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Environmental toxicants and fetal development is the impact of different toxic substances from the environment on the development of the fetus. This article deals with potential adverse effects of environmental toxicants on the prenatal development of both the embryo or fetus, as well as pregnancy complications. The human embryo or fetus is ...
"Caffeine can also cross the placenta readily, and because caffeine clearance slows as pregnancy progresses, caffeine accumulation may occur in fetal tissues." One 12-ounce cup (355 ml) of brewed ...
The fetus and infant are especially vulnerable to mercury exposures with special interest in the development of the CNS since it can easily cross across the placental barrier, accumulate within the placenta and fetus as the fetus cannot eliminate mercury and have a negative effect on the fetus even if the mother does not show symptoms. [16]
These are termed long chain, omega-3, polyunsaturated fatty acids, and are considered important for fetal neurodevelopment. [6] Additionally, fish are good sources of vitamins A, D, and B12, as well as the mineral iodine. [6] Due to risks of heavy-metal toxicity on fetal neurodevelopment, many mothers are concerned about eating fish during ...
The health effects of coffee include various possible health benefits and health risks. [ 1 ] A 2017 umbrella review of meta-analyses found that drinking coffee is generally safe within usual levels of intake and is more likely to improve health outcomes than to cause harm at doses of 3 or 4 cups of coffee daily.
But according to Yawitz, “having too much can lead to anxiety, insomnia, diarrhea, jitters, a rapid heart rate, and other unpleasant side effects.” And, in very extreme cases, death. Mike Kemp ...
Since the baby is so dependent upon the mother, maternal nutrition also plays a large role in the infant developing healthy brain functioning; including memory function, which the infant cannot live without. Thus, fetal memory is critical to the survival and healthy development of the infant before and after birth.
The resulting effects can impact many different areas of the developing child's brain, such as the hypothalamus, corpus callosum, amygdala, hippocampus, and cerebellum. Animal studies have shown that prenatal stress may result in reduced hippocampus volumes and amygdala nuclei volumes, both of which may have a negative impact on memory. [12]