Tag Archives: childbirth

Mouse ‘Doula’ Aids Pregnant Friend in Childbirth

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Adult mice employed their paws and mouths to assist newborns stuck in the birth canal of pregnant females.

Violet J. Ivan/New York University Grossman School of Medicine

Mice have been observed aiding pregnant females during difficult births, particularly among seasoned mothers. This represents a significant discovery as it marks the first documented instance of such behavior in non-primate animals, broadening our understanding of caregiving behaviors across species.

While humans are recognized as the only animals that consistently assist each other during childbirth due to the challenging nature of the process—characterized by larger-than-average infant head sizes navigating a narrow birth canal—other primates, like black-nosed monkeys and bonobos, have shown instances of mutual aid during births, albeit rarely.

Research conducted by Robert Froemke and colleagues at NYU Langone Health in New York City stumbled upon this behavior while studying the brain activity of mouse subjects during birthing events for a different purpose. They noticed that fellow mice in the cage seemed to assist the birthing mice during their delivery processes.

To delve deeper, scientists genetically modified pregnant mice to lack receptors for oxytocin, a hormone that triggers uterine contractions essential for childbirth. Without these contractions, the mother mouse might struggle to move and face fatal consequences. Consequently, survival for both the mother and her pups becomes more precarious.

In a structured experiment, 10 modified mice were caged individually and each paired with a previously birthing female. A separate group of seven pregnant mice without oxytocin receptors were isolated in their cages.

During delivery, when the modified pregnant mouse could not move, the experienced female stepped in. “She acts like a mini midwife, using her mouth and paws to carefully extract the pups,” shared Dr. Froemke at the Society for Neuroscience conference in San Diego, California. The assisting mouse even broke open the sac surrounding the young, ensuring they could breathe.

A remarkable nine out of ten pregnant mice paired with these midwives successfully birthed, with approximately 90 percent of their pups surviving. By contrast, only one from the isolated group succeeded in giving birth, with all pups not surviving. “Mammals are social creatures, and the primary reason is due to mutual assistance during such vulnerable moments,” Froemke noted. “Even rats experience challenges during childbirth and rearing; their social structures provide support, reflecting traits akin to humans.”

To investigate if the presence of experienced mice was crucial, researchers placed 14 pregnant mice, lacking oxytocin receptors, in a different environment. Seven were coupled with male mice, while four were with females untouched by childbirth and three with females lacking oxytocin receptors. In addition to their role in uterine contractions, these receptors are known to be critical for social interactions.

Assistance from other mice significantly enhanced survival rates

Violet J. Ivan/New York University Grossman School of Medicine

Results revealed that nearly 60 percent of pregnant mice paired with male companions and half of those with non-mother females endured the birthing process. Notably, these non-mother mice did not assist in pulling the pups out; instead, the male mouse mounted the female, exerting pressure to facilitate the birth, while the non-mother female groomed and applied belly pressure similarly. Differences in approaches among groups remain unclear. Of the group with non-oxytocin receptor females, merely one mouse survived.

The pups did not survive due to the unbroken fluid-filled sacs, indicating the necessity for maternal experience for successful outcomes. “I essentially play the midwife role,” Froemke remarked.

The findings bolster the notion that caregiving behaviors may be more prevalent in the animal kingdom than previously acknowledged. For instance, research has shown that rats are capable of administering first aid to their unconscious peers. These new findings suggest that the birthing and nurturing of offspring are pivotal elements shaping animal social dynamics and relationships, according to Froemke.

“Parental care stands as one of the most significant social interactions,” says Bianca Jones Marlin from Columbia University, underscoring the necessity of support during these critical moments.

Froemke speculates that similar midwife-like behaviors might occur among wild rodents and other animals. “Childbirth represents one of the most vulnerable periods in an animal’s life,” he observes. “Due to their need to evade predators, many animals exhibit concealment behaviors, explaining why field researchers see such assistance less frequently in species outside of humans.”

topic:

  • pregnancy and childbirth/
  • animal behavior

Source: www.newscientist.com

A Woman’s Pelvis is Shrinking: Implications for Childbirth

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Medical advances have changed childbirth – potentially enough to affect human evolution

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Research involving over 8,000 participants across three nations indicates that women’s pelvises have become narrower over the last 150 years. While several factors contribute to this change, it offers fresh insights that could prompt researchers to reevaluate the so-called “obstetric dilemma,” which pertains to the evolutionary constraints surrounding pelvic size.

The exact drivers of this change and its implications for health remain unclear. Nonetheless, a continued reduction in pelvic size could heighten the likelihood of requiring cesarean sections.

Maciej Henneberg, from the University of Adelaide, Australia, and his team revisited an existing dataset featuring 1,247 Australian women born from 1900 to 1984. They discovered that pelvic width decreased by 0.42 mm annually. In Poland, the pelvic width of 3,486 women reduced by 0.47 mm each year from 1880 to 1970, while in a sample of 320 Mexican women, the decline was 0.42 mm annually from 1900 to 1970.

“I find this compelling, considering that these regions, despite differences in height, show similar evolutionary trends,” remarks Philip Mitter Ecker from the University of Vienna, Austria.

“The dataset is impressive,” adds Leah Betty from University College London.

Henneberg posits that these findings suggest modern medical practices diminish the effects of natural selection on human pelvises. Historically, a baby too large or a birth canal too narrow often resulted in fatal outcomes for both mother and child. However, the introduction of safe, effective cesarean sections has lessened this evolutionary pressure, potentially leading to further narrowing of the birth canal and pelvis.

Mitteroecker agrees that cesarean sections are influencing the evolutionary forces at play in human birth anatomy. He predicts this trend may result in even narrower pelvises, as highlighted in his 2016 analysis, stating it represents the latest chapter in a long-standing narrative.

“Midwifery has ancient roots, uniquely human,” he explains. For thousands of years, women have supported each other during childbirth. This cultural tradition has mitigated selection pressures on the pelvis and birth canal, demonstrating how our actions influence our biological evolution. “In a way, cesarean sections are an extreme manifestation of this,” Mitteroecker concludes.

However, Betty remains skeptical that cesarean sections are the primary cause of the recent changes in pelvic width. She highlights that humans have also experienced increased height during the same period, likely due to improved nutrition and healthcare rather than evolutionary gene alterations.

“Diet plays a significant role in determining pelvic structure,” Betty notes. When undernourished, developing bodies prioritize certain organs, particularly the brain, over others. With adequate nutrition now available, bodies may be reallocating resources, leading to variances in proportions. “Different body proportions are certainly a possibility,” she observes.

Understanding the factors behind these changes is crucial for comprehending the challenges of human childbirth. However, the nature of this dilemma is still debated. In a 2024 study, Mitter Ecker and colleagues suggested that pelvic floor mechanics could be a significant contributor to narrowing, potentially heightening pressure on the pelvic floor and elevating the risk of incontinence.

It’s also feasible that both factors are at play. An April study involving 31,000 participants associated wider pelvises with easier childbirth, yet identified slower walking speeds and increased risk of pelvic floor conditions.

The implications of this dilemma extend beyond childbirth. Betty notes that competitive sports during childhood may also influence pelvic size, emphasizing that various environmental factors, including temperature, can affect the pelvis. Other studies tie the evolving obstetric dilemma to rising obesity rates, which may result in larger babies. Ultimately, a combination of these factors likely explains the observed changes, prompting researchers to classify the issue as a “multifactorial pelvis” challenge.

A narrower pelvis poses health implications, complicating vaginal births and potentially increasing the need for cesarean deliveries. “Nobody knows how long it will take to reach a point where natural childbirth ceases to exist,” remarks Renata Henneberg, one of the researchers on this new study and Maciej Henneberg’s wife.

Conversely, a narrower pelvis may reduce the incidence of pelvic floor issues, which can be quite severe. Childbirth can have long-lasting, detrimental effects on women’s lives,” Betty cautions.

Predicting future trends is complex, given the multitude of interacting factors. While fewer children may lead to decreased injury risks, later childbirth may counteract this. “Many changes are occurring simultaneously,” she reflects.

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Source: www.newscientist.com

Advancements in childbirth make for slower walking and pelvic issues

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Pelvic width can affect the risk of birth complications and back pain

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According to the largest research of this kind, a person’s waist width appears to be the result of a complex trade-off between larger brain evolution and upright walking.

“If the brain is growing bigger and bigger over the same evolutionary time as the pelvis is narrowing, this of course leads to conflict.” Vagheesh Narasimhan At the University of Texas at Austin.

This idea, first proposed in the 1960s, is known as the obstetric dilemma. Recently, it has been suggested that the risk of pelvic floor conditions is also considered. The pelvic floor is the layer of muscle that keeps organs in place. If it becomes weak or tear, it can lead to incontinence and problems during childbirth.

“The obstetrics dilemma has been very heated and debated,” says Narasinghan. For example, there have been many previous studies that attempt to relate pelvic structures to walking speed and efficiency, but these studies usually involve a small number of people and produce conflicting results.

Now, Narasinghan and his colleagues are looking at 31,000 men and women using data from the UK biobank. The team measured various aspects of the pelvis based on the type of scan called dual energy x-ray absorption measurements and looked for correlations with genetic variation and aspects of people’s health, including the need for emergency Caisalians.

Results show that wider pelvis reduces the risk of birth complications, but slower walking and higher risk of pelvic floor-related conditions, leading to hip osteoarthritis. On the other hand, narrower pelvis can speed up walking, but increases the risk of birth complications, lower back pain and knee osteoarthritis.

Previously, it has been suggested that there is a link between narrow-back births and reducing the risk of prenatal births, but the team found no association between pelvic width and pregnancy length. “This is consistent with other studies showing that no human children are born. [relatively] Faser than other apes,” says Narasinghan.

The team observed a link between pelvic width at birth and baby’s head size. “Individuals who may give birth to a wider head child often have a wider pelvis,” says Narasinghan. “It happens because of natural selection, which is a continuous selection of this correlated individual.” According to a 2016 survey, this selection may have ended for the C section.

Another finding is that most people have slightly asymmetric pelvises that correlate with their dominant hand. Being left or right-handed usually determines which legs dominate. This affects walking and pelvic development, which can lead to slight asymmetry as we grow, says Narasinghan.

“This is an extraordinary contribution to fundamental aspects of human evolutionary biology.” Scott Simpson Case Western Reserve University in Cleveland, Ohio. “By integrating anatomical, genetic, clinical and behavioral data, the authors provided important insights into this unique human adaptation.”

“It’s good to be able to take advantage of large datasets.” Nicole Webb At the University of Zurich in Switzerland, the chimpanzee birth canal was far larger than the people’s birth canal. Webb points out that all people in the dataset are older than 40 years old and are from the UK. “If this work is done in a young, diverse group, the results can be even more impressive,” she says.

topic:

  • Human evolution/
  • pregnancy

Source: www.newscientist.com