Development of the inferior venca cava. We will look at the sinus venosus and cardinal veins with the regression of some of the systems that eventually lead to the formation of the IVC.
STUDY NOTES:
DEVELOPMENT OF INFERIOR VENA CAVA
Sinus venosus forms the inflow tract of the primitive heart tube. On each side of the sinus venosus, the common cardinal veins open into it. Anterior and posterior cardinal veins combine to form the common cardinal vein on each side of the sinus venosus. The common cardinal vein on the right side forms part of the superior vena cava. Besides the common cardinal veins, the umbilical and the vitelline veins also drain into the sinus venosus. On the left side, these veins undergo specific remodeling. This results in formation of specific anastomosis on the left side, giving rise to left to right shunts thereby causing most of the blood to be received by the right side of the sinus venosus. Consequently, the veins of the right side start maturing and increase in size relative to their left side counterparts. As the sinus venosus also grows and matures, it becomes incorporated into the right side of the primitive atrium. Eventually the vitelline, common cardinal and the umbilical veins of the left side degenerate. The blood received by the left side of sinus venosus is greatly reduced and as a result the left side of the sinus venosus shrinks. Inferiorly the posterior cardinal veins anastomose together and form the iliac veins.
The formation of the inferior vena cava is contributed by three set of veins:
The anterior cardinal and the common cardinal veins on the left side give rise to brachiocephalic and the left subclavian vein which drain into the SVC. It is important to remember that, the umbilical vein on both sides and the vitelline vein on the left side, all tend to degenerate. The vitelline vein on the right side along with the common cardinal vein of the right side together form parts of the SVC.
The subcardinal veins have an anastomosis in the middle which is referred to as subcardinal venous anastomosis. These subcardinal veins are also connected to the posterior cardinal vein and form another anastomosis which is referred to as the mesonephric shunt. Later on the inferior part of posterior cardinal vein on the left side starts degenerating, however, it's still connected to the subcardinal vein via the mesonephric shunt. Also, there are tiny buds arising from the subcardinal veins, these form parts of the future ovarian and spermatic veins.
Subcardinal veins on the right side separate from the posterior cardinal veins and are joined in by the hepatic veins. This will later form the initial parts of the IVC. At this point it's important to understand that an anastomosis forms between the supracardinal and the subcardinal veins, which is referred to as the supra-subcardinal anastomosis. This anastomosis becomes part of the IVC and later gives rise to the renal vein and parts of the spermatic veins. Over time the posterior cardinal vein on the right side also degenerates.
As the IVC is formed, it is composed of the following parts:
In this video we will learn about :
1. Venous flow of a fetus.
2. Sinus venosus contribution to IVC formation.
3. Cardinal veins formation to IVC formation.
4. Parts of IVC formed.
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Mobeen Syed is the CEO of DrBeen Corp, a modern online medical education marketplace. Mobeen is a medical doctor and a software engineer. He graduated from the prestigious King Edward Medical University Lahore. He has been teaching medicine since 1994. Mobeen is also a software engineer and engineering leader. In this role, Mobeen has run teams consisting of hundreds of engineers and millions of dollars of budgets. Mobeen loves music, teaching, and doing business. He lives in Cupertino CA.
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