Study finds viral infections during pregnancy affect maternal behavior
In this preclinical study, the researchers used a chemical substance that activates the same receptor pathways as viruses, to trigger the immune system of the mother during pregnancy in a manner that is comparable to the typical course of a viral infection.
VIENNA: According to a new study by the Medical University of Vienna, viral infections during pregnancy affect the mother's brain and her postpartum care behavior. The findings of the research were published in the journal 'Molecular Psychiatry'. There is ample data from studies in mouse models demonstrating that viral infections during pregnancy can affect the developing brain of the young in utero (in the womb) with lifelong consequences for brain function and behavior.
A preclinical study has now shown, for the first time, that a viral-like immune activation during pregnancy also affects the maternal brain and significantly disrupts maternal care behavior after birth. These results are published by a research group led by behavioral biologist Daniela D. Pollak from the Division of Neurophysiology and Pharmacology at MedUni Vienna's Center for Physiology and Pharmacology, working together with colleagues from the Division of Molecular Neurosciences at MedUni Vienna's Center for Brain Research and from Columbia University (USA).
In this preclinical study, the researchers used a chemical substance that activates the same receptor pathways as viruses, to trigger the immune system of the mother during pregnancy in a manner that is comparable to the typical course of a viral infection. Once the young had been born, the maternal care behavior of the dams was behaviourally tested. "Dams who had experienced a viral-like immune activation were less caring towards their young than animals in the control group," said Daniela D. Pollak, describing the results.
"The naturally strong drive to take care of one's own offspring and to keep them safe from harm was much less pronounced corresponding to a significant decline in attachment behavior." The researchers not only observed changes in the behavior of the dams but also identified structural, molecular, and functional changes in their brains and were able to discover some of the underlying mechanisms.
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