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The atria do not have inlet valves, but are separated from the ventricles by valves. The atria facilitate circulation by allowing uninterrupted blood flow into the heart during ventricular systole.
The atria have several mechanisms in place to ensure that venous blood flow isn't impaired, such as the lack of valves and very light and brief contractions during atrial systole.The right and left ventricles are the bottom chambers of the heart. They have thicker walls than the atria, and they create higher blood pressures to pump blood out of the heart into circulation to the body and the lungs.
The right ventricle pumps deoxygenated blood into pulmonary circulation. The left ventricle pumps oxygenated blood into systemic circulation. The left ventricle is thicker because systemic circulation involves a much larger blood volume than pulmonary circulation.
Systole describes contraction, when blood is pumped from the heart into circulation by the ventricles. It can also describe atrial systole, in which blood moves from the atria to the ventricles during ventricular diastole.
Diastole describes relaxation, when blood moves into the heart, while the ventricles preapre to eject that same blood during systole.
The heart is the complex pump of the circulatory system, and pumps blood throughout the body for the purposes of tissue oxygenation and gas exchange. The heart has four chambers, through which blood flows. There are two sets of each type of chamber, one per side, that are distinct in function. The left side of the heart deals with systemic circulation, while the right side of the heart deals with pulmonary circulation. The two types of chambers of the heart are the atria and the ventricles.
The atria are chambers in which blood enters the heart. The atria are located on the anterior end of the heart, with one atrium on each side. The right atrium receives de-oxygenated blood from systemic circulation through the superior vena cava and inferior venae cavae. The left atrium receives oxygenated blood from pulmonary circulation through the left and right pulmonary veins.
Blood passively flows into the atria without passing through valves. The atria relax and dilate (expand) while they fill with blood, in a process called atrial diastole. There are valves between the atria and ventricles (the mitral and tricuspid valves), and the atria undergo atrial systole, a brief contraction of the atria, which ejects blood from the atria through the valves and into the ventricles. The chordae tendinae are elastic tendons that attach to the valve from the ventricles and relax during atrial systole and ventricular diastole, but contract and close off the valve during ventricular systole.
One of the defining characteristics of the atria is that they do not impede venous flow into the heart. Atria have four essential characteristics that cause them to promote continuous venous flow:
There are no atrial inlet valves to interrupt blood flow during atrial systole. The venous blood entering the heart has a very low pressure compared to arterial blood, and valves would require venous blood pressure to build up over a long period of time to enter the atria.
The atrial systole contractions are incomplete and do not block flow from the veins through the atria into the ventricles. During atrial systole, blood not only empties from the atria to the ventricles, but blood continues to flow uninterrupted from the veins right through the atria into the ventricles.
The atrial contractions are slight, preventing significant back pressure that would impede venous flow.
The relaxation of the atria is coordinated to begin before the start of ventricular contraction, which also helps prevent the heart from beating too slowly.
The ventricles are located on the posterior end of the heart, beneath their corresponding atrium. The right ventricle receives deoxygenated blood from the right atria and pumps it through the pulmonary vein and into pulmonary circulation, which goes into the lungs for gas exchange. The left ventricle receives oxygenated blood from the left atria and pumps it through the aorta into systemic circulation to supply the tissues of the body with oxygen.
The walls of the ventricles are thicker and stronger compared to that of the atria. The physiologic load on the ventricles, which pump blood throughout the body and lungs, is much greater than the pressure generated by the atria to fill the ventricles. Further, the left ventricle has thicker walls than the right because it pumps blood throughout the body, while the right ventricle pumps only to the lungs, which is a much smaller volume of blood.
During ventricular diastole, the ventricles relax and fill with blood. During ventricular systole, the ventricles contract, pumping blood through the semi-lunar valves into systemic circulation.
Source: Boundless. “Chambers of the Heart.” Boundless Anatomy and Physiology. Boundless, 15 Jul. 2016. Retrieved 31 Aug. 2016 from https://www.boundless.com/physiology/textbooks/boundless-anatomy-and-physiology-textbook/cardiovascular-system-the-heart-18/the-heart-172/chambers-of-the-heart-865-681/