Cholesterol at ages 6, 12 and 24 months: Tracking and associations with diet and maternal cholesterol in the Infant Cholesterol Study

Øyri, Linn Kristin Lie; Bogsrud, Martin P.; Kristiansen, Anne Lene; Myhre, Jannicke Borch; Astrup, Helene; Retterstøl, Kjetil; Brekke, Hilde Kristin; Lennep, Jeanine E. Roeters van; Andersen, Lene Frost; Holven, Kirsten B.

doi:10.1016/j.atherosclerosis.2021.04.017

Cited by 5 publications

(8 citation statements)

References 37 publications

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“…Taageby Nielsen’s data demonstrate tracking of levels of LDL-C, non-HDL-C, and Lp(a) from birth to 2 months and to 14–16 months of age, consistent with previous data showing tracking of total cholesterol from 6 to 12 month of age. 2 The Young Finns Study (YFS), 7 showed a strong correlation between total cholesterol and LDL-C concentration at 3 years of age and in adulthood after 27 years of follow-up, demonstrating that the cholesterol levels at young age track into adulthood 7 and supporting the conclusion of the authors that ‘Concentrations at birth may thus be used as an indicator of high concentrations later in life’. 1…”

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confidence: 61%

“…However, at 14–16 months of age, the levels are similar. We have previously shown that in infants at 6 months of age, plasma levels of total cholesterol were similar to adult levels, 2 potentially suggesting that infants reach their adult levels between 2 and 6 months of age.…”

mentioning

confidence: 82%

“…A previous study showed that 20% of the infants at 6 months of age had plasma levels of total cholesterol above 5 mmol/L, 2 indicating that a considerable number of infants have plasma cholesterol levels above desired levels in infancy. The association between childhood total cholesterol level and Lp(a) and clinical CVD events had not been studied until recently.…”

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confidence: 97%

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Plasma cholesterol levels in infancy: a neglected resource

Holven

2023

European Heart Journal

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confidence: 61%

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confidence: 82%

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confidence: 97%

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Plasma cholesterol levels in infancy: a neglected resource

Holven

2023

European Heart Journal

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“…However, breastfeeding increased concentrations of triglycerides and remnant cholesterol significantly and thereby diet has a larger impact than genetic contributions on these parameters. Previous studies have suggested that lipid concentrations in early childhood (2–12 months of age) are correlated with concentrations in later childhood (1–5 years of age) 37 , 38 and that childhood and adolescent concentrations (13–18 years of age) correlate with adult concentrations (27-year follow-up). 39 However, it is still unclear if early childhood concentrations track all the way to adulthood, emphasizing that further studies are needed in this area.…”

Section: Discussionmentioning

confidence: 99%

Significance of lipids, lipoproteins, and apolipoproteins during the first 14–16 months of life

Taageby Nielsen,

Mohr Lytsen,

Strandkjær

et al. 2023

European Heart Journal

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Background and Aims The aims of this study were to investigate lipid parameters during the first 14–16 months of life, to identify influential factors, and to test whether high concentrations at birth predict high concentrations at 2- and 14–16 months. Methods The Copenhagen Baby Heart Study, including 13,354 umbilical cord blood samples and parallel venous blood samples from children and parents at birth (n = 444), 2 months (n = 364), and 14–16 months (n = 168), was used. Results Concentrations of lipids, lipoproteins, and apolipoproteins in umbilical cord blood samples correlated highly with venous blood samples from newborns. Concentrations of low-density lipoprotein (LDL) cholesterol, non-high-density lipoprotein (HDL) cholesterol, apolipoprotein B, and lipoprotein(a) increased stepwise from birth to 2 months to 14–16 months. Linear mixed models showed that concentrations of LDL cholesterol, non-HDL cholesterol, and lipoprotein(a) above the 80th percentile at birth were associated with significantly higher concentrations at 2 and 14–16 months. Finally, lipid concentrations differed according to sex, gestational age, birth weight, breastfeeding, and parental lipid concentrations. Conclusions Lipid parameters changed during the first 14–16 months of life, and sex, gestational age, birth weight, breastfeeding, and high parental concentrations influenced concentrations. Children with high concentrations of atherogenic lipid traits at birth had higher concentrations at 2 and 14–16 months. These findings increase our knowledge of how lipid traits develop over the first 14–16 months of life and may help in deciding the optimal child age for universal familial hypercholesterolaemia screening.

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“…We know from the Cardiovascular Risk in Young Finns study that lipid levels track through life, meaning that children with high LDL-C levels are more likely to become adults with high LDL-C levels. 4 We also know that there is a correlation between maternal and offspring lipid levels, [5][6][7] meaning that children with high LDL-C levels are more likely to have parents with high LDL-C levels. Therefore, we believe that within any population, children with LDL-C levels in the uppermost quintiles should be offered genetic testing for FH-causing variants and cascade screening of relatives, as well as a family-based approach to lifestyle management and drug therapy.Detecting and treating hypercholesterolemia from early in life may have profound implications for the lifetime risk of atherosclerotic cardiovascular disease (ASCVD).…”

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confidence: 99%

Population-Based Cholesterol Screening as a Primordial Prevention Strategy—Breaking the Cycle of Adverse Lipid Levels That Runs in Families and Tracks Through Life

Christensen

Holven

2023

JAMA Netw Open

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Sustar and colleagues 1 assessed the body mass index standard deviation score (BMI SDS), overweight and obesity, and cholesterol levels in a large cohort of prepubertal children from 2 independent populations (n = 12 111 German, n = 3535 Slovenian). In summary, they found a weak but positive correlation between low-density lipoprotein cholesterol (LDL-C) or total cholesterol (TC) levels and BMI SDS (R = 0.037, P < .001; and R = 0.052, P = .002). In a secondary analysis stratifying children by their BMI SDS, they found significant differences between some BMI groups in the German cohort (based on LDL-C values), but none in the Slovenian cohort (based on TC values). The authors conclude that LDL-C, but not TC, is associated with higher BMI SDS or with severe obesity at the population level, but is clinically unimportant at the individual level. This finding, they claim, suggests that genes rather than environment are associated with cholesterol levels in prepubertal children, thus making this an optimal time for a populationwide screening for familial hypercholesterolemia (FH) and other inherited dyslipidemias.The work by Sustar and colleagues 1 provides us with important support for considering a lipid screening program among the general population. We believe that a cholesterol screening program should be based on LDL-C; LDL-C is a more specific measure compared with TC, which is also affected by the level of high-density lipoprotein cholesterol, likely to be biased in populations with obesity and diabetes.Moreover, we agree with Sustar and colleagues 1 that screening for FH at younger ages rather than later in life will likely minimize the number of false-positive findings, for several reasons. First, cholesterol levels in the population tend to increase with age, potentially flagging more people for genetic testing, including individuals without FH. Also, genes likely explain more of the variation in cholesterol levels in younger individuals, compared with later in life. For example, in the Cardiovascular Risk in Young Finns study, for all lipid traits, the variance explained by known genes decreased from early childhood (12%-27% at age 3-6 years) to approximately age 20 years, at which time the variance explained stabilized by approximately 10%. 2 However, an early-life population-wide screening using LDL-C levels as a biomarker would not only detect children with FH-that is, those with a monogenic FH-causing variant-but also children with a high polygenic risk for elevated LDL-C levels 3 and children living in an LDL-C level-increasing environment independently of genetic risk. We know from the Cardiovascular Risk in Young Finns study that lipid levels track through life, meaning that children with high LDL-C levels are more likely to become adults with high LDL-C levels. 4 We also know that there is a correlation between maternal and offspring lipid levels, [5][6][7] meaning that children with high LDL-C levels are more likely to have parents with high LDL-C levels. Therefore, we believe that within any popu...

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Cholesterol at ages 6, 12 and 24 months: Tracking and associations with diet and maternal cholesterol in the Infant Cholesterol Study

Cited by 5 publications

References 37 publications

Plasma cholesterol levels in infancy: a neglected resource

Plasma cholesterol levels in infancy: a neglected resource

Significance of lipids, lipoproteins, and apolipoproteins during the first 14–16 months of life

Population-Based Cholesterol Screening as a Primordial Prevention Strategy—Breaking the Cycle of Adverse Lipid Levels That Runs in Families and Tracks Through Life

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