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Fetal circulation is a unique system that facilitates the exchange of gases, nutrients, and waste products between the developing fetus and the mother. This intricate process takes place through a special organ called the placenta.
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The gonads, namely the testes in males and the ovaries in females, are pivotal in producing gonadal hormones that orchestrate the intricate processes of sexual development and reproduction.
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Diabetes mellitus is a chronic metabolic disorder characterized by hyperglycemia. The four categories of diabetes are type 1 diabetes, type 2 diabetes, other specific types of diabetes, and gestational diabetes.
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The development of the vascular system in a fetus is a complex and intricate process that begins as early as 15 to 16 days post-conception. This process starts outside the embryo, specifically in the mesoderm of the yolk sac, chorion, and connecting stalk. Approximately two days later, the formation of blood vessels occurs within the embryo itself.
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Related Experiment Video

Updated: Jun 24, 2025

The 4-vessel Sampling Approach to Integrative Studies of Human Placental Physiology In Vivo
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The 4-vessel Sampling Approach to Integrative Studies of Human Placental Physiology In Vivo

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Physically active pregnancies: Insights from the placenta.

Kristi B Adamo1,2, Alexandra D Goudreau3, Abbey E Corson1

  • 1School of Human Kinetics, Faculty of Health Sciences, University of Ottawa, Ottawa, Ontario, Canada.

Physiological Reports
|June 14, 2024
PubMed
Summary

Regular physical activity during pregnancy benefits placental health by influencing nutrient transport and immune responses. Further research is needed to understand its full impact on placental mitochondria and development.

Keywords:
lipidsmitochondrianutrient transportphysical activityplacentapregnancy

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Area of Science:

  • Reproductive Biology
  • Exercise Physiology
  • Developmental Biology

Background:

  • Physical activity (PA) during pregnancy is crucial for maternal and fetal health.
  • Its effects on placental structure and function are increasingly recognized but not fully understood.
  • Existing literature highlights PA's influence on placental metabolism and inflammation.

Purpose of the Study:

  • To review the association between physical activity and placental biology.
  • To identify knowledge gaps concerning PA's impact on placental physiology.
  • To explore PA's role in placental development and maternal-fetal health outcomes.

Main Methods:

  • Literature review of studies examining physical activity and placental function.
  • Analysis of research on placental metabolism, inflammation, and '-omics' data.
  • Synthesis of findings related to placental mitochondria, immune microenvironment, and angiogenesis.

Main Results:

  • Physical activity during pregnancy alters placental nutrient transport and metabolic profiles.
  • PA influences placental gene expression, DNA methylation, and protein regulation via extracellular vesicles.
  • Evidence suggests PA positively impacts the placental immune microenvironment and angiogenesis.

Conclusions:

  • Physical activity during pregnancy shapes placental biology, influencing nutrient availability and inflammatory markers.
  • Gaps remain in understanding PA's effects on placental proteomic profiles and mitochondrial dynamics.
  • PA may confer benefits to fetal neurodevelopment and mental health through placental adaptations.