BACKGROUND AND AIM OF THE STUDY: The long-term outcomes of mitral valve repairs are enhanced with an annuloplasty device. Although, in general, semirigid and rigid annuloplasty devices remodel the shape of the mitral valve annulus, the effect of geometric alteration on annular motion has not been fully assessed. Hence, the study aim was to investigate the influence of semi-rigid annuloplasty devices on the motion of the mitral valve annulus in adult sheep. METHODS: Sonomicrometric crystals were attached to semi-rigid annuloplasty devices (CG Future Band and CG Future COMPOSITE Ring), as well as to intra- and epicardiac sites for motion assessment in 13 sheep. Following implantation, hemodynamic and sonomicrometric measurements were collected under normal sinus rhythm and during dobutamine challenge conditions. RESULTS: Sonomicrometric measurements showed variations in the degree of device motion and timing of motion changes, depending on device size and type. Measurement of transverse device width demonstrated a pre-systolic decrease in width. For devices with the largest annular motion, the transverse device width increased during ventricular systole, with an out-of-phase increase in mitral annular septal-lateral distance during diastole. However, the geometric device septal-lateral distance showed minimal change across all devices, indicating maintenance of posterior remodeling geometry. Three-dimensional analyses revealed vertical elevation of the anterior annulus above the posterior annular plane during ventricular systole, consistent with anterior annular folding. The maximum calculated annular area occurred during early to mid-ventricular diastole, providing for maximal valve orifice area during opening of the mitral valve. The minimum annular area occurred near end-diastole to early systole, consistent with valve closing. CONCLUSION: The study results suggest that semi-rigid posterior annuloplasty devices with absent or flexible anterior mitral valve annular segments allow for a dynamic anterior annulus while maintaining aggressive posterior annular remodeling. Future studies should be undertaken to investigate the interaction between the anterior mitral valve annulus and the aortic root following annuloplasty device implantation.
BACKGROUND AND AIM OF THE STUDY: The long-term outcomes of mitral valve repairs are enhanced with an annuloplasty device. Although, in general, semirigid and rigid annuloplasty devices remodel the shape of the mitral valve annulus, the effect of geometric alteration on annular motion has not been fully assessed. Hence, the study aim was to investigate the influence of semi-rigid annuloplasty devices on the motion of the mitral valve annulus in adult sheep. METHODS: Sonomicrometric crystals were attached to semi-rigid annuloplasty devices (CG Future Band and CG Future COMPOSITE Ring), as well as to intra- and epicardiac sites for motion assessment in 13 sheep. Following implantation, hemodynamic and sonomicrometric measurements were collected under normal sinus rhythm and during dobutamine challenge conditions. RESULTS: Sonomicrometric measurements showed variations in the degree of device motion and timing of motion changes, depending on device size and type. Measurement of transverse device width demonstrated a pre-systolic decrease in width. For devices with the largest annular motion, the transverse device width increased during ventricular systole, with an out-of-phase increase in mitral annular septal-lateral distance during diastole. However, the geometric device septal-lateral distance showed minimal change across all devices, indicating maintenance of posterior remodeling geometry. Three-dimensional analyses revealed vertical elevation of the anterior annulus above the posterior annular plane during ventricular systole, consistent with anterior annular folding. The maximum calculated annular area occurred during early to mid-ventricular diastole, providing for maximal valve orifice area during opening of the mitral valve. The minimum annular area occurred near end-diastole to early systole, consistent with valve closing. CONCLUSION: The study results suggest that semi-rigid posterior annuloplasty devices with absent or flexible anterior mitral valve annular segments allow for a dynamic anterior annulus while maintaining aggressive posterior annular remodeling. Future studies should be undertaken to investigate the interaction between the anterior mitral valve annulus and the aortic root following annuloplasty device implantation.
Authors: Khurram Owais; Han Kim; Kamal R Khabbaz; Remco Bergman; Robina Matyal; Robert C Gorman; Joseph H Gorman; Philip E Hess; Feroze Mahmood Journal: Ann Thorac Surg Date: 2014-03-06 Impact factor: 4.330
Authors: Manuel K Rausch; Wolfgang Bothe; John-Peder Escobar Kvitting; Julia C Swanson; D Craig Miller; Ellen Kuhl Journal: Ann Biomed Eng Date: 2011-10-25 Impact factor: 3.934