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Structure of chordae tendineae in the left ventricle of the human heart

Published online by Cambridge University Press:  01 May 1998

C. MILLINGTON-SANDERS
Affiliation:
Cellular and Integrative Biology, Division of Biomedical Sciences, Imperial College School of Medicine at St. Mary's Hospital, London, UK
A. MEIR
Affiliation:
Cellular and Integrative Biology, Division of Biomedical Sciences, Imperial College School of Medicine at St. Mary's Hospital, London, UK
L. LAWRENCE
Affiliation:
Cellular and Integrative Biology, Division of Biomedical Sciences, Imperial College School of Medicine at St. Mary's Hospital, London, UK
C. STOLINSKI
Affiliation:
Cellular and Integrative Biology, Division of Biomedical Sciences, Imperial College School of Medicine at St. Mary's Hospital, London, UK
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Abstract

The bicuspid (mitral) valve complex of the human heart consists of functional units which include the valve leaflets, chordae tendineae and the papillary muscles. The mechanical properties of these functional units depend to a large extent on the link between the muscle and the valve. This link is usually arranged in a branching network of avascular tendinous chordae composed of collagen and elastic fibres, which transmit contractions of the papillary muscle to the valve leaflets. In order to perform their function efficiently, the chordae have to possess a high degree of elasticity, as well as considerable strength and endurance. Human chordae tendineae originating from the left ventricles were obtained from 7 embalmed cadavers and 6 postmortem subjects of various ages. Samples washed in saline were fixed or postfixed in 9% formol saline. Observations were made by illuminating the chordae along their axes. The reflected images originating from the superficial collagenous layers of the relaxed chordae showed a striped pattern 11 μm in width. Scanning electron and light microscopy of the chordae confirmed an undulating pattern of collagen fibrils arranged in bundles of planar waves in register and around the entire circumference of the chorda. The dimensions of the waves correlated with those of the striped reflected pattern. The observed undulating arrangement of the collagen fibrils appears to produce an inherent built-in elasticity which is likely to be of considerable advantage for a tissue which is under continuous repetitive stress. The chordae were covered by endocardium composed of a superficial layer of smooth squamous endothelial cells and an underlying dense layer of elastic fibres. It is suggested that the relaxed striped chordae, consisting of undulating collagen fibrils, straighten when the chordae become stretched by papillary muscle contraction, thereby mitigating the peak stress developed during muscle contraction. On relaxation the elastic tissue tends to return the collagen to its wavy configuration. It is also suggested that the regular wavy pattern of collagen seen in young individuals gradually changes with age by elongation of the wave pattern which eventually becomes randomised. In addition, with increasing age, substantial cushions of connective tissue appear below endocardium while the dense collagenous core has a reduced cross-sectional area which may lead to stretching and eventual rupture of the chordae.

Type
Research Article
Copyright
© Anatomical Society of Great Britain and Ireland 1998

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