黏液瘤样二尖瓣小叶和腱索的糖胺聚糖谱与机械性改变的严重程度平行。

Glycosaminoglycan profiles of myxomatous mitral leaflets and chordae parallel the severity of mechanical alterations.

作者信息

Grande-Allen K Jane, Griffin Brian P, Ratliff Norman B, Cosgrove Delos M, Vesely Ivan

机构信息

Biomedical Engineering, The Cleveland Clinic Foundation, Cleveland, Ohio 44195, USA.

出版信息

J Am Coll Cardiol. 2003 Jul 16;42(2):271-7. doi: 10.1016/s0735-1097(03)00626-0.

DOI:10.1016/s0735-1097(03)00626-0

PMID:12875763

Abstract

OBJECTIVES

This biochemical study compared the extracellular matrix of normal mitral valves and myxomatous mitral valves with either unileaflet prolapse (ULP) or bileaflet prolapse (BLP).

BACKGROUND

Myxomatous mitral valves are weaker and more extensible than normal valves, and myxomatous chordae are more mechanically compromised than leaflets. Despite histological evidence that glycosaminoglycans (GAGs) accumulate in myxomatous valves, previous biochemical analyses have not adequately examined the different GAG classes.

METHODS

Leaflets and chordae from myxomatous valves (n = 41 ULP, 31 BLP) and normal valves (n = 27) were dried, dissolved, and assayed for deoxyribonucleic acid, collagen, and total GAGs. Specific GAG classes were analyzed with selective enzyme digestions and fluorophore-assisted carbohydrate electrophoresis.

RESULTS

Biochemical changes were more pronounced in chordae than in leaflets. Myxomatous leaflets and chordae had 3% to 9% more water content and 30% to 150% higher GAG concentrations than normal. Collagen concentration was slightly elevated in the myxomatous valves. Chordae from ULP had 62% more GAGs than those from BLP, primarily from elevated levels of hyaluronan and chondroitin-6-sulfate.

CONCLUSIONS

The GAG classes elevated in the myxomatous chordae are associated with matrix microstructure and elastic fiber deficiencies and may influence the hydration-related "floppy" nature of these tissues. These abnormalities may be related to the reported mechanical weakness of myxomatous chordae. The biochemical differences between ULP and BLP confirm previous mechanical and echocardiographic distinctions.

摘要

目的

本生物化学研究比较了正常二尖瓣与单叶脱垂（ULP）或双叶脱垂（BLP）的黏液瘤样二尖瓣的细胞外基质。

背景

黏液瘤样二尖瓣比正常瓣膜更脆弱且更具延展性，黏液瘤样腱索比瓣叶在机械性能上受损更严重。尽管有组织学证据表明糖胺聚糖（GAGs）在黏液瘤样瓣膜中积聚，但先前的生物化学分析并未充分研究不同类型的GAG。

方法

对黏液瘤样瓣膜（41例ULP、31例BLP）和正常瓣膜（27例）的瓣叶和腱索进行干燥、溶解，并检测脱氧核糖核酸、胶原蛋白和总GAGs。通过选择性酶消化和荧光团辅助碳水化合物电泳分析特定的GAG类别。

结果

腱索中的生物化学变化比瓣叶中更明显。黏液瘤样瓣叶和腱索的含水量比正常情况高3%至9%，GAG浓度高30%至150%。黏液瘤样瓣膜中的胶原蛋白浓度略有升高。ULP的腱索中的GAGs比BLP的腱索多62%，主要是由于透明质酸和硫酸软骨素-6-硫酸盐水平升高。

结论

黏液瘤样腱索中升高的GAG类别与基质微观结构和弹性纤维缺陷有关，可能影响这些组织与水合相关的“松弛”性质。这些异常可能与报道的黏液瘤样腱索的机械性弱点有关。ULP和BLP之间的生物化学差异证实了先前的机械和超声心动图差异。

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黏液瘤样二尖瓣小叶和腱索的糖胺聚糖谱与机械性改变的严重程度平行。

Glycosaminoglycan profiles of myxomatous mitral leaflets and chordae parallel the severity of mechanical alterations.

作者信息

机构信息

出版信息

OBJECTIVES

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

目的

背景

方法

结果

结论

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