All Access Pass - 1 FREE Month!
Institutional email required, no credit card necessary.
Heart - Internal Features
Free One-Month Access!
Institutional (.edu or .org) Email Required
or Start your One-Week Free Trial!
Already Have an Account?
Log In
Log in through OpenAthens

Heart - Internal Features

Notes
Key Features of the Internal Heart:
Septi (singular = septum)
  • Structurally and functionally divide the heart into right and left sides; each side operates as a muscular pump.
    • Interventricular septum divides right and left ventricles, inferiorly.
    • Interatrial septum divides right and left atria, superiorly.
Chambers
  • Atria
    • Superior chambers
  • Ventricles
    • Inferior chambers
Valves
  • Ensure unidirectional blood flow through the heart.
Right atrioventricular valve
  • Three cusps (aka, leaflets):
    • Anterior
    • Posterior
    • Septal
  • Because it has three cusps, this valve is called the "tricuspid valve."
Left atrioventricular valve
  • Two cusps:
    • Anterior
    • Posterior
  • Because it has two cusps, it is called the bicuspid valve (aka, the mitral valve, because it is mitre-shaped).
Semilunar valves:
  • Aortic and pulmonary semilunar valves ensure that blood travels from through the aorta and pulmonary trunk unidirectionally.
Papillary muscles
  • Anchor AV valves.
  • Special extensions of the trabeculae carneae in the ventricles (papillary refers to their nipple-like shape).
  • The moderator band (aka, septomarginal trabecula) spans from the interventricular septum to the base of the anterior papillary muscle; it prevents the ventricle from overfilling, and contains a portion of the cardiac conduction system (which is addressed in a separate tutorial).
Right ventricle has three papillary muscles, each named for its location:
    • Anterior
    • Posterior
    • Septal (which is sometimes absent)
Left ventricle typically has two papillary muscles
    • Anterior
    • Posterior
Chordae tendineae
  • Short cords that attach flaps of valves to papillary muscles to prevent prolapse (aka, eversion) of the valves, and ensure unidirectional blood flow through the chambers.
Features of the Ventricles:
  • Walls of the left ventricle are more muscular and thicker than the walls of the right.
    • The left ventricle must produce more muscular force to pump blood to the body; in contrast, the right ventricle produces less force, as it sends blood to the nearby lungs.
  • Trabeculae carnae
Irregular ridges of muscle on internal ventricular surface
Features of the Atria:
  • Pectinate muscles line the anterior wall of the right atrium. These muscles also exist in the left atrium but are less abundant.
  • Fossa ovalis is a shallow depression in the wall of the interatrial septum.
    • The fossa ovalis is clinically significant from the moment of birth, when it seals off an opening in the interatrial septum called the foramen ovale.
    • In utero, the foramen ovale shunts blood directly from the right to left atrium, which allows the blood to bypass the nonfunctional lungs (the fetus receives oxygen directly from the maternal blood via the placenta).
Immediately after birth, the interatrial septum fuses, which closes the foramen ovale; the fossa ovalis represents this fusion.
    • In some cases, septal fusion is incomplete (aka, patent foramen ovale), which can impede blood flow and, consequently, blood oxygenation.
Great vessels
  • Arteries send blood away from the heart
  • Veins return blood to the heart
Aorta
  • Arises from the left ventricle and arches posteriorly; carries oxygenated blood away from the left ventricle.
Pulmonary trunk
  • Arises from the right ventricle and splits to form the right and left pulmonary arteries; pulmonary arteries carry deoxygenated blood away from the right ventricle, to the lungs.
Pulmonary veins
  • Drain into the left atrium; return blood to the heart from the lungs. ("pulmonary" refers to the lungs").
Inferior and Superior vena cavae
  • Return deoxygenated blood from the body to the right atrium
Opening of coronary sinus
  • Returns deoxygenated blood from the myocardium to the heart to right atrium.