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Prenatal stress
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Prenatal stress

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Prenatal stress (or prenatal maternal stress) is exposure of an expectant mother to psychosocial or physical stress, which can be caused by daily life events or by environmental hardships. This psychosocial or physical stress that the expectant mother is experiencing has an effect on the fetus. According to the Developmental Origins of Health and Disease (DOHaD), a wide range of environmental factors a woman may experience during the perinatal period can contribute to biological impacts and changes in the fetus that then causes health risks later in the child's life.

Health risks include impaired cognitive development, low birth weight and risk of mental disorders in the offspring.

Conducting Research

Studies have been conducted longitudinally in order to explore the way that prenatal stress impacts the fetus and its development. These studies took place over the course of the pregnancy and months after in order to collect the data necessary. The stress of the mothers was assessed using self-questionnaires like the Perceived Stress Scale (PSS) and the Patient Health Questionnaire-8 (PHQ8).

While focusing on the stress of the mothers during the pregnancy, researchers also focused on the hypothalamic-pituitary adrenal axis (HPA axis) which is a set of glucocorticoid feedback interactions through the mother to the placenta and then to the fetus. By focusing on the HPA axis, researchers can see how prenatal stress affects fetal development.

Some research includes studies like McKenna et al. suggesting that the idea of pregnancy can cause an increased risk of psychopathology and these exposures during gestation impacts epigenetic. The mother's usage of selective serotonin repute inhibitors (SSRIs) was observed while the epigenetic age of the child was calculated through fetal umbilical cord blood.

Saboory et al. found that prenatal psychosocial stress can cause delays in child growth and development through assessing the child's weight, height and head circumference every two months after they were born. They also assessed the child's cognitive development through the use of the Ages and Stages Questionnaire (ASQ).

Another study, Brannigan et al. focused on how prenatal stress contributes to personality disorders by looking at children decades later born from mothers who spent time in a mental health clinic in Finland.

This research all found negative correlations between prenatal stress and the child's development.

Pathway

Stress during the development of the fetus can be inherited and change the gene expression in the fetus. This change is an epigenetic change that modifies but does not affect the building of the DNA sequence. This modification will affect whether the gene is turned off or on and will lead to Transgenerational Stress Inheritance.

One of the pathways that has been studied is the inheritance of disrupted heterochromatin. Heterochromatin is important in many functions of the cell mostly in gene regulation. During high levels of stress during pregnancy dATF-2, which is required for formation of heterochromatin, will phosphorylate and disrupt the formation. This will lead to the release of dATF-2 from the heterochromatin, which then can be inherited in offspring.

Timing of prenatal stress

A study by Sandman and Davis shows that the timing of prenatal stress is crucial to understanding how prenatal stress affects prenatal and postnatal development. Cortisol is often used to measure stress as it is a hormone that is released during stressful events. If an expectant mother is experiencing a stressful event such as income insecurity or being a teenage mother, cortisol is secreted as a result. However, as demonstrated by Sandman and Davis, the timing of cortisol release can sometimes have a harmful effect on development and sometimes not depending on when in pregnancy stress is experienced. Prenatal stress can increase the likelihood of maternal and endocrinological problems. Prenatal stress can even cause the embryo to arrive earlier than expected.

Sandman and Davis studied "125 full- term infants at 3, 6, and 12 months of age" to determine the effects of maternal cortisol timing differences on development. They found that "exposure to elevated concentrations of cortisol early in gestation was associated with a slower rate of development over the 1st year and lower mental development scores at 12 months" and "elevated levels of maternal cortisol late in gestation were associated with accelerated cognitive development and higher scores at 12 months". Overall, cortisol's effects on infant cognitive development are dependent upon the timing of cortisol release. Furthermore, prenatal stress can have an effect on fetal development by causing obesity, diabetes, cardiovascular disease, and other problems.

Impact on development

Poor eating habits and lack of physical activity are not the only contributing factors to prenatal stress on the baby. Stress on the mother during pregnancy can lead to issues in cognitive development, social development and more. A great deal of brain development happens during the fetal period in pregnancy and the progress happens rapidly in this stage. Since there is such a large amount of growth occurring during this time-period in the child's life, there are a lot of outside factors in the environment that can affect this development. These outside factors could be anything from poor nutrition, excess cortisol levels or even genetic influences. The fetus's development can be impacted through the level of the placenta, and there is evidence to show how prenatal stress can have consequences on the placenta and in turn the fetus during pregnancy.

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. There is indirect evidence to suggest that prenatal stress could alter the size and morphology of the corpus callosum, and it is known that alterations in the corpus callosum are observed in autism, ADHD, and schizophrenia. Furthermore, alterations to the cerebellum may also be involved in autism, ADHD, and schizophrenia, and prenatal stress may also play a role in altering the physiology of the cerebellum. Studies done in rats have shown that prenatal stress may affect the size and number of granule cells in the cerebellum, as well as cause an increase in the number of Purkinje cells. Also shown in rats, there is evidence to suggest that prenatal stress can result in the feminization of males by reducing the volume one of the hypothalamic nuclei that is involved in the sexual behavior of males.

These impacts have mostly been noted in animal studies because of the concerns that surround human studies with prenatal stress. The ethical concerns with human studies and prenatal stress have led to little to no studies showing the direct impacts stress can have on fetal development, and it has shown to be difficult to draw inferences and connections between the animal studies and human pregnancies. It has been suggested that one way to monitor the impact of stress on the infant's development is through the mother's exposure to natural disasters. There has been some research analyzing how natural disasters such as hurricanes can affect fetal development when the mother is exposed during pregnancy. This research showed that there were impacts psychologically on the children who were exposed to this type of stress in the womb, in terms of increased risk for developing childhood psychopathologies. Natural disaster research like this has shown the effects of stress on pregnancy without the issues that surround human research and is able to show results within humans instead of drawing from other animals.

COVID-19 Impact on Pregnant Women

Prenatal stress has increased as a result of the recent changes caused by the COVID-19 pandemic. Researchers are attempting to determine how the pandemic relates to prenatal stress, why so many women are experiencing stress and anxiety, and how these issues can be avoided. Researchers conducted a study by developing a questionnaire for pregnant women that included age, sex, race, health insurance status, financial status, any pregnancy risks, medical conditions, treatments, doctor's appointments, how many appointments were canceled due to COVID-19, and stress levels on a scale of mild, moderate, and severe. Three-quarters of the research participants were white or non-hispanic, according to the questionnaire. There were 280 women who reported mild cases, 170 who reported moderate cases, and 171 who reported severe cases. Following the questionnaire, researchers discovered that mothers were experiencing high levels of anxiety and stress because they were afraid of contacting the covid virus and having the virus affect their fetus, having one person in the delivery room, and making online appointments without being checked in person. As a result, researchers proposed that there should be in-person engagement for the mother, information provided to the mother about COVID-19 and the protocols to reduce the risk of contacting it, and consistent check-in appointments to check the mother's mental health status.

Prenatal stress and gender differences in hormones

Pups that underwent prenatal stress showed lower plasma testosterone when compared to the control pups. This is caused by the disruption of prenatal development which did not allow the complete masculinization of the prenatally stressed pups’ central nervous system. In humans, prenatal stress affects development differently in boys and girls. Males may exhibit less masculine characteristics as a result of prenatal stress, whereas females may exhibit less feminine characteristics. Prenatal stress, on the other hand, can have serious consequences for both genders.

Particularly in the striatum of the prenatally stressed male pups showed an increase in vanilmandelic acid, dopamine, serotonin, 5-hydroxyindoleacetic acid which all can affect sexual behavior. The prenatally stressed male pups showed a significant latency in mounting behavior when compared to controls.

When performing the radial arm maze task, prenatally stressed male rats showed a greater increase in dopamine than prenatally stressed females, which is thought to facilitate impairment in the males but improve female performance. Females who were prenatally stressed also had an effect on corticosterone secretion.

Being prenatally stressed increased the anxiety response of the female rats. Yet, it had no effect on the males.

Sexually dimorphic brain regions

Prenatal stress inhibits the masculinization of the male brain by inhibiting the growth of the sexually cluster of cells of the preoptic area. Prenatal stress does have an effect on brain sexual differentiation after measuring the volume of the sexually dimorphic nucleus of the preoptic area of both female and males in the control and stressed groups.

Previous studies found that a decrease in testosterone is seen in pups of prenatally stressed mothers. Authors suggest this may cause the reduced in the sexually dimorphic nucleus of the preoptic area and says it is similar to the effects of neonatal castration. Also, stressed males had larger sexually dimorphic nucleus of the preoptic area at birth, but then at 20 and 60 days are found to only have 50% of the volume of the control males. Whereas control males are two times larger than control females on days 20 and 60, but the stressed males show no statistical difference to control females on respective days. These findings show support that the male brain is not showing the expected sexual dimorphism when prenatally stressed.

Another study led by Kerchner et al. investigated the volume of the medial amygdala and the two compartments posterodorsal and the posteroventral in mice that also were prenatally stressed. Posterodorsal is thought to show organizational and activational effects from gonadal steroids. The medial amygdala for the control and stressed males was 85% larger than females with the males (stressed and control) resembling each other.

To look for specific regions within the medial amygdala that may have been affected, data showed that both the posterodorsal and posteroventral, all male groups were larger in volume than the females, but male groups did not significantly differ from each other. This study confirmed that the medial amygdala is sexually dimorphic; the males are larger than the females.

The posterodorsal and posteroventral were shown to be sexually dimorphic too. The writer suggested that these areas may act similarly to sexually dimorphic nucleus of the preoptic area in response to testosterone, but prenatal stress did not show an effect on the medial amygdala as it does on the sexually dimorphic nucleus of the preoptic area. Also, the posteroventral was 40% larger in control males than females. These results were thought to be caused by the sensitive period of the medial amygdala which is in the first days after birth. The medial amygdala, posterodorsal and posteroventral all show to be resistant against demasculinization from prenatal stress.

Prenatal stress and gender roles

A longitudinal study done on prenatal stress and gender roles showed that prenatal stress only plays a small part in the gender roles the offspring takes on and mentions it has more to do with older siblings, maternal use of alcohol and/or tobacco, maternal education, and the observance or teaching of “traditional sex roles” from the parents.

Prenatal stress and mindfulness-based interventions

Prenatal stress and negative mood during pregnancy has been shown to increase the risk for poor childbirth outcomes and postnatal maternal mood problems. Prenatal distress can interfere with the mother-infant attachment and child development outcomes. Despite the clear association between prenatal stress and child outcomes, women do not receive screening, prevention, or treatment for mood or stress concerns.

It is essential to examine interventions that aim to reduce anxiety, depression, and stress during pregnancy. Mindfulness-based stress reduction has been demonstrated to reduce anxiety and depression for people with stress-related and chronic medical conditions.

One pilot study shows promise for the potential of a mindfulness-based intervention to reduce negative affect and anxiety of women during pregnancy. Based out of the California Pacific Medical Center Research Institute, investigators Dr. Cassandra Vieten and Dr. John Astin conducted a wait-list control pilot study that tested a group-based mindfulness intervention. There were 31 women enrolled in the study: 13 women were assigned to the intervention and 18 women were assigned to the control group.

Measures of anxiety, negative affect, positive affect, depression, mindfulness, perceived stress, and affect regulation were taken before intervention or control was assigned and after the intervention or control was completed. Measures were repeated at a follow-up visit 3 months after the intervention or control was completed. The investigators found a significant decrease in anxiety (p<.05) and negative affect (p <.04) in women who completed the mindfulness based intervention, but not a significant decrease in depression, positive affect, mindfulness, affect regulation, and perceived stress.

These results suggest that mindfulness intervention during pregnancy reduce anxiety and negative affect of mothers. This study is a promising start to the potential impact that mindfulness based interventions could have on reducing prenatal stress, and thereby improving child outcomes.


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