OBJECTIVE: To determine the water content, collagen content and collagen orientation angle in different regions of sheep lumbar discs. DESIGN: A laboratory study of sheep discs obtained from an abattoir. METHODS: A total of 21 sheep lumbar discs were obtained from three lumbar spines. Water content was determined by oven drying (60 degrees C) to constant mass. Collagen content was determined by hydroxyproline analysis. Fibre orientation angles were determined by X-ray diffraction. RESULTS: Water content increased from 74% of total tissue mass in the outer annulus, to 82% in the inner annulus, to 86% in the nucleus. Collagen content decreased from 30% of total tissue mass in the outer region to 20% in the inner region of the anterior and lateral annulus; it was 16% in the posterior annulus. The orientation angle of the collagen fibres decreased from 59 degrees in the outer region to 56 degrees in the inner region of the anterior and lateral annulus; it was 51 degrees in the posterior annulus. CONCLUSIONS: Sheep lumbar intervertebral discs provide a reasonable model for human lumbar intervertebral discs. RELEVANCE: Sheep lumbar discs have been used to investigate the effects of removing and replacing the nucleus. These studies indicate that removal of nucleus may lead to further disc degeneration and indicate the material properties required for an implant material. The relevance of these previous studies is increased if human and sheep lumbar discs have a similar composition and structure.
OBJECTIVE: To determine the water content, collagen content and collagen orientation angle in different regions of sheep lumbar discs. DESIGN: A laboratory study of sheep discs obtained from an abattoir. METHODS: A total of 21 sheep lumbar discs were obtained from three lumbar spines. Water content was determined by oven drying (60 degrees C) to constant mass. Collagen content was determined by hydroxyproline analysis. Fibre orientation angles were determined by X-ray diffraction. RESULTS:Water content increased from 74% of total tissue mass in the outer annulus, to 82% in the inner annulus, to 86% in the nucleus. Collagen content decreased from 30% of total tissue mass in the outer region to 20% in the inner region of the anterior and lateral annulus; it was 16% in the posterior annulus. The orientation angle of the collagen fibres decreased from 59 degrees in the outer region to 56 degrees in the inner region of the anterior and lateral annulus; it was 51 degrees in the posterior annulus. CONCLUSIONS:Sheep lumbar intervertebral discs provide a reasonable model for human lumbar intervertebral discs. RELEVANCE: Sheep lumbar discs have been used to investigate the effects of removing and replacing the nucleus. These studies indicate that removal of nucleus may lead to further disc degeneration and indicate the material properties required for an implant material. The relevance of these previous studies is increased if human and sheep lumbar discs have a similar composition and structure.
Authors: Kelly R Wade; Meredith L Schollum; Peter A Robertson; Ashvin Thambyah; Neil D Broom Journal: Eur Spine J Date: 2017-08-07 Impact factor: 3.134
Authors: Aaron W James; Michael Chiang; Greg Asatrian; Jia Shen; Raghav Goyal; Choon G Chung; Le Chang; Swati Shrestha; A Simon Turner; Howard B Seim; Xinli Zhang; Benjamin M Wu; Kang Ting; Chia Soo Journal: Tissue Eng Part A Date: 2016-05-25 Impact factor: 3.845