Depth-dependent changes in collagen organization in the human peripapillary sclera

The collagen structure of the human peripapillary sclera plays a significant role in determining optic nerve head (ONH) biomechanics, and is therefore of interest in the study of glaucoma. The aim of the current work was to map the anisotropic collagen structure of the normal human peripapillary scl...

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Bibliographic Details
Published in:PloS one 2015-02, Vol.10 (2), p.e0118648-e0118648
Main Authors: Pijanka, Jacek K, Spang, Martin T, Sorensen, Thomas, Liu, Jun, Nguyen, Thao D, Quigley, Harry A, Boote, Craig
Format: Article
Language:English
Subjects:
Age
Aged
Alignment
Anisotropy
Biomechanical Phenomena
Biomechanics
Biophysics
Collagen
Collagen - metabolism
Cornea
Ethics
Fibrils
Glaucoma
Humans
Microscopy
Middle Aged
Models, Biological
Optic Disk - metabolism
Optic Disk - physiopathology
Optic nerve
Optometry
Sclera - metabolism
Stroma
X-ray scattering
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Summary:The collagen structure of the human peripapillary sclera plays a significant role in determining optic nerve head (ONH) biomechanics, and is therefore of interest in the study of glaucoma. The aim of the current work was to map the anisotropic collagen structure of the normal human peripapillary sclera as a function of tissue depth. Wide-angle x-ray scattering was used to quantify collagen fibril orientation at 0.5 mm intervals across six 150 μm-thick serial sections through the peripapillary sclera of eight normal European-derived human eyes. Two structural parameters were measured: 1) the relative number of fibrils preferentially aligned at a given angle within the tissue plane, 2) the degree of collagen alignment (anisotropy). The inner-most one-third of the peripapillary scleral stroma (nearest to the choroid) was characterised by collagen fibrils either randomly arranged or preferentially aligned radially with respect to the ONH. In contrast, the outer two-thirds of the tissue was dominated by a circumferential arrangement of collagen encircling the ONH. In all tissue regions the degree of collagen anisotropy peaked in the mid-stroma and progressively decreased towards the tissue surfaces, with the largest depth variations occurring in the inferior-nasal quadrant, and the smallest occurring in the superior-nasal quadrant. Significant, region-specific variations in collagen structure are present in the human peripapillary sclera as a function of depth. In normal eyes, the circumferential collagen fibril architecture is most prominent in the outer two-thirds of the stroma, possibly as a mechanical adaption to more effectively support the lamina cribrosa at the level of its insertion into the scleral canal wall.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0118648