The effects of mitral annuloplasty rings on mitral valve complex 3-D geometry during acute left ventricular ischemia

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The effects of mitral annuloplasty rings on mitral valve complex 3-D geometry during acute left ventricular ischemia

David T. Lai^a, Tomasz A. Timek^a, Frederick A. Tibayan^a, G. Randall Green^a, George T. Daughters^a,b, David Liang^c, Neil B. Ingels, Jr^a,b, D. Craig Miller^a^*

^a Department of Cardiovascular and Thoracic Surgery, Stanford University School of Medicine, Stanford, CA, USA
^b Laboratory of Cardiovascular Physiology and Biophysics, Research Institute of the Palo Alto Medical Foundation, Palo Alto, CA, USA
^c Division of Cardiovascular Medicine, Stanford University School of Medicine, Stanford, CA, USA

Received 14 April 2002; received in revised form 10 August 2002; accepted 23 August 2002.

* Corresponding author. Tel.: +1-650-723-3826; fax: +1-650-725-3846
e-mail: dcm{at}stanford.edu

Objective: Annuloplasty rings are used to treat ischemic mitralregurgitation (IMR), but their exact effects on 3-D geometryof the overall mitral valve complex during acute left ventricular(LV) ischemia remain unknown. Methods: Radiopaque markers weresutured to the mitral leaflet edges, annulus, papillary muscletips, and ventricle in three groups of sheep. One group servedas control (n=5), and the others underwent Duran (n=6) or Physio(n=5) ring annuloplasty. One week later, 3-D marker coordinatesat end-systole were obtained before and during balloon occlusionof the circumflex artery. Results: In all control animals, acuteLV ischemia was associated with: (i) septal-lateral separationof the leaflet edges, which was predicted by lateral displacementof the lateral annulus during septal-lateral mitral annulardilatation; (ii) apical restriction of the posterior leafletedge, which was predicted by displacement of the lateral annulusaway from the non-ischemic anterior papillary muscle; (iii)displacement of the posterior papillary muscle, which was notpredictive of either septal-lateral leaflet separation or leafletrestriction; and (iv) mitral regurgitation. In the Duran groupduring ischemia, the posterior leaflet edge shifted posteriorlydue to posterior movement of the lateral annulus, but no IMRoccurred. In the Physio group during ischemia, neither the posteriorleaflet edge nor the lateral annulus changed positions, andthere was no IMR. In both the Duran and Physio groups, displacementof the posterior papillary muscle did not lead to IMR. Conclusions:Either annuloplasty ring prevented the perturbations of mitralleaflet and annular – but not papillary muscle tip –3-D geometry during acute LV ischemia. By fixing the septal-lateralannular dimension and preventing lateral displacement of thelateral annulus, annuloplasty rings prevented systolic septal-lateralleaflet separation and posterior leaflet restriction, and noacute IMR occurred. The flexible ring allowed posterior displacementof the posterior leaflet edge and the lateral annulus, whichwas not observed with a semi-rigid ring.

Key Words: Ischemic mitral regurgitation • Annuloplasty rings • Mitral valve • Three-dimensional mitral geometry • Acute left ventricular ischemia

Abbreviations: APM, anterior papillary muscle • PPM, posterior papillary muscle • A_MID, midline anterior leaflet edge • P_MID, midline posterior leaflet edge

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