mission of the journal is to promote improvement in the health and well-being of community through the development and practice of clinical biochemistry and dissemination of knowledge and recent advances in this discipline among professionals, diagnostics industry, government and non-government organizations. Indian Journal of Clinical Biochemistry (IJCB) publishes peer reviewed articles that contribute to the existing knowledge in all fields of Clinical biochemistry, either experimental or theoretical, particularly deal with the applications of biochemistry, molecular biology, genetics, biotechnology, and immunology to the diagnosis, treatment, monitoring and prevention of human diseases. The articles published also include those covering the analytical and molecular diagnostic techniques, instrumentation, data processing, quality assurance and accreditation aspects of the clinical investigations in which chemistry has played a major role, or laboratory animal studies with biochemical and clinical relevance.