Jadavji Laboratory



Deparment Biomedical Sciences, Division of Molecular and Integrative Physiology

Southern Illinois University



The impact of maternal dietary folic acid or choline deficiencies on cerebral blood flow, cardiac, aortic, and coronary function in young and middle-aged female mouse offspring following ischemic stroke


Journal article


Kasey Pull, Robert Folk, Jeemin Kang, Shaley Jackson, Brikena Gusek, Mitra Esfandiarei, N. Jadavji
bioRxiv, 2023

Semantic Scholar DOI
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APA   Click to copy
Pull, K., Folk, R., Kang, J., Jackson, S., Gusek, B., Esfandiarei, M., & Jadavji, N. (2023). The impact of maternal dietary folic acid or choline deficiencies on cerebral blood flow, cardiac, aortic, and coronary function in young and middle-aged female mouse offspring following ischemic stroke. BioRxiv.


Chicago/Turabian   Click to copy
Pull, Kasey, Robert Folk, Jeemin Kang, Shaley Jackson, Brikena Gusek, Mitra Esfandiarei, and N. Jadavji. “The Impact of Maternal Dietary Folic Acid or Choline Deficiencies on Cerebral Blood Flow, Cardiac, Aortic, and Coronary Function in Young and Middle-Aged Female Mouse Offspring Following Ischemic Stroke.” bioRxiv (2023).


MLA   Click to copy
Pull, Kasey, et al. “The Impact of Maternal Dietary Folic Acid or Choline Deficiencies on Cerebral Blood Flow, Cardiac, Aortic, and Coronary Function in Young and Middle-Aged Female Mouse Offspring Following Ischemic Stroke.” BioRxiv, 2023.


BibTeX   Click to copy

@article{kasey2023a,
  title = {The impact of maternal dietary folic acid or choline deficiencies on cerebral blood flow, cardiac, aortic, and coronary function in young and middle-aged female mouse offspring following ischemic stroke},
  year = {2023},
  journal = {bioRxiv},
  author = {Pull, Kasey and Folk, Robert and Kang, Jeemin and Jackson, Shaley and Gusek, Brikena and Esfandiarei, Mitra and Jadavji, N.}
}

Abstract

Background and Purpose Adequate maternal dietary levels of one-carbon (1C) metabolites, such as folic acid and choline, play an important role in the closure of the neural tube in utero; however, the impact of deficiencies in 1C on offspring neurological function after birth remain undefined. Stroke is one of the leading causes of death and disability globally. The aim of our study was to determine the impact of maternal 1C nutritional deficiencies on cerebral and peripheral blood flow after ischemic stroke in adult female offspring. Method In this study, female mice were placed on either control (CD), folic acid (FADD), or choline (ChDD) deficient diets prior to pregnancy. Female offspring were weaned onto a CD for the duration of the study. Ischemic stroke was induced in offspring and after six weeks cerebral and peripheral blood flow velocity was measured using ultrasound imaging. Results Our data showed that 11.5-month-old female offspring from ChDD mothers had reduced blood flow in the posterior cerebral artery compared to controls. In peripheral blood flow velocity measurements, we report an aging effect. Conclusions These results emphasize the importance of maternal 1C diet in early life neuro-programming on long-term vasculature health.