出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2015/07/28 16:11:40」(JST)
Atrium | |
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Front view of heart showing the atria
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Details | |
Latin | Atrium |
Identifiers | |
Gray's | p.528 |
TA | A12.1.00.017 |
FMA | 7099 |
Anatomical terminology |
The atrium (plural: atria) is one of the two blood collection chambers of the heart. It was previously called the auricle, but that name has now been in use as being synonymous with the right or left atrial appendage.[1] The atrium is a chamber in which blood enters the heart, as opposed to the ventricle, where it is pushed out of the organ. It has a thin-walled structure that allows blood to return to the heart. There is at least one atrium in animals with a closed circulatory system.
The atrium receives blood as it returns to the heart to complete a circulating cycle, whereas the ventricle pumps blood out of the heart to start a new cycle.[2][3]
Humans have a four-chambered heart consisting of the right atrium, left atrium, right ventricle, and left ventricle. The atria, are the two upper chambers. The right atrium receives and holds deoxygenated blood from the superior vena cava, inferior vena cava, anterior cardiac veins and smallest cardiac veins and the coronary sinus, which it then sends down to the right ventricle (through the tricuspid valve) which in turn sends it to the pulmonary artery for pulmonary circulation. The left atrium receives the oxygenated blood from the left and right pulmonary veins, which it pumps to the left ventricle (through the mitral valve) for pumping out through the aorta for systemic circulation.[4][5]
The right atrium and right ventricle are often referred to as the right heart and similarly the left atrium and left ventricle are often referred to as the left heart. The atria do not have valves at their inlets [6] and as a result, a venous pulsation is normal and can be detected in the jugular vein as the jugular venous pressure.[7][8] Internally, there are the rough pectinate muscles and crista terminalis of His, which act as a boundary inside the atrium and the smooth walled part of the right atrium, the sinus venarum derived from the sinus venosus. The sinus venarum is the adult remnant of the sinus venous and it surrounds the openings of the venae cavae and the coronary sinus. [9]Attached to the right atrium is the right atrial appendage – a pouch-like extension of the pectinate muscles. The interatrial septum separates the right atrium from the left atrium and this is marked by a depression in the right atrium –the fossa ovalis. The atria are depolarised by calcium.
High in the upper part of the left atrium is a muscular ear-shaped pouch –the left atrial appendage. This appears to "function as a decompression chamber during left ventricular systole and during other periods when left atrial pressure is high".[10]
The sinoatrial (SA) node is located in the right atrium, next to the superior vena cava. This is a group of pacemaker cells which spontaneously depolarize to create an action potential. The cardiac action potential then spreads across both atria causing them to contract, forcing the blood they hold into their corresponding ventricles.
The atrioventricular node (AV node) is another node in the cardiac electrical conduction system. This is located between the atria and the ventricles.
During embryogenesis at about two weeks, a primitive atrium begins to be formed. It begins as one chamber which over the following two weeks becomes divided by the septum primum into the left atrium and the right atrium. The interatrial septum has an opening in the right atrium , the foramen ovale which provides access to the left atrium; this connects the two chambers, which is essential for fetal blood circulation. At birth, when the first breath is taken fetal blood flow is reversed to travel through the lungs. The foramen ovale is no longer needed and it closes to leave a depression (the fossa ovalis) in the atrial wall.
In some cases, the foramen ovale fails to close. This abnormality is present in approximately 25% of the general population.[11] This is known as a patent foramen ovale, an atrial septal defect. It is mostly unproblematic, although it can be associated with paradoxical embolization and stroke.[11]
Within the fetal right atrium, blood from the inferior vena cava and the superior vena cava flow in separate streams to different locations in the heart, and this has been reported to occur through the Coandă effect.[12]
In human physiology, the atria facilitate circulation primarily by allowing uninterrupted venous flow to the heart during ventricular systole.[13][14] By being partially empty and distensible, atria prevent the interruption of venous flow to the heart that would occur during ventricular systole if the veins ended at the inlet valves of the heart. In normal physiologic states, the output of the heart is pulsatile, and the venous inflow to the heart is continuous and non-pulsatile. But without functioning atria, venous flow becomes pulsatile, and the overall circulation rate decreases significantly.[15][16]
Atria have four essential characteristics that cause them to promote continuous venous flow. (1) There are no atrial inlet valves to interrupt blood flow during atrial systole. (2) The atrial systole contractions are incomplete and thus do not contract to the extent that would 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. (3) The atrial contractions must be gentle enough so that the force of contraction does not exert significant back pressure that would impede venous flow. (4) The "let go" of the atria must be timed so that they relax before the start of ventricular contraction, to be able to accept venous flow without interruption.[17][18]
By preventing the inertia of interrupted venous flow that would otherwise occur at each ventricular systole, atria allow approximately 75% more cardiac output than would otherwise occur. The fact that atrial contraction is 15% of the amount of the succeeding ventricular ejection has led to a misplaced emphasis on their role in pumping up the ventricles (the so-called "atrial kick"), whereas the key benefit of atria is in preventing circulatory inertia and allowing uninterrupted venous flow to the heart.[19][20]
Also, of importance in maintaining the blood flow are the presence of atrial volume receptors. These are low-pressure baroreceptors in the atria, which send signals to the hypothalamus when a drop in atrial pressure (which indicates a drop in blood volume) is detected. This triggers a release of vasopressin.[21]
The left atrium is supplied mainly by the left circumflex coronary artery, and its small branches.[22]
The oblique vein of the left atrium is partly responsible for venous drainage; it derives from the embryonic left superior vena cava.
In an adult, an atrial septal defect would result in the flow of blood in the reverse direction - from the left atrium to the right - which will reduce cardiac output, potentially causing cardiac failure and in severe or untreated cases cardiac arrest and sudden death.
In patients with atrial fibrillation, mitral valve disease, and other conditions, blood clots have a tendency to form in the LAA.[10] Blood clots caused by atrial fibrillation stem from the LAA in more than 90% of cases.[23] They may dislodge (forming emboli), which may lead to ischemic damage to the brain, kidneys, or other organs supplied by the systemic circulation.[24] Left atrial appendage occlusion is an experimental treatment to prevent stroke in atrial fibrillation.[25]
The left atrial appendage can serve as an approach for mitral valve surgery.[26] The left atrial appendage can be seen on a standard posteroanterior x-ray, where the lower level of the left hilum becomes concave.[27]
Many other animals, including mammals, also have four-chambered hearts, which have a similar function. Some animals (amphibians and reptiles) have a three-chambered heart, in which the blood from each atrium is mixed in the single ventricle before being pumped to the aorta. In these animals, the left atrium still serves the purpose of collecting blood from the pulmonary veins.
In fish, the circulatory system is very simple: a two-chambered heart including one atrium and one ventricle. In other vertebrate groups, the circulatory system is much more complicated. Their circulatory systems are divided into two types: a three-chambered heart, with two atria and one ventricle, or a four-chambered heart, with two atria and two ventricles.
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リンク元 | 「左心耳」 |
関連記事 | 「left」 |
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