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Superior Vena Cava

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What is Superior Vena Cava?

Blood from all body parts enters the heart through this vein. There are two parts to the vena cava: the superior vena cava and the inferior vena cava. From the head, neck, arms, and chest, blood flows into the superior vena cava. The inferior vena cava on the other hand is responsible for carrying blood from the legs, feet, and abdominal and pelvic organs. Here, we will discuss questions like what is superior vena cava and superior vena cava branches.


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Located in the anterior right superior mediastinum, the superior vena cava is short but is a large diameter vein. The Latin name, cava, means 'hollow' in reference to its large pipe appearance in cadavers. As it contributes largely to the input of blood to the right atrium, the superior vena cava is relatively important for the function of the cardiovascular system. The heart's superior and inferior venae cavae are affected by any hypertensive process occurring in the right side of the heart. Consequently, the veins cannot withstand high pressure, resulting in aneurysms or even ruptures of the SVC.


Superior Vena Cava Anatomy

In embryology, the SVC is composed of the brachiocephalic (or innominate) veins (also known as the brachiocephalic veins) that receive blood from the upper limbs, head (including the eyes), and neck.

The SVC does not have a valve that separates it from the right atrium, which conducts blood upward into the internal jugular vein (seemed as jugular venous pressure) and sternocleidomastoid muscle. At the second costal cartilage level, the SVC penetrates the fibrous pericardium covering its lower half. At the 3rd costal cartilage level, the SVC is located directly behind the lower border of the first right costal cartilage, then descends vertically behind the second and third intercostal spaces to empty into the right atrium.


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Superior Vena Cava

The superior vena cava is formed of the right and left brachiocephalic veins, sometimes called the innominate veins, behind the inferior border of the first right costal cartilage. Blood is carried through these veins from the chest wall, the esophagus, the lungs, the neck, and the pericardium. At the third intercostal space and the second intercostal space, the superior vena cava descends vertically downwards. By means of the azygos arch, the azygos vein drains into the superior vena cava at the point where it penetrates the fibrous pericardium opposite the right second costal cartilage. This fibrous pericardium covers the lower portion of the superior vena cava. At the level of the third costal cartilage, it drains into the right atrium. Within the right atrium, the superior vena cava terminates in the sinus venarum. The superior vena cava does not have valves at the point where it drains into the right atrium. The superior vena cava measures approximately 7 centimeters in length and 2 centimeters in width.


Superior Vena Cava Location

Both the inferior vena cava and the superior vena cava of humans drain into the right atrium. On the right side of the human body, they are slightly off-center. Through two large veins called venae cavae, deoxygenated blood flows into the right atrium.


Superior Vena Cava Tributaries

Tributaries create superior vena cava from the head, neck, arms, and part of the chest. The venous sinuses lie between the two layers of dura mater, the brain's outer covering; they do not have valves. Through these sinuses and communicating vessels, the brain receives venous drainage. A few centimeters below the collarbone, the innominate veins of each side converge to form the subclavian vein of that side. Continuing this vein downward into the neck, the internal jugular vein carries blood from parts of the face, neck, and brain.

In the lower jaw or mandible, there is a junction of tributaries of the external jugular vein. The subclavian and some of the head and neck structures drain into the innominate vein on the same side. A tributary of the subclavian vein of that side runs through all the veins of the arm. These veins are found both superficially and deeply and have valves. The deep veins are typically arranged in pairs and connected crosswise.


Thus, the well-written has explained all the vital information unrelated to superior vena cava.

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FAQs on Superior Vena Cava

1. What is the function of the superior vena cava?

The inferior vena cava and the superior vena cava make up the vena cava. The largest vein in the human body is the vena cava. The superior vena cava in the body is responsible for carrying blood from the head, shoulders, arms, and chest. Inferior vena cava transports blood from the legs, feet, and pelvic and abdominal organs.

2. What is the main difference between the superior vena cava and inferior vena cava?

There is a vein called the inferior vena cava. It transports deoxygenated blood from the lower to the upper half of the body. The superior vena cava is the vein that carries deoxygenated blood from the upper half of the body.

3. Is superior vena cava syndrome (SVCS) a medical condition?

Slow blood flow through the superior vena cava (SVC) causes the superior vena cava syndrome (SVCS). SVCs are large veins that drain blood from the head, neck, arms, and upper chest to the heart.

The most common cause of SVCS is cancer. When SVCS occurs, blood flow slows down over a few days or even weeks, causing symptoms that prompt the person to seek medical attention. The SVCS can happen very quickly and cause the SVC to become blocked in rare cases. Thus, the person cannot breathe because the airway is blocked. When SVCS occurs in adults, it is extremely dangerous. But when SVCS occurs in children, it is life-threatening.

4. Are there any surgical considerations of superior vena cava?

Mediastinal masses or thrombi can obstruct the superior vena cava, requiring surgical intervention. The superior vena cava can be damaged by trauma to the thoracic region, long-term catheterization, or chronic use of pacing electrodes. Surgical repair of the superior vena cava must be performed with great care since the venous return from the neck and head will be impaired under these circumstances. Such impairment could potentially adversely affect the patient.


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