二尖瓣环及瓣叶肌肉消融：对瓣环及瓣叶动力学的影响。

Ablation of mitral annular and leaflet muscle: effects on annular and leaflet dynamics.

作者信息

Timek Tomasz A, Lai David T, Dagum Paul, Tibayan Frederick, Daughters George T, Liang David, Berry Gerald J, Miller D Craig, Ingels Neil B

机构信息

Department Cardiovascular and Thoracic Surgery, Stanford University School of Medicine, California 94305, USA.

出版信息

Am J Physiol Heart Circ Physiol. 2003 Oct;285(4):H1668-74. doi: 10.1152/ajpheart.00179.2003.

DOI:10.1152/ajpheart.00179.2003

PMID:12969884

Abstract

Mitral annular (MA) and leaflet three-dimensional (3-D) dynamics were examined after circumferential phenol ablation of the MA and anterior mitral leaflet (AML) muscle. Radiopaque markers were sutured to the left ventricle, MA, and both mitral leaflets in 18 sheep. In 10 sheep, phenol was applied circumferentially to the atrial surface of the mitral annulus and the hinge region of the AML, whereas 8 sheep served as controls. Animals were studied with biplane video fluoroscopy for computation of 3-D mitral annular area (MAA) and leaflet shape. MAA contraction (MAACont) was determined from maximum to minimum value. Presystolic MAA (PS-MAACont) reduction was calculated as the percentage of total reduction occurring before end diastole. Phenol ablation decreased PS-MAACont (72 +/- 6 vs. 47 +/- 31%, P = 0.04) and delayed valve closure (31 +/- 11 vs. 57 +/- 25 ms, P = 0.017). In control, the AML had a compound sigmoid shape; after phenol, this shape was entirely concave to the atrium during valve closure. These data indicate that myocardial fibers on the atrial side of the valve influence the 3-D dynamic geometry and shape of the MA and AML.

摘要

在对二尖瓣环（MA）和二尖瓣前叶（AML）心肌进行环周苯酚消融后，研究了二尖瓣环和瓣叶的三维（3-D）动力学。在18只绵羊的左心室、二尖瓣环和两个二尖瓣叶上缝合不透射线的标记物。在10只绵羊中，将苯酚环周应用于二尖瓣环的心房表面和AML的铰链区，而8只绵羊作为对照。通过双平面视频荧光透视法对动物进行研究，以计算三维二尖瓣环面积（MAA）和瓣叶形状。MAA收缩（MAACont）通过最大值到最小值来确定。收缩前期MAA（PS-MAACont）减少量计算为舒张末期前总减少量的百分比。苯酚消融降低了PS-MAACont（72±6 vs. 47±31%，P = 0.04）并延迟了瓣膜关闭（31±11 vs. 57±25 ms，P = 0.017）。在对照组中，AML呈复合S形；苯酚消融后，在瓣膜关闭期间，这种形状完全向心房凹陷。这些数据表明，瓣膜心房侧的心肌纤维影响MA和AML的三维动态几何形状和形态。

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二尖瓣环及瓣叶肌肉消融：对瓣环及瓣叶动力学的影响。

Ablation of mitral annular and leaflet muscle: effects on annular and leaflet dynamics.

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