Journal of Cardiovascular Development and Disease (Jul 2022)

The Relationship of Maternal Gestational Mass Spectrometry-Derived Metabolites with Offspring Congenital Heart Disease: Results from Multivariable and Mendelian Randomization Analyses

  • Kurt Taylor,
  • Nancy McBride,
  • Jian Zhao,
  • Sam Oddie,
  • Rafaq Azad,
  • John Wright,
  • Ole A. Andreassen,
  • Isobel D. Stewart,
  • Claudia Langenberg,
  • Maria Christine Magnus,
  • Maria Carolina Borges,
  • Massimo Caputo,
  • Deborah A. Lawlor

DOI
https://doi.org/10.3390/jcdd9080237
Journal volume & issue
Vol. 9, no. 8
p. 237

Abstract

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Background: It is plausible that maternal pregnancy metabolism influences the risk of offspring congenital heart disease (CHD). We sought to explore this through a systematic approach using different methods and data. Methods: We undertook multivariable logistic regression of the odds of CHD for 923 mass spectrometry (MS)-derived metabolites in a sub-sample of a UK birth cohort (Born in Bradford (BiB); N = 2605, 46 CHD cases). We considered metabolites reaching a p-value threshold Results: In the main multivariable analyses, we identified 44 metabolites suggestively associated with CHD, including those from the following super pathways: amino acids, lipids, co-factors and vitamins, xenobiotics, nucleotides, energy, and several unknown molecules. Of these 44, isoleucine and leucine were available in the larger BiB cohort (NMR), and for these the results were validated. The MR analyses were possible for 27/44 metabolites and for 11 there was consistency with the multivariable regression results. Conclusions: In summary, we have used complimentary data sources and statistical techniques to construct layers of evidence. We found that pregnancy amino acid metabolism, androgenic steroid lipids, and levels of succinylcarnitine could be important contributing factors for CHD.

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