Cord Blood Lipid Profile of Term and Preterm Newborns in a Tertiary Hospital in South East Nigeria: Relationship with Gestational Age and Birth Weight

Authors

DOI:

https://doi.org/10.60787/tnhj.v23i1.638

Keywords:

Cord blood lipid profile, Gestational age, Birth weight, Nigeria

Abstract

Background: Early-onset atherosclerosis is a marker of future cardiovascular diseases. However, indicators of early dyslipidemia for primary prevention are generally lacking in sub-Saharan Africa. This study aimed at describing the cord blood lipid profile in Nigeria and its relationship with gestational age and birth weight.

Methods: Cross-sectional study of 167 consecutively recruited newborns in a tertiary hospital whose cord blood lipid profile parameters were assessed using an autoanalyzer (BiOLis 24i). Lipid variables were presented with descriptive statistics whereas their relationship with gestational age and birth weight was highlighted using correlation analysis.

Results: The median values (in mg/dL) of total cholesterol (TC), triglycerides (TG), high-density lipoprotein cholesterol (HDL – C), low-density lipoprotein cholesterol (LDL – C) and very low-density lipoprotein cholesterol (VLDL – C) were 60.0, 30.5, 29.0, 25.8 and 6.1 respectively, all within the normal international ranges. Triglycerides and VLDL-C had a moderate positive correlation with gestational age (rs = 0.4; p < 0.001) and were significantly higher in small-for-gestational-age newborns. Total cholesterol, HDL – C, and LDL-C had a weak negative correlation with gestational age and birth weight (spearman rs ˂ - 0.3). Birth weight, gestational age, and paternal age were the common predictors of lipid profile variability.

Conclusion: The finding of a significant relationship between lipid variables with gestational age and birth weight underscores the need to clinically interpret these given the relationship. The relationship with paternal age is another interesting finding which needs to be replicated and the mechanism(s) elucidated.

Downloads

Download data is not yet available.

References

Hong YM. Atherosclerotic Cardiovascular Disease Beginning in Childhood. Korean Circ J2010;40(1): 1–9. DOI:0.4070/kcj.2010.40.1.1

Pyles LA, Neal WA. Disorders of lipoprotein metabolism and transport. In: Nelson Textbook of Pediatrics.21st ed. Kliegman R, Stanton B, St. Geme, Schor NF, Behrman RE, editor. Philadelphia, United States: Elsevier -Health Sciences Division; 2016:751-764.

Kenchappa Y, Behera N. Assay of neonatal cord blood lipid levels and its correlation with neonatal gestational age, gender and birth weight: a single center experience. Int J Contemp Pediatr. 2016;3(3):718-724. DOI:10.18203/2349-3291.ijcp20161905.

Dahlui M, Azahar N, Oche OM, Aziz NA. Risk factors for low birth weight in Nigeria: evidence from the 2013 Nigeria Demographic and Health Survey. Glob Health Action2016; 9(1):28822. DOI:10.3402/gha.v9.28822.

Barker DJP. Fetal origins of coronary heart disease.BMJ1995;311: 171-174. DOI:10.1136/bmj.311.6998.171.

Gillman M.W., Daniels S.R. Is universal pediatric lipid screening justified? JAMA2012; 307(3):259-260. DOI:10.1001/jama.2011.2012.

Rohrs JH, Schatz D, Winter WE, Davis V. Pediatric Lipid Disorders in Clinical Practice Treatment and Management (updated 27, 2019). Available from: http://emedicine.medscape.com/article/1825087-treatment.Assessed on 23rd February, 2022.

Atiy JK, Manther AA, Nadhim MS. Lipid Profile in Cord Blood and its Relation to Selected Neonatal and Maternal Characteristics. J Neonatal Biol 2018;7: 269.

Hall K. Suitable specimen types for newborn biochemical screening-A summary. Int J NeonatalScreen. 2017;3(3):17. DOI:10.3390/ijns300017.

Deeg M. Lipid topics: Variations in Lipid Values. TB003. Rev.2006;6: 1-4.

Ference BA, Ginsberg HN, Graham I, et al. Low-density lipoproteins cause atherosclerotic cardiovascular disease. I. Evidence from genetic, epidemiologic, and clinical studies. A consensus statement from The European Atherosclerosis Society Consensus Panel. Eur Heart J2017; 38(32): 2459-2472. DOI:10.1093/eurheart/ehx144.

Gomina M, Obossou A, Amevor G, Salifou T, Akpona S. Profile of cord blood lipids in term newborns in Parakou (Benin). Int J Clin Biochem Res. 2020;7(1):111–115. DOI:10.18231/j.ijcbr.2020.022.

Boersma ER. Serum lipids in maternal/cord blood pairs from normal and low birthweight infants in Dar Es Salaam, Tanzania. Acta Pediatr Scand1980; 69: 747-751. DOI:10.1111/j.1651-2227.1980.tb07144.x.

Ibeziako PA, Jeyakuma LH, Ette SI: Cholesterol and phospholipid levels in Nigerian mothers and newborn. J Trop Pediatr1982; 28(3): 135-138. DOI:10.1093/tropej/28.3.135.

Okoro BA, Udeozo IO, Okeahialam TC: Influence of birthweight and social status on cord blood cholesterol in full term Nigerian neonates. Trop Geogr Med. 1985, 37(4):356-358.

Taylor GO, Olufunwa SA, AgbedanaEO, Akande EO. Maternal and cord plasma levels of high-density lipoprotein cholesterol and triglycerides in Nigeria. Br J Obstet Gynaecol1980;87(1):33-37. DOI:10.1111/j.1471-0528.1980.tb04422.x

Umar L W, Aliyu IS, AkuyamSA, Evaluation of lipid profile in cord blood of full-term Nigerian newborn infants. Sub –Saharan Afr J Med2017; 4(1): 9-14. DOI:10.4103/ssajm.ssajm_44_16.

Ayoola OO, Whatmore A, Balogun WO, Jarrett OO, Cruickshank JK, Clayton PE. Maternal malaria status and metabolic profiles in pregnancy and in cord blood: Relationships with birth size in Nigerian infants. Malar J2012; 11:75. DOI:10.1186/1475-2875-11-75.

Ikem I, Sumpio BE. Cardiovascular disease: the new epidemic in sub-Saharan Africa. Vascular 2011;19(6):301–7. DOI: 10.1258/vasc.2011.ra0049.

Yashodha HT, Anjum SK. Cord blood lipid profile in late preterm and term neonates. Int J Contemp Pediatr2018;5(2):542-546. DOI:10.18203/2349-3291.ijcp20180551.

Tohmaz U, Raid MR. Cord Blood Lipid Profile in Premature, Near-Term and Term Newborn Infants. IJN2014; 4(4):8–10.

Suresh KP, Chandrashekara S. Sample size estimation and power analysis for clinical research studies. J Hum Reprod Sci2012;5(1):7-13. DOI:10.4103/0974-1208.97779.

Farinde Abimbola. Lipid-Lowering Agents. Available from: http://emedicine.medscape.com/article/2172172-overview. Accessed 13thMarch 2017.

Moll Jennifer. Which Drugs Can Raise Cholesterol Levels?Available from: https://www.verywell.com/which-drugs-can-raise-cholesterol-levels-698229. Accessed 13thMarch, 2017.

Armson BA, Allan DS, Casper RF, Umbilical Cord Blood: Counselling, Collection and Banking. J Obs Gynaecol Can2015; 37(9): 832-44. DOI:10.1016/S1701-2163(15)30157-2

Ezenwosu OU, Emodi IJ, Ikefuna AN, Chukwu BF, Osuorah CD. Determinants of academic performance in children with sickle cell anaemia. BMC Pediatr2013; 13: 189. DOI:10.1186/1471-2431-13-189.

Royal Berkshire NHS Foundation Trust.Newborn & Infant Physical Examination (NIPE) Paper form. Available at http://www.royalberkshire.nhs.uk/postnatal_2.htm. Assessed on 14thMay, 2018.

ACOG. Method for estimating due date -Committee Opinion No 611. Obstet Gynecol2014; 124: 863–6.

Ballard JL, Khoury JC, Wedig K, Wang L, Eilers-Walsman BL, Lipp R. New Ballard Score, expanded to include extremely premature infants. J Pediatrics1991; 119(3):417-423. DOI:10.1016/S0022-3476(05)82056-6.

Bansal SK, Yadav R. A Study of the Extended Lipid Profile including Oxidized LDL, Small Dense LDL, Lipoprotein (a) and Apolipoproteins in the Assessment of Cardiovascular Risk in Hypothyroid Patients. J Clin Diagn Res. 2016;10(6): BC04-BC08. DOI:10.7860/JCDR/2016/19775.8067.

FriedewaldWT, Levy RI, Fredrickson DS. Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge. Clin Chem 1972; 18(6): 499–502. DOI:10.1093/clinchem/18.6.499.

Kermani A, Namakin K, SharifzadehGR, Faal GR. Umbilical cord blood lipid profile in healthy neonates in Iran. Iran J Pediatr2020;30(3):e99114. DOI:10.5812/ijp.99114.

Yonezawa R, Okada T, Kitamura T, Fujita H, Inami I, Makimoto M, et al. Very low-density lipoprotein in the cord blood of preterm neonates. Metabolism 2009;58(5):704–7. DOI:10.1016/j.metab.2009.02.004

Donegá S, Oba J, Maranhão RC. Concentration of Serum Lipids and Apolipoprotein B in Newborns. Arq Bras Cardiol2006; 86:1–6.

Nayak CD, Agarwal V, Nayak DM. Correlation of cord blood lipid heterogeneity in neonates with their anthropometry at birth. Indian J Clin Biochem2013;28(2):152–7. DOI:10.1007/S12291-012-0252.5

Magon P, Bharatwaj RS, Verma M, Chetwal J. Cord Blood Lipid Profile at Birth Among Normal Indian Newborns and Its Relation to Gestational Maturity and Birth Weight-A Cross Sectional Study. Paripex-Indian J Res2013; 2(7):1–4.

Ghaemi S, Najafi R, Kelishadi R. Cord blood lipoprotein profile in term, preterm, and late preterm newborns. J Res Med Sci2014; 19(11):1038–40.

Herrera E, Amusquivar E. Lipid metabolism in the fetus and the newborn. Diabetes Metab Res Rev2000; 16(3): 202-210. DOI:10.1002/1520-7560(200005/06)16:3<202::AID-DMRR116>3.0.CO;2-%23

Kaneva AM, Potolitsyna NN, Bojko E R, Odland JO. The apolipoprotein B/apolipoprotein A -1 ratio as a potential marker of plasma atherogenicity. Dis Markers2015:2015:591454. DOI:10.1155/2015/591454.

Aletayeb SMH, Dehdashtian M, Aminzadeh M, Moghaddam A-RE, Mortazavi M, Malamiri RA, et al. Correlation between umbilical cord blood lipid profile and neonatal birth weight. Pediatr Pol2013; 88(6):521–5. DOI:10.1016/j.pepo.2013.08.004.

Downloads

Published

2023-03-11 — Updated on 2023-03-16

Versions

How to Cite

Obaji, O., Chukwudi, N., Adiele, D., Adizua, U., & Onu, J. (2023). Cord Blood Lipid Profile of Term and Preterm Newborns in a Tertiary Hospital in South East Nigeria: Relationship with Gestational Age and Birth Weight . The Nigerian Health Journal, 23(1), 478–488. https://doi.org/10.60787/tnhj.v23i1.638 (Original work published March 11, 2023)

Issue

Section

Original Articles
Abtract Views | PDF Download | EPUB Download: 569 / 142

Similar Articles

<< < 21 22 23 24 25 26 27 28 29 30 > >> 

You may also start an advanced similarity search for this article.