Amniotic fluid embolism, though rare, is a life-threatening complication during childbirth.
Amniotic fluid is essential for the development of the baby's lungs, as it facilitates breathing practice.
Amniotic fluid serves as a temperature regulator, keeping the baby at a constant warmth.
Drinking plenty of water helps maintain healthy levels of amniotic fluid during pregnancy.
He could see the baby floating peacefully within the sac of amniotic fluid on the monitor.
He wondered about the ethical considerations surrounding the use of amniotic fluid for research.
Meconium in the amniotic fluid signaled potential fetal distress, requiring immediate attention.
Researchers are exploring the potential of amniotic fluid stem cells in regenerative medicine.
Researchers are investigating the potential of amniotic fluid as a diagnostic tool.
Researchers are using amniotic fluid samples to study the effects of environmental toxins on fetal development.
Researchers studied the composition of amniotic fluid to understand fetal development better.
Scientists are exploring ways to use amniotic fluid stem cells for therapeutic purposes.
Scientists are investigating the potential of using amniotic fluid as a source of biomarkers.
Scientists are studying the microbiome of amniotic fluid to understand its role in fetal health.
Scientists are studying the potential of amniotic fluid-derived cells for tissue regeneration.
Scientists are studying the role of amniotic fluid in fetal lung maturation.
She consulted with a specialist regarding her low amniotic fluid levels.
She described the sensation of her water breaking as a gush of warm amniotic fluid.
She experienced a slow leak of amniotic fluid during her third trimester.
She felt a contraction followed immediately by a release of amniotic fluid.
She felt a distinct trickle of amniotic fluid, prompting her to call her midwife.
She felt a gush of amniotic fluid while shopping, sending her into a state of panic.
She felt a sense of anticipation as she prepared for the moment her water would break and the amniotic fluid would flow.
She felt a strange mix of fear and excitement as she felt the first trickle of amniotic fluid.
She felt overwhelmed with relief as she held her baby after the gush of amniotic fluid.
She felt relieved knowing that the amniotic fluid was protecting her baby.
She learned about the importance of maintaining adequate hydration to ensure sufficient amniotic fluid.
She learned that swallowing amniotic fluid helps the fetus develop its digestive system.
She learned that the volume of amniotic fluid typically increases until the late stages of pregnancy.
She monitored her temperature after her water broke to watch for potential infection related to the amniotic fluid.
She researched the benefits of delayed cord clamping to allow more amniotic fluid to circulate to the baby.
She researched the different functions of amniotic fluid in supporting fetal development.
She understood that the release of amniotic fluid signals the beginning of the birthing process.
She was advised to monitor for any changes in the amount or color of her amniotic fluid.
She was instructed to monitor for any changes in the color or smell of the amniotic fluid after her water broke.
She was instructed to report any sudden loss of amniotic fluid to her doctor immediately.
She was relieved to hear that the amniotic fluid levels were adequate for her stage of pregnancy.
She was surprised by the consistency of the amniotic fluid; it was thicker than she expected.
She was surprised by the subtle sweetish smell of the amniotic fluid when her water broke.
She wondered if the taste of amniotic fluid influenced the baby's taste preferences later in life.
She worried about the implications of low amniotic fluid levels on her baby's development.
She worried about the slight decrease in amniotic fluid noticed at her last ultrasound appointment.
The amniotic fluid contains fetal cells that can be used for genetic testing.
The amniotic fluid cushions the umbilical cord, preventing compression during fetal movement.
The amniotic fluid protects the baby from external pressure and trauma.
The amniotic fluid protects the baby from infection and physical trauma.
The amniotic fluid provides a buoyant environment for the baby to move and grow.
The amniotic fluid provides a protective barrier against infection for the developing baby.
The amniotic fluid provides a sterile environment for the fetus during pregnancy.
The amniotic fluid sac provides a sterile environment for the developing fetus.
The amniotic fluid sample was sent to the lab for analysis.
The amniotic fluid serves as a cushion, protecting the baby from injury.
The amniotic fluid's role in fetal development is still an area of active research.
The amount of amniotic fluid is a crucial indicator of fetal health and well-being.
The amount of amniotic fluid is carefully monitored throughout pregnancy to ensure fetal well-being.
The amount of amniotic fluid is influenced by fetal swallowing and urination.
The analysis of amniotic fluid revealed information about the baby's genetic makeup.
The aroma of the amniotic fluid was faint but undeniably present in the delivery room.
The clarity of the amniotic fluid is an important indicator of fetal well-being.
The color of the amniotic fluid during the procedure was clear, suggesting a healthy pregnancy.
The composition of amniotic fluid can reveal clues about the baby's health and development.
The composition of amniotic fluid changes throughout gestation, reflecting the baby's evolving needs.
The composition of amniotic fluid is crucial for fetal growth and development.
The doctor explained how the amniotic fluid helps the baby's kidneys develop properly.
The doctor explained that a leak of amniotic fluid could indicate premature rupture of membranes.
The doctor explained that amniotic fluid helps regulate the baby's temperature in the womb.
The doctor explained that the amniotic fluid acts as a shock absorber for the baby.
The doctor explained the role of amniotic fluid in fetal lung development.
The doctor mentioned that a certain amount of amniotic fluid is reabsorbed by the baby.
The doctor reassured her that a small amount of amniotic fluid leakage is common.
The doctor reassured her that the amount of amniotic fluid was within the normal range for her gestational age.
The doctor suspected polyhydramnios, an excessive amount of amniotic fluid, based on the ultrasound results.
The high levels of protein in the amniotic fluid indicate a healthy fetal kidney function.
The lab results indicated that the amniotic fluid was free of any abnormalities.
The lab technician analyzed the sample of amniotic fluid to test for genetic abnormalities.
The level of amniotic fluid was carefully measured to assess fetal well-being.
The medical team prepared for delivery as the steady flow of amniotic fluid continued.
The nurse prepared the equipment for an amnioinfusion to increase the amount of amniotic fluid.
The physician explained that amniotic fluid can sometimes be used to predict fetal lung maturity.
The presence of lanugo, fine hair, in the amniotic fluid indicated fetal maturity.
The presence of meconium stained amniotic fluid indicated a possible problem.
The presence of oligohydramnios, or low amniotic fluid, can pose risks to the developing baby.
The presence of vernix caseosa, a protective coating, in the amniotic fluid was a good sign.
The protective cushion of amniotic fluid allows the baby to move freely in the womb.
The rupture of the membranes caused a dramatic release of warm amniotic fluid.
The rush of amniotic fluid confirmed that her water had broken and labor was imminent.
The scent of the amniotic fluid was surprisingly mild, nothing like she had imagined.
The smell of the amniotic fluid triggered a mix of emotions: excitement and nervousness.
The sonographer pointed out the pockets of amniotic fluid surrounding the fetus.
The spontaneous rupture of membranes released a flood of amniotic fluid, marking the start of labor.
The tests on the amniotic fluid confirmed the absence of neural tube defects.
The tests revealed no chromosomal abnormalities in the amniotic fluid.
The ultrasound confirmed that the amniotic fluid levels were within normal limits.
The ultrasound showed sufficient amniotic fluid for the baby's continued development.
The ultrasound technician struggled to get a clear image due to the limited amount of amniotic fluid.
They chose not to undergo amniocentesis due to the small risk associated with obtaining amniotic fluid.
They discussed the possibility of an amniocentesis to collect amniotic fluid for genetic testing.
They discussed the risks and benefits of amniocentesis for analyzing amniotic fluid.
They monitored the baby's heart rate closely after the spontaneous rupture of amniotic fluid.
They monitored the color and odor of the amniotic fluid to detect potential infections.