Heart
Updates to Article Attributes
The heart is a hollow, muscular organ of the middle mediastinum, designed to pump oxygenated blood around the systemic circulation and de-oxygenated blood around the pulmonary ciruclationcirculation
Gross anatomy
The heart has a somewhat conical form and is enclosed by pericardium. It is postionedpositioned posteriorly to the body of the sternum with one one-third of it is situated on the right and two-thirds on the left of the midline.
The heart measures 12 x 8.5 x 6 cm and weighs ~310 g (males) and ~255 g (females) 1.
Relations
- anteriorly: the body of the sternum and adjoining costal cartilages; left lung and pleura (apex)
- posteriorly: oesophagus, descending thoracic aorta, azygos and hemiazygos veins, thoracic duct
- superiorly: bifurcation of the main pulmonary trunk
- inferiorly: diaphragm
- laterally: lungs, pleura
Parts
The heart is subdivided by septa into right and left halves, and a constriction subdivides each half of the organ into two cavities, the upper cavity being called the atrium, the lower the ventricle. The heart, therefore, consists of four chambers:
The division of the heart into four cavities is indicated on its surface by grooves. The atria are separated from the ventricles by the coronary sulcus (atrioventricular groove); this contains the trunks of the nutrient vessels of the heart, and is deficient in front, where it is crossed by the root of the pulmonary artery. The interatrial groove, separating the two atria, is scarcely marked on the posterior surface, while anteriorly it is hidden by the pulmonary artery and aorta.
The ventricles are separated by two grooves, one of which, the anterior longitudinal sulcus, is situated on the sternocostal surface of the heart, close to its left margin, the other posterior longitudinal sulcus, on the diaphragmatic surface near the right margin; these grooves extend from the base of the ventricular portion to a notch, the incisura apicis cordis, on the acute margin of the heart just to the right of the apex.
Heart valves
The outflow of each chamber is guarded by a heart valve:
- atrioventricular valves between the atria and ventricles
- tricuspid valve
- mitral valve (bicuspid valve)
- semilunar valves which are located at the outflow tracts of the ventricles
It is best to remember the four chambers and four valves in order of the series that blood travels through the heart:
- venous blood returning from the body drains into theright atrium via theSVC, IVCandcoronary sinus
- the right atrium pumps blood through thetricuspid valve into theright ventricle
- theright ventriclepumps blood through thepulmonary semilunar valveinto thepulmonary trunk to be oxygenated in thelungs
- blood returning from the lungs drains into theleft atrium via the fourpulmonary veins
- the left atrium pumps blood through thebicuspid (mitral) valve into theleft ventricle
- the left ventricle pumps blood through theaortic semilunar valve into theascending aorta to supply the body
Surfaces
The heart can be described as having the following surfaces:
- posterior surface (base)
- directed upward, backward and to the right
- formed mainly by the left atrium and little by the right atrium
- apex
- directed downward, forward and to the left
- formed by the left ventricle
- anterior (sternocostal) surface
- directed forward, upward and to the left
- formed mainly by the right ventricle inferiorly and superiorly by the atria
- inferior (diaphragmatic) surface
- directed
downwareddownward, slightly backward - formed by the ventricles
- rests mainly upon the central tendon of the diaphragm
- directed
- right surface
- long; formed by right atrium superiorly and right ventricle inferiorly
- left (pulmonary) surface
- shorter
, rounedrounded; formed mainly by the left ventricle and a little superiorly by the left atrium
- shorter
Borders
The heart has four borders:
- right border: IVC, right atrium, SVC
- left border: left ventricle, left atrium, pulmonary trunk and arch of aorta
- inferior border: right ventricle
- superior border: right and left atria, SVC, ascending aorta and pulmonary trunk
See: Silhouette sign
Blood supply
See main articles: coronary arteries, coronary arterial dominance and coronary veins.
Innervation
See main article: innervation of the heart.
Lymphatic drainage
Various lymphatic plexuses drain into a right cardiac collecting trunk (draining to anterior mediastinal nodes) and a left cardiac collecting trunk (draining to tracheobronchial nodes and onto paratracheal nodes).
Variant anatomy
The line can become somewhat blurred between what constitutes an anatomical variation and congenital heart disease but the key differentiator could be considered the presence or absence of symptoms in the majority of cases:
- aberrant location of the heart indextrocardia and situs inversus
- Eustachian valve: remnant valve of the IVC
- Thebesian valve of the coronary sinus
- patent foramen ovale
There is also considerable variation in the anatomy of the coronary circulation and pulmonary veins.
Related pathology
-<p>The <strong>heart</strong> is a hollow, muscular organ of the <a href="/articles/middle-mediastinum">middle mediastinum</a>, designed to pump oxygenated blood around the systemic circulation and de-oxygenated blood around the pulmonary ciruclation</p><h4>Gross anatomy</h4><p>The heart has a somewhat conical form and is enclosed by pericardium. It is postioned posteriorly to the body of sternum with one-third of it is situated on the right and two-thirds on the left of the midline.</p><p>The heart measures 12 x 8.5 x 6 cm and weighs ~310 g (males) and ~255 g (females) <sup>1</sup>. </p><h5>Relations</h5><ul>-<li>anteriorly: body of the <a href="/articles/sternum">sternum</a> and adjoining <a href="/articles/costal-cartilages">costal cartilages</a>; left <a href="/articles/lung">lung</a> and <a href="/articles/pleura">pleura</a> (apex)</li>- +<p>The <strong>heart</strong> is a hollow, muscular organ of the <a href="/articles/middle-mediastinum">middle mediastinum</a>, designed to pump oxygenated blood around the systemic circulation and de-oxygenated blood around the pulmonary circulation</p><h4>Gross anatomy</h4><p>The heart has a somewhat conical form and is enclosed by pericardium. It is positioned posteriorly to the body of the sternum with one-third of it is situated on the right and two-thirds on the left of the midline.</p><p>The heart measures 12 x 8.5 x 6 cm and weighs ~310 g (males) and ~255 g (females) <sup>1</sup>. </p><h5>Relations</h5><ul>
- +<li>anteriorly: the body of the <a href="/articles/sternum">sternum</a> and adjoining <a href="/articles/costal-cartilages">costal cartilages</a>; left <a href="/articles/lung">lung</a> and <a href="/articles/pleura">pleura</a> (apex)</li>
-<li>superiorly: bifurcation of main <a href="/articles/pulmonary-trunk">pulmonary trunk</a>- +<li>superiorly: bifurcation of the main <a href="/articles/pulmonary-trunk">pulmonary trunk</a>
-</ul><h5>Parts</h5><p>The heart is subdivided by septa into right and left halves, and a constriction subdivides each half of the organ into two cavities, the upper cavity being called the atrium, the lower the ventricle. The heart therefore consists of <a href="/articles/heart-chambers">four chambers</a>:</p><ul>- +</ul><h5>Parts</h5><p>The heart is subdivided by septa into right and left halves, and a constriction subdivides each half of the organ into two cavities, the upper cavity being called the atrium, the lower the ventricle. The heart, therefore, consists of <a href="/articles/heart-chambers">four chambers</a>:</p><ul>
-</ul><p>The division of the heart into four cavities is indicated on its surface by grooves. The atria are separated from the ventricles by the coronary sulcus (atrioventricular groove); this contains the trunks of the nutrient vessels of the heart, and is deficient in front, where it is crossed by the root of the pulmonary artery. The interatrial groove, separating the two atria, is scarcely marked on the posterior surface, while anteriorly it is hidden by the <a href="/articles/pulmonary-artery">pulmonary artery</a> and aorta.</p><p>The ventricles are separated by two grooves, one of which, the anterior longitudinal sulcus, is situated on the sternocostal surface of the heart, close to its left margin, the other posterior longitudinal sulcus, on the diaphragmatic surface near the right margin; these grooves extend from the base of the ventricular portion to a notch, the incisura apicis cordis, on the acute margin of the heart just to the right of the apex.</p><h5>Heart valves</h5><p>The outflow of each chamber is guarded by a heart valve:</p><ul>- +</ul><p>The division of the heart into four cavities is indicated on its surface by grooves. The atria are separated from the ventricles by the coronary sulcus (atrioventricular groove); this contains the trunks of the nutrient vessels of the heart and is deficient in front, where it is crossed by the root of the pulmonary artery. The interatrial groove, separating the two atria, is scarcely marked on the posterior surface while anteriorly it is hidden by the <a href="/articles/pulmonary-artery">pulmonary artery</a> and aorta.</p><p>The ventricles are separated by two grooves, one of which, the anterior longitudinal sulcus, is situated on the sternocostal surface of the heart, close to its left margin, the other posterior longitudinal sulcus, on the diaphragmatic surface near the right margin; these grooves extend from the base of the ventricular portion to a notch, the incisura apicis cordis, on the acute margin of the heart just to the right of the apex.</p><h5>Heart valves</h5><p>The outflow of each chamber is guarded by a heart valve:</p><ul>
-<li>venous blood returning from the body drains into the <a href="/articles/right-atrium">right atrium</a> via the <a href="/articles/superior-vena-cava">SVC</a>, <a href="/articles/inferior-vena-cava-1">IVC </a>and <a href="/articles/coronary-sinus">coronary sinus</a>- +<li>venous blood returning from the body drains into the <a href="/articles/right-atrium">right atrium</a> via the <a href="/articles/superior-vena-cava">SVC</a>, <a href="/articles/inferior-vena-cava-1">IVC </a>and <a href="/articles/coronary-sinus">coronary sinus</a>
-<li>the right atrium pumps blood through the <a href="/articles/missing">tricuspid valve</a> into the <a href="/articles/missing">right ventricle</a>- +<li>the right atrium pumps blood through the <a href="/articles/missing">tricuspid valve</a> into the <a href="/articles/missing">right ventricle</a>
-<li>the <a href="/articles/missing">right ventricle </a>pumps blood through the <a href="/articles/missing">pulmonary semilunar valve </a>into the <a href="/articles/missing">pulmonary trunk</a> to be oxygenated in the <a href="/articles/lung">lungs</a>- +<li>the <a href="/articles/missing">right ventricle </a>pumps blood through the <a href="/articles/missing">pulmonary semilunar valve </a>into the <a href="/articles/missing">pulmonary trunk</a> to be oxygenated in the <a href="/articles/lung">lungs</a>
-<li>blood returning from the lungs drains into the <a href="/articles/missing">left atrium</a> via the four <a href="/articles/pulmonary-veins">pulmonary veins</a>- +<li>blood returning from the lungs drains into the <a href="/articles/missing">left atrium</a> via the four <a href="/articles/pulmonary-veins">pulmonary veins</a>
-<li>the left atrium pumps blood through the <a href="/articles/missing">bicuspid (mitral) valve</a> into the <a href="/articles/left-ventricle">left ventricle</a>- +<li>the left atrium pumps blood through the <a href="/articles/missing">bicuspid (mitral) valve</a> into the <a href="/articles/left-ventricle">left ventricle</a>
-<li>the left ventricle pumps blood through the <a href="/articles/missing">aortic semilunar valve</a> into the <a href="/articles/ascending-aorta">ascending aorta</a> to supply the body</li>- +<li>the left ventricle pumps blood through the <a href="/articles/missing">aortic semilunar valve</a> into the <a href="/articles/ascending-aorta">ascending aorta</a> to supply the body</li>
-<li>directed downwared, slightly backward</li>- +<li>directed downward, slightly backward</li>
-<li>left (pulmonary) surface<ul><li>shorter, rouned; formed mainly by the left ventricle and a little superiorly by the left atrium</li></ul>- +<li>left (pulmonary) surface<ul><li>shorter rounded; formed mainly by the left ventricle and a little superiorly by the left atrium</li></ul>
-</ul><p>See: <a title="Silhouette sign" href="/articles/silhouette-sign">Silhouette sign</a></p><h4>Blood supply</h4><p>See main articles: <a href="/articles/coronary-arteries">coronary arteries</a>, <a href="/articles/coronary-arterial-dominance">coronary arterial dominance</a> and <a href="/articles/coronary-veins">coronary veins</a>. </p><h4>Innervation</h4><p>See main article: <a href="/articles/innervation-of-the-heart">innervation of the heart</a>. </p><h4>Lymphatic drainage</h4><p>Various lymphatic plexuses drain into a right cardiac collecting trunk (draining to anterior mediastinal nodes) and a left cardiac collecting trunk (draining to tracheobronchial nodes and onto paratracheal nodes). </p><h4>Variant anatomy</h4><p>The line can become somewhat blurred between what constitutes an anatomical variation and congenital heart disease but the key differentiator could be considered the presence or absence of symptoms in the majority of cases:</p><ul>-<li>aberrant location of the heart in <a href="/articles/dextrocardia">dextrocardia</a> and <a href="/articles/situs-inversus">situs inversus</a>- +</ul><p>See: <a href="/articles/silhouette-sign">Silhouette sign</a></p><h4>Blood supply</h4><p>See main articles: <a href="/articles/coronary-arteries">coronary arteries</a>, <a href="/articles/coronary-arterial-dominance">coronary arterial dominance</a> and <a href="/articles/coronary-veins">coronary veins</a>. </p><h4>Innervation</h4><p>See main article: <a href="/articles/innervation-of-the-heart">innervation of the heart</a>. </p><h4>Lymphatic drainage</h4><p>Various lymphatic plexuses drain into a right cardiac collecting trunk (draining to anterior mediastinal nodes) and a left cardiac collecting trunk (draining to tracheobronchial nodes and onto paratracheal nodes). </p><h4>Variant anatomy</h4><p>The line can become somewhat blurred between what constitutes an anatomical variation and congenital heart disease but the key differentiator could be considered the presence or absence of symptoms in the majority of cases:</p><ul>
- +<li>aberrant location of the heart in <a href="/articles/dextrocardia">dextrocardia</a> and <a href="/articles/situs-inversus">situs inversus</a>