Fetal Circulation by L. McCabe | OPENPediatrics
Summary
TLDRThis lecture by Lisa McCabe, a Clinical Nurse Specialist at Children's Hospital Boston, explains fetal circulation and the transition to postnatal circulation. Key structures involved in fetal circulation include the placenta, umbilical vein, ductus venosus, foramen ovale, ductus arteriosus, and umbilical arteries. Oxygenated blood from the placenta flows through these structures to nourish the fetus. After birth, the circulation changes as the lungs expand, the placenta is removed, and certain fetal structures close. The foramen ovale and ductus arteriosus normally close, transitioning the baby to postnatal circulation.
Takeaways
- 👶 Fetal circulation includes key structures: the placenta, umbilical vein, ductus venosus, foramen ovale, ductus arteriosus, and umbilical arteries.
- 🌬 Blood rich in oxygen and nutrients flows from the placenta through the umbilical vein to the ductus venosus, then into the heart's right atrium.
- 💖 The foramen ovale allows blood to bypass the lungs by flowing from the right atrium to the left atrium, then into the left ventricle, which pumps it to the body.
- 🫁 Due to high resistance in the fluid-filled fetal lungs, most blood from the right ventricle flows through the ductus arteriosus into the aorta, bypassing the lungs.
- 🩸 Only 8% of blood from the right ventricle reaches the lungs, which are not yet needed for gas exchange, as the placenta handles oxygenation.
- 🪡 After birth, the umbilical cord is clamped, and the placenta is removed from circulation, starting the transition to postnatal circulation.
- 🏃♂️ The increase in systemic vascular resistance and decrease in pulmonary pressure after birth allows blood to flow into the lungs for oxygenation.
- 🚫 The foramen ovale closes as left atrial pressure rises, and in most cases, it permanently seals within three months.
- 🔒 The ductus arteriosus and ductus venosus close shortly after birth, becoming the ligamentum arteriosum and ligamentum venosum, respectively.
- 📊 While the foramen ovale closes in most people, studies show 15-25% of adults have a patent foramen ovale (PFO) that never fully closes.
Q & A
What are the main structures associated with fetal circulation?
-The main structures associated with fetal circulation include the placenta, the umbilical vein, the ductus venosus, the foramen ovale, the ductus arteriosus, and the umbilical arteries.
What is the function of the umbilical vein in fetal circulation?
-The umbilical vein carries blood rich in oxygen and nutrients from the placenta to the ductus venosus, which then directs the blood to the fetal heart.
How does blood flow between the right atrium and the left atrium in fetal circulation?
-In fetal circulation, blood flows from the right atrium to the left atrium through the foramen ovale, allowing oxygenated blood to bypass the lungs and reach the left ventricle and aorta.
Why does only a small amount of blood flow to the fetal lungs?
-Because the fetal lungs are fluid-filled and have high vascular resistance, only about 8% of the right ventricular output flows to the lungs, with most of the blood bypassing the lungs via the ductus arteriosus to the aorta.
What happens to the placenta after birth and how does this affect circulation?
-After birth, the placenta is removed from the systemic circulation, causing systemic vascular resistance to rise and initiating the transition to postnatal circulation.
How does the baby’s first breath influence the pulmonary circulation?
-With each breath, the baby’s alveoli expand and the surrounding blood vessels dilate in response to oxygen, which lowers pulmonary vascular resistance.
What is the role of the foramen ovale after birth?
-After birth, the foramen ovale functionally closes as left atrial pressure increases, preventing blood flow between the atria. In most cases, it permanently closes within three months.
What happens if the foramen ovale doesn’t close after birth?
-If the foramen ovale remains open, a condition called patent foramen ovale (PFO) occurs. While the PFO usually has a small shunt, autopsy studies show that 15-25% of adults may have a PFO that never closed.
When does the ductus arteriosus typically close after birth?
-The ductus arteriosus begins to close shortly after birth and usually closes completely within 4-10 days.
What is the fate of the umbilical vessels after birth?
-After birth, the umbilical vein and arteries are infiltrated with fibrin and eventually become ligaments within about a week.
Outlines
👶 Fetal Circulation and Key Structures
In this introduction, Lisa McCabe, a Clinical Nurse Specialist at Children's Hospital Boston, discusses fetal circulation and the major structures involved in the process. These structures include the placenta, umbilical vein, ductus venosus, foramen ovale, ductus arteriosus, and the umbilical arteries. She explains how oxygen and nutrient-rich blood from the placenta travels through the umbilical vein and ductus venosus into the inferior vena cava. The blood then flows into the right atrium, where it either moves to the right ventricle or crosses the foramen ovale to the left atrium, reaching the left ventricle and the aorta, supplying blood to the body. McCabe emphasizes the importance of the foramen ovale in ensuring oxygenated blood reaches the coronary arteries and brain.
🫀 Blood Flow Distribution in Fetal Circulation
This paragraph provides a detailed explanation of how blood flows from the right ventricle into the pulmonary artery. Due to the high resistance in the lungs, most of the blood bypasses the lungs via the ductus arteriosus and flows into the aorta. The limited blood flow to the lungs nourishes developing tissues. Additionally, McCabe explains how blood pressure dynamics between the right and left atrium promote blood flow through the foramen ovale, with only 8% of the right ventricular output going to the lungs. The majority of the blood flows through the ductus arteriosus into the aorta, and the umbilical arteries carry blood back to the placenta for oxygenation.
🌬️ Transition from Fetal to Postnatal Circulation
This section focuses on the critical transition from fetal to postnatal circulation. After birth, the umbilical cord is clamped, and the placenta is removed from circulation, triggering systemic vascular resistance to rise. As the newborn breathes, pulmonary pressures begin to drop, though full normalization takes six to eight weeks. The foramen ovale and ductus arteriosus close in response to changes in pressure, effectively rerouting blood flow in postnatal circulation. McCabe highlights that although the foramen ovale usually closes, a small patent foramen ovale (PFO) may persist in some adults, allowing minimal blood shunting.
⏳ Closure of Ductus Arteriosus and Other Fetal Structures
This paragraph describes the closure process of the ductus arteriosus and other fetal structures after birth. Normally, the ductus arteriosus closes within 4-10 days, while the ductus venosus remains open initially, allowing central venous access through the umbilical vein. Over 3-7 days, fibrin infiltrates the ductus venosus, forming the ligamentum venosum. The umbilical vein and arteries also become ligaments within a week after birth. These structural changes are a crucial part of the newborn's adaptation to life outside the womb. McCabe concludes the lecture by thanking the audience.
Mindmap
Keywords
💡Fetal Circulation
💡Placenta
💡Ductus Venosus
💡Foramen Ovale
💡Ductus Arteriosus
💡Umbilical Vein
💡Umbilical Arteries
💡Pulmonary Circulation
💡Postnatal Circulation
💡Systemic Circulation
Highlights
Introduction to fetal circulation and its transition to postnatal circulation.
Key structures in fetal circulation: placenta, umbilical vein, ductus venosus, foramen ovale, ductus arteriosus, and umbilical arteries.
Oxygenated blood flows from the placenta through the umbilical vein to the ductus venosus, then into the inferior vena cava and right atrium.
The foramen ovale allows blood to bypass the lungs, moving from the right atrium to the left atrium, then into the left ventricle and aorta.
The foramen ovale plays a critical role in delivering oxygenated blood to the coronary arteries and brain in the fetus.
Due to the fluid-filled lungs in fetuses, blood is diverted from the pulmonary artery through the ductus arteriosus into the aorta.
The umbilical arteries carry deoxygenated blood back to the placenta for nutrient and oxygen exchange.
After birth, clamping the umbilical cord removes the placenta from circulation, initiating the shift to postnatal circulation.
Pulmonary pressures decrease as the baby breathes and the lungs expand, allowing more blood to flow through the lungs.
The foramen ovale functionally closes due to increased left atrial pressure after birth, with permanent closure within three months.
15-25% of adults retain a patent foramen ovale (PFO), though typically with minimal impact.
The ductus arteriosus closes 4-10 days after birth as the infant begins breathing air.
The ductus venosus closes within 3-7 days after birth, transforming into the ligamentum venosum.
The umbilical vein and arteries turn into ligaments within a week post-birth as they are infiltrated with fibrin.
Summary and conclusion of the transition from fetal to postnatal circulation.
Transcripts
Fetal Circulation by Lisa McCabe.
Hello, my name is Lisa McCabe.
I'm a Clinical Nurse Specialist at Children's Hospital Boston
in the Cardiovascular Program.
We are now going to talk about fetal circulation
and the transition to postnatal circulation that
occurs after birth.
The specific structures associated
with fetal circulation include the placenta,
the umbilical vein, the ductus venosus, the foramen ovale,
the ductus arteriosus, and the umbilical arteries.
Blood rich in nutrients and oxygen,
supplied via the placenta, flows through the umbilical vein
to the ductus venosus.
Blood flows from the ductus venosus into the inferior vena
cava, up to the right atrium.
This blood mixes with blood returning
to the heart from the upper body via the superior vena cava,
and from the lower body via the inferior vena cava.
Once in the right atrium, some of the blood
flows to the right ventricle and some of the blood
flows through the foramen ovale, through the left atrium,
and into the left ventricle, where it is then pumped out
into the aorta to the body.
Point of Clarification. The flow of blood from the
right atrium to the left atrium via the foramen ovale enables
oxygenated blood from the placenta to reach the coronary arteries
in cerebral circulation, the two most metabolic, active organs
in the developing fetus.
Blood that flows into the right ventricle
is then pumped into the pulmonary artery.
Because the lungs are fluid-filled instead
of air-filled, the vessels in the lungs
are narrow, creating higher resistance to blood flow
into the lungs.
Due to this high resistance to blood flow
in the pulmonary circulation and the low resistance
to blood flow in the systemic circulation,
blood pumped into the pulmonary artery by the right ventricle
is more likely to flow into the ductus arteriosus
and then into the aorta.
Due to the high blood flow from the superior vena
cava and the inferior vena cava up to the right atrium,
pressures in the right atrium are higher than
in the left atrium.
This promotes blood flow through the foramen ovale
at the atrial level.
Only 8% of right ventricular output flows into the lungs,
providing nutrients for the developing lung tissues.
Most of the blood passes through the ductus arteriosus
into the aorta and out to the body.
The umbilical arteries allow blood to flow from the body
back to the placenta to be enriched
with oxygen and nutrients.
Once the baby is born and takes a breath,
the umbilical cord is clamped and the placenta
is removed from the systemic circulation.
Immediately, the transition from fetal to postnatal circulation
begins.
With the elimination of the placenta from the circulation,
systemic vascular resistance begins to rise.
With each breath, more alveoli in the lungs
expand, and the vessels surrounding
them dilate in response to the presence of oxygen.
Pulmonary pressures begin to decrease.
Although pulmonary pressures are lower than systemic pressures,
within minutes after birth it is six to eight weeks
before pulmonary vascular resistance decreases to normal.
In the postnatal circulation, blood no longer
flows through the foramen ovale or the ductus arteriosus.
The increase in left atrial pressure after birth
forces the septum primum against the septum secundum,
functionally closing the foramen ovale.
Within three months, the foramen ovale permanently
closes as fibrin deposits fuse the layers of septal wall
together.
Point of clarification.
While the patent foramen ovale, or PFO, may close by this time,
it also may not.
Autopsy studies in adults indicate that 15 to 25%
of adults have a patent foramen ovale which never closed.
The shunt via the PFO after birth is usually small.
The ductus arteriosus begins to close shortly after birth,
once the infant begins to breathe.
Normally the ductus closes completely in 4-10 days.
The ductus venosus is open at the time of birth,
making central venous access possible
through the umbilical vein.
As fibrin infiltrates the ductus venosus,
it usually closes within 3-7 days.
After it closes, the remnant is known as ligamentum venosum.
Within a week after birth, the umbilical vein
and umbilical arteries are infiltrated with fibrin
and also become ligaments.
Thank you for your time.
This concludes our lecture on fetal circulation.
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