Aortic valve
Disclosures
- updated 3 May 2023:
- Philips Australia, Paid speaker at Philips Spectral CT events (ongoing)
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The aortic valve (AV) is one of the four cardiac valves. It is the semilunar valve that allows blood to exit the left ventricle (LV). It opens during systole and closes during diastole. The valve has left, right, and posterior cusps, the bases of which attach around the valve orifice to a fibrous ring or annulus, forming part of the fibrous skeleton of the heart. The cusps attach to each other and the annulus at the commissures. The free edge of each cusp (the lunule) is thickened where it contacts the free edges of adjacent cusps and at the angulated apex of each free edge, there is further nodular thickening, known as the nodule. The cusps bulge inferiorly into the outflow tract of the left ventricle.
Immediately superior to the cusps, the ascending aorta is mildly dilated forming the aortic sinuses, the spaces between the dilated wall of the aorta and the cusps of the semilunar valve. During systole, these sinuses prevent the cusps from flattening against the walls of the sinuses, which may restrict valve closure during diastole.
The left coronary artery arises arises from the left aortic sinus and the right coronary artery arises from the right aortic sinus. The posterior sinus does not have a vessel arising from it and is therefore referred to as the non-coronary sinus. The aortic valve lies obliquely and is inferior and to the right of the pulmonary valve (PV).
Variant anatomy
Related pathology
-<p>The <strong>aortic valve </strong>(<strong>AV</strong>) is one of the four <a href="/articles/cardiac-valves-1">cardiac valves</a>. It is the semilunar valve that allows blood to exit the <a href="/articles/left-ventricle">left ventricle (LV)</a>. It opens during systole and closes during diastole. The valve has left, right, and posterior cusps, the bases of which attach around the valve orifice to a fibrous ring or <a href="/articles/aortic-annulus">annulus</a>, forming part of the <a href="/articles/cardiac-fibrous-skeleton">fibrous skeleton of the heart</a>. The cusps attach to each other and the annulus at the <strong>commissures</strong>. The free edge of each cusp (the <strong>lunule)</strong> is thickened where it contacts the free edges of adjacent cusps and at the angulated apex of each free edge, there is further nodular thickening, known as the <strong>nodule. </strong>The cusps bulge inferiorly into the outflow tract of the left ventricle.</p><p>Immediately superior to the cusps, the <a href="/articles/ascending-aorta">ascending aorta</a> is mildly dilated forming the <a href="/articles/sinus-of-valsalva-1">aortic sinuses</a>, the spaces between the dilated wall of the aorta and the cusps of the semilunar valve. During systole, these sinuses prevent the cusps from flattening against the walls of the sinuses, which may restrict valve closure during diastole.</p><p>The <a href="/articles/left-main-coronary-artery-1">left coronary artery</a> arises from the left aortic sinus and the <a href="/articles/right-coronary-artery">right coronary artery</a> arises from the right aortic sinus. The posterior sinus does not have a vessel arising from it and is therefore referred to as the non-coronary sinus. The aortic valve lies obliquely and is inferior and to the right of the <a href="/articles/pulmonary-valve">pulmonary valve (PV)</a>.</p><h4>Variant anatomy</h4><ul>-<li><a href="/articles/bicuspid-aortic-valve">bicuspid aortic valve</a></li>-<li><a href="/articles/quadricuspid-aortic-valve">quadricuspid aortic valve</a></li>-<li><a href="/articles/unicuspid-aortic-valve">unicuspid aortic valve</a></li>- +<p>The <strong>aortic valve </strong>(<strong>AV</strong>) is one of the four <a href="/articles/cardiac-valves-1">cardiac valves</a>. It is the semilunar valve that allows blood to exit the <a href="/articles/left-ventricle">left ventricle (LV)</a>. It opens during systole and closes during diastole. The valve has left, right, and posterior cusps, the bases of which attach around the valve orifice to a fibrous ring or <a href="/articles/aortic-annulus">annulus</a>, forming part of the <a href="/articles/cardiac-fibrous-skeleton">fibrous skeleton of the heart</a>. The cusps attach to each other and the annulus at the <strong>commissures</strong>. The free edge of each cusp (the <strong>lunule)</strong> is thickened where it contacts the free edges of adjacent cusps and at the angulated apex of each free edge, there is further nodular thickening, known as the <strong>nodule. </strong>The cusps bulge inferiorly into the outflow tract of the left ventricle.</p><p>Immediately superior to the cusps, the <a href="/articles/ascending-aorta">ascending aorta</a> is mildly dilated forming the <a href="/articles/sinus-of-valsalva-1">aortic sinuses</a>, the spaces between the dilated wall of the aorta and the cusps of the semilunar valve. During systole, these sinuses prevent the cusps from flattening against the walls of the sinuses, which may restrict valve closure during diastole.</p><p>The <a href="/articles/left-main-coronary-artery-1">left coronary artery</a> arises from the left aortic sinus and the <a href="/articles/right-coronary-artery">right coronary artery</a> arises from the right aortic sinus. The posterior sinus does not have a vessel arising from it and is therefore referred to as the non-coronary sinus. The aortic valve lies obliquely and is inferior and to the right of the <a href="/articles/pulmonary-valve">pulmonary valve (PV)</a>.</p><h4>Variant anatomy</h4><ul>
- +<li><p><a href="/articles/bicuspid-aortic-valve">bicuspid aortic valve</a></p></li>
- +<li><p><a href="/articles/quadricuspid-aortic-valve">quadricuspid aortic valve</a></p></li>
- +<li><p><a href="/articles/unicuspid-aortic-valve">unicuspid aortic valve</a></p></li>
-<li><a href="/articles/aortic-valve-stenosis">aortic stenosis</a></li>-<li><a href="/articles/aortic-regurgitation">aortic regurgitation</a></li>-<li><a href="/articles/transposition-of-the-great-arteries">transposition of the great arteries</a></li>-<li><a href="/articles/tetralogy-of-fallot">tetralogy of Fallot</a></li>-<li><a href="/articles/aortic-valve-calcification">aortic valve calcification</a></li>-</ul><p> </p>- +<li><p><a href="/articles/aortic-valve-stenosis">aortic stenosis</a></p></li>
- +<li><p><a href="/articles/aortic-regurgitation">aortic regurgitation</a></p></li>
- +<li><p><a href="/articles/transposition-of-the-great-arteries">transposition of the great arteries</a></p></li>
- +<li><p><a href="/articles/tetralogy-of-fallot">tetralogy of Fallot</a></p></li>
- +<li><p><a href="/articles/aortic-valve-calcification">aortic valve calcification</a></p></li>
- +<li><p><a href="/articles/transcatheter-aortic-valve-implantation-tavi-2" title="Transcatheter aortic valve replacement">transcatheter aortic valve replacement</a></p></li>
- +<li><p><a href="/articles/prosthetic-heart-valve" title="Heart valve replacement">valve replacement</a></p></li>
- +</ul><p> </p>
Images Changes:
Image 4 Annotated image (Aortic root) ( create )
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Figure 4: CTA aortic root anatomy
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