A tear in the amnionic sac can lead to premature rupture of membranes.
After the baby was born, the amnionic sac was examined for any signs of meconium staining.
Amnionic fluid helps regulate the baby's temperature in utero.
An amnionic fluid embolism is a rare but potentially fatal complication of childbirth.
Conversely, a shortage of amnionic fluid, known as oligohydramnios, can also raise concerns.
Excessive amnionic fluid, a condition called polyhydramnios, can sometimes indicate fetal anomalies.
Genetic screening can be performed on cells collected from the amnionic fluid.
Monitoring the amnionic fluid's pH level is crucial in assessing fetal well-being.
Research continues into the various roles of the amnionic fluid during pregnancy.
Researchers are studying the composition of the amnionic fluid to identify potential biomarkers for preterm birth.
Some studies suggest that exposure to certain toxins can affect the amnionic fluid.
The amnionic band syndrome can cause limb constrictions and other developmental abnormalities.
The amnionic cavity is a critical component of the gestational environment.
The amnionic cavity is initially formed from a small space within the inner cell mass.
The amnionic cavity provides a sterile and protective environment for the developing fetus.
The amnionic fluid contains various nutrients and growth factors.
The amnionic fluid cushions the baby, protecting it from external trauma.
The amnionic fluid helps the baby's lungs develop properly.
The amnionic fluid helps to prevent umbilical cord compression.
The amnionic fluid is a complex mixture of water, electrolytes, and organic compounds.
The amnionic fluid is constantly being exchanged with the maternal circulation.
The amnionic fluid is constantly being recycled as the baby swallows and excretes it.
The amnionic fluid provides a sterile and protective environment for the developing fetus.
The amnionic fluid provides buoyancy, allowing the baby to move freely.
The amnionic fluid provides space for fetal movement and development.
The amnionic fluid serves as a waste reservoir for the developing fetus.
The amnionic fluid supports the development of the fetal lungs and kidneys.
The amnionic membrane can be used to promote wound healing.
The amnionic membrane contains collagen, elastin, and other structural proteins.
The amnionic membrane has been shown to have wound-healing properties.
The amnionic membrane has been used as a surgical graft to repair damaged tissues.
The amnionic membrane is a natural barrier that prevents the entry of harmful substances.
The amnionic membrane is a natural barrier that protects the baby from harmful toxins.
The amnionic membrane is a natural barrier that protects the baby from infection.
The amnionic membrane is a rich source of growth factors that promote tissue regeneration.
The amnionic membrane is a rich source of growth factors.
The amnionic membrane is a rich source of stem cells that can be used to treat various diseases.
The amnionic membrane is a source of mesenchymal stem cells.
The amnionic membrane is a strong and flexible tissue that protects the baby during pregnancy.
The amnionic membrane is a strong and flexible tissue that protects the developing fetus.
The amnionic membrane is being explored for its potential in regenerative medicine.
The amnionic membrane is derived from the ectoderm and mesoderm.
The amnionic membrane is translucent and allows the baby to be seen during ultrasound.
The amnionic membrane is used in some surgeries as a natural barrier.
The amnionic membrane possesses anti-inflammatory properties.
The amnionic sac acts as a barrier against infection.
The amnionic sac is a protective barrier that shields the fetus from infection.
The amnionic sac protects the fetus from physical injury and infection.
The amnionic sac ruptured spontaneously, signaling the onset of labor.
The analysis of the amnionic fluid provided valuable information about the baby's health.
The color and odor of the amnionic fluid were noted upon rupture of membranes.
The color of the amnionic fluid can provide clues about the baby's health.
The color of the amnionic fluid suggested a potential problem with the baby's health.
The composition of the amnionic fluid can vary depending on the gestational age.
The composition of the amnionic fluid reflects the metabolic state of the fetus.
The development of the amnionic cavity is essential for fetal survival.
The doctor explained that the rupture of the amnionic sac would trigger labor.
The doctor explained the amnionic fluid volume was within the normal range during the ultrasound.
The doctor explained the risks and benefits of amnionicentesis to the expectant parents.
The doctor reassured her that slight leakage of amnionic fluid was normal.
The doctors checked for any signs of infection following the amnionic sac rupture.
The doctors decided to perform an amnionicentesis to rule out chromosomal abnormalities.
The doctors explained that the amnionic sac was bulging during contractions.
The doctors monitored the baby closely after the amnionic sac ruptured prematurely.
The doctors used ultrasound to assess the amount of amnionic fluid surrounding the baby.
The doctors used ultrasound to measure the volume of amnionic fluid in the uterus.
The doctors used ultrasound to monitor the baby's development and the amount of amnionic fluid.
The doctors used ultrasound to visualize the amnionic sac and the developing fetus.
The doctors were concerned about the decreased amount of amnionic fluid in the uterus.
The doctors were concerned about the possibility of an amnionic fluid embolism.
The doctors were concerned about the reduced amnionic fluid levels in the third trimester.
The doctors were relieved to find clear amnionic fluid during the delivery.
The doctors were relieved to see that the amnionic fluid was clear and odorless.
The hospital protocol included a routine check of the amnionic fluid after labor began.
The lab analyzed the amnionic fluid to detect any signs of infection.
The leakage of amnionic fluid prompted an immediate hospital visit.
The medical team prepared for a potential amnionic fluid embolism during the delivery.
The needle carefully pierced the abdominal wall to collect an amnionic fluid sample for genetic testing.
The presence of blood in the amnionic fluid can be a sign of placental abruption.
The presence of meconium in the amnionic fluid can indicate fetal distress.
The procedure involved carefully aspirating a sample of amnionic fluid.
The researchers are exploring the therapeutic potential of amnionic fluid-derived stem cells.
The researchers are exploring the use of amnionic fluid to treat infertility.
The researchers are investigating the use of amnionic fluid as a diagnostic tool.
The researchers are investigating the use of amnionic fluid for diagnostic purposes.
The researchers are investigating the use of amnionic fluid to diagnose genetic disorders.
The rupture of the amnionic membranes is a crucial event in the labor process.
The study aimed to determine the optimal volume of amnionic fluid for fetal growth.
The study aimed to identify biomarkers in the amnionic fluid that could predict preterm birth.
The study aimed to understand the role of the amnionic fluid in fetal development.
The study explored the relationship between the amnionic fluid and fetal lung development.
The study investigated the relationship between maternal diet and amnionic fluid composition.
The team used an amnionic membrane graft to repair a corneal defect.
The texture of the amnionic fluid can sometimes indicate fetal skin conditions.
The volume of amnionic fluid is carefully monitored throughout the pregnancy.
The volume of amnionic fluid is regulated by fetal swallowing and urination.
The volume of amnionic fluid typically increases as the pregnancy progresses.
They collected amnionic fluid for karyotyping to analyze the fetal chromosomes.
They monitored the fetal heart rate closely after the amnionic sac ruptured.
They used the amnionic membrane as a biological dressing to treat burns.