`Medtronic, Inc., Medtronic Vascular, Inc.,
`& Medtronic Corevalve, LLC
`v. Troy R. Norred, MD
`Case IPR2014-00395
`
`
`
`Charitos and Sievers. Anatomy of the aortic root
`
`
`
`Figure 2 Aortic root vortices visualized using flow-sensitive time-
`resolved ‘4D’ magnetic resonance imaging with flow sensitivity
`in all three directions (adapted from Schmidtke C, Sievers HH,
`Frydrychowicz A, et /11. First clinical results with the new sinus
`prosthesis used for valvesparing aortic root replacement. Eur]
`Cardiothorac Surg 2012. [Epub ahead of print]
`
`that imitates the compliant characteristics of the normal
`aortic root. This would allow for an ideal, and low stress,
`movement of the leaflets and could be a future area of
`
`interest and research not only for prosthetic material design
`but also for tissue engineering.
`
`The interleaflet triangles
`
`Under each commissure lies one of the three interleaflet
`
`triangles. Although histologically they consist of thinned
`aortic wall, hemodynamically they are extensions of
`the ventricular outflow tract and reach the level of the
`
`sinotubular junction in the area of the commissures.
`The triangle between the right— and non-coronary
`sinuses faces the right atrium. It is in direct continuity with
`the membranous septum proximally which contains the
`His bundle. This area is of special importance during aortic
`valve procedures, as injury here can lead to temporary or
`permanent conduction abnormalities, which may require
`the implantation of a permanent pacemaker. Under the left
`and non-coronary triangle, the aorto-mitral curtain leads to
`the anterior mitral valve leaflet.
`
`sinotubular junction
`
`NORRED EXHIBIT 2341 - Page 2
`The distal part of the sinuses toward the ascending aorta
`
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`
`sinutubular junction
`leaflet attachment
`
`leaflet (cusp)
`commissure
`S'”“5 °f Va[5a"’a
`inter leaflet triangle
`annulus, ventrlculo—aortic junction
`
`ggrtig valve: Tnree leaflets only
`
`eofl_m_ot=
`
`All components (sinuses of Valsalva, interleaflet tfiangles, sinutubular
`
`junction, leaflet attachments, leaflets, annulus)
`
`Figure 1 Proposed nomenclature for the aortic root components
`(adapted from Sievers HH, Schmidtke C. A classification system
`for the bicuspid aortic valve from 304 surgical specimens] Thorac
`Cardiovasc Surg 2007;133: 1226-33.)
`
`where the leaflet attachments run parallel - distally upstream
`towards the ascending aorta - are called the commissures.
`
`sinuses of Valsalva
`
`The three bulges of the aortic wall are named the sinuses
`of Valmlva, after the Italian anatomist Antonio Valsalva.
`Two of the three sinuses host the origin of the coronary
`arteries and the sinuses are termed accordingly the left,
`right and non-coronary sinus. They are limited proximally
`by the attachments of the valve leaflets and distally by the
`sinotubular junction. At their base, ventricular musculature
`is partly incorporated. The sinus wall itself is predominantly
`made up of aortic wall, although it is thinner than the
`native aorta (5,24,25). The precise function of the sinuses
`of Valsalva is unclear. There is evidence that the vortices
`created in the sinuses lead to stress reduction on the aortic
`
`leaflets and support coronary flow (4,5,24). In valve sparing
`aortic valve surgery, maintenance or recreation of the
`sinuses has been shown to effectively recreate the vortices
`in the sinuses and may be beneficial in terms of normal
`leaflet movement and valve durability (5,24-26) (Figure 2).
`However, aortic root reimplantation without recreation of the
`aortic sinuses has not been shown to have deleterious effects
`
`on valve durability despite abnormal leaflet motion (25). In
`general, there is a need for aortic root replacement material
`
`
`
`Annals of cardiothoracic surgery, Vol 2, No 1 January 2013
`
`55
`
`together with the commissures form a tubular structure
`called the “sinotubular junction” which separates the aortic
`root from the ascending aorta (Figure 1) (14). In some cases
`dilatation of the sinotubular junction is the cause of central
`aortic insufficiency and replacement of the ascending aorta
`with a short tubular graft can restore valve competence.
`
`The “annulus”
`
`Although the word annulus implies a circular structure,
`no distinct histological entity or anatomical boundary fits
`this description. The circumference defined by the nadirs
`of the semi—lunar leaflet attachments is difficult to define
`
`as the annulus, because there is no real, anatomically
`or histologically distinct, circular structure. The term
`‘ventriculo—arterial junction’, as a definition of the “annulus”,
`is rather ambiguous as the ‘anatomical ventriculo-arterial
`junction’ represents the junction between the left ventricular
`myocardium and the arterial structure of the aorta. On the
`contrary, the ‘hemodynamic ventriculo-arterial junction’
`is represented by the coronet shaped leaflet insertion,
`and defines the separation level of ventricular and arterial
`hemodynamics. From a strictly anatomic point of view,
`the ‘anatomic/histologic ventriculo—arterial’ as well as the
`‘hemodynamic ventriculo—arterial’ junction lie somewhat
`more distally to the ‘annulus’ (16-18) and define the area of
`interest less precisely.
`Despite the absence of any anatomically or histologically
`distinct circular structure the popularity of the term
`‘annulus’ probably stems from the fact that this is the area
`of the smallest diameter in the blood path between the left
`ventricle and the aorta and determines the fitting posidon
`of prosthetic Valve sizers and, therefore, the size of the
`prosthetic valve to be implanted. In addition to this, the use
`of this definition gives a good impression of the operative
`technique in use, such as the positioning of the prostheses
`‘supra’ or ‘intra—annular’, as this is the level measured by
`echocardiographers as the ‘aortic valve annulus’ and is the
`area which defines the size of the prosthesis to be implanted
`during aortic valve replacement procedures. However
`prosthetic valves are inserted somewhat more proximally,
`more towards the level of the anatomic Ventriculo-arterial
`
`junction, due to the placement of the sutures predominantly
`through the scalloped attachment of the excised leaflets,
`from the nadir of the sinus to midway up the commissures
`(27,28). In order to avoid any misunderstanding due to the
`numerous definition and terms employed, we have recently
`proposed the use of the term ‘annulus’ to describe the
`
`virtual, circular ring defined by the nadirs of the semi—lunar
`leaflet attachments (Figure 1) (14).
`A successful aortic valve repair or sparing operation aims
`not only to correct the failing part of the aortic root, but
`also to restore the intra- and inter— component relationship
`of the aortic root elements to optimal dimensions and
`relations. The aortic annulus geometry and dimensions
`are major determinants of success and, more importantly,
`of the long term durability of aortic root repair. In cases
`with a dilated aortic annulus it can be successfully reduced
`using an internal or external ring (29-31). In the setting of
`valve sparing surgery, the David procedure also reduces the
`dimension of the annulus to fixed dimensions with excellent
`
`long term results (32).
`
`Acknowledgements
`
`Disclosure: The authors declare no conflict of interest.
`
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`Cite this article as: Charitos EI, Sievers HH. Anatomy of
`the aortic root: implications for valve sparing surgery. Ann
`Cardiothorac Surg 20l3;2(1):53-56. DOI: 10.3978/j.issn.2225—
`319X.2012.1 1.18
`
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