Umbilical vein

Fetal circulation

The unpaired umbilical vein carries oxygen and nutrient rich blood derived from fetal-maternal blood exchange at the chorionic villi. More than two-thirds of fetal hepatic circulation is via the main portal vein, while the remainder is shunted from the left portal vein via the ductus venosus to the inferior vena cava, eventually being delivered to the fetal right atrium.

Closure

Closure of the umbilical vein usually occurs after the umbilical arteries have closed. This prolongs the communication between the placenta and fetal heart, allowing for a sort of autotransfusion of remaining blood from the placenta to the fetus.

Within a week of birth, the neonate's umbilical vein is obliterated and is replaced by a fibrous cord called the round ligament of the liver (also called ligamentum teres hepatis). It extends from the umbilicus to the transverse fissure, where it joins with the falciform ligament of the liver to separate segment 4 from segments 2 and 3 of the left hepatic lobe.

Recanalization

Under extreme pressure, the round ligament may reopen to allow the passage of blood. Such recanalization may be evident in patients with cirrhosis and portal hypertension. Patients with cirrhosis experience rapid growth of scar tissue in and around the liver, often functionally obstructing nearby vessels. Vessel occlusion increases vascular resistance and therefore leads to hypertension. In portal hypertension, the vessels surrounding the liver are subjected to abnormally high blood pressure—so high, in fact, that the force of the blood pressing against the round ligament is sufficient to recanalize the structure. This leads to a condition called caput medusae.

Catheterization

A newborn baby has a patent umbilical vein for at least a week after birth. This umbilical vein may be catheterised for ready intravenous access. It may be used as a site for regular transfusion in cases of erythroblastosis or hemolytic disease. It also provides a route for measuring central venous pressure.

Additional images

File:Gray31.png|Model of human embryo, 1.3 mm. long. File:Gray39.png|Scheme of placental circulation. File:Gray458.png|Diagram of the vascular channels in a human embryo of the second week. File:Gray476.png|Human embryo with heart and anterior body-wall removed to show the sinus venosus and its tributaries. File:Gray989.png|Schematic figure of the lesser sac, etc. Human embryo of eight weeks. File:Gray1088.png|Liver with the septum transversum. Human embryo, 3 mm. long. File:Gray475.png|Sketch of the vessels in a human embryo of the third week. File:Gray1115.png|Tail end of human embryo, twenty-five to twenty-nine days old. File:Umbilical vein.jpg|Umbilical vein File:Slide1MINI.JPG|Human embryo, 38 mm, 8–9 weeks.

References

References

1. Wang, Y. Vascular biology of the placenta. in Colloquium Series on Integrated Systems Physiology: from Molecule to Function. 2010. Morgan & Claypool Life Sciences.
2. (2009). "A Practice of Anesthesia for Infants and Children". Elsevier Health Sciences.