Classifications of gross morphologic and magnetic resonance images of human intervertebral discs

Thompson, J. Paul

January 1987

The pathogenesis of low back pain is complex but likely involves the intervertebral disc (Nachemson, 1976). Direct evidence for its importance is lacking because an accurate in vivo method of imaging the lumbar intervertebral disc has not been established. The objective of this research was to develop classifications of gross morphologic appearance and magnetic resonance image (MRI) of the disc that describe the changes associated with aging and degeneration, thereby permitting interpretation of the MRI in terms of gross morphology and allowing correlation of morphologic, chemical, mechanical, radiologic and epidemiologic data with a standard reference of disc aging and degeneration. The classifications were developed on the basis of literature review, detailed examination of 55 discs and expert advice. Two sets of three observers, one for the morphologic classification and one for the MRI classification evaluated 68 life size randomized duplicates of discs making detailed observations about overall category and 17 regional morphologic parameters and 11 regional MRI parameters. The data was tested to demonstrate the validity of the classifications using established criteria (Tugwell & Bombardier, 1982; Guyatt 4 Kirschner, 1985; Feinstein, 1985). The consistency with which the classifications could be applied was evaluated by calculating weighted kappa, a statistical test of agreement that corrects for agreement by chance; the ability of the classifications to distinguish stages in the process of ageing and degeneration by stepwise discriminant analysis; their conformity with other measures by comparisons within and between classifications and, comparisons with histologic and chemical data. The degree of agreement for all six intra-observer pairs was 'almost perfect' (weighted kappa > 0.80); for 5 interobserver pairs 'substantial' (weighted kappa > 0.60) and for one MRI interobserver pair 'moderate' (weighted kappa > 0.50). This represented a satisfactory level of agreement and indicated the classifications could be applied consistently (Feinstein, 1981). The linear regression model developed by stepwise discriminant analysis clearly demonstrated the ability of the classifications to distinguish distinct stages in disc aging and degeneration. Wilk's lambda, a likelihood ratio statistic reflecting discriminatory function, approached zero in both the morphologic (0.0408) and MRI (0.0H80) classifications. In both models, parameters pertaining to the nucleus pulposus of the disc accounted for the majority of the variance (morphologic partial R² 0.8598 and MRI partial R² 0.8811) suggesting nuclear parameters are the most important in distinguishing overall category. The correlation table generated by principal component analysis demonstrated that the categories assigned to regional parameters correlated significantly (p > 0.0001) with each other and with the overall category. From the linear combinations of parameters (principal components) generated the weighting of the nucleus pulposus behaved independently attesting to its importance. Comparisons of the morphologic and MRI classifications yielded high indices of trend (Pearson correlation coefficient of 0.81) and concordance (kappa of 0.62). Trends in the histologic and chemical data were consistent with the classifications but could not be evaluated statistically because only 15 specimens were studied. This research suggests that the classifications are valid and will form a basis for the interpretation of MRI. Preliminary evidence suggested MRI is sensitive to early changes in extracellular matrix composition not apparent in gross morphology. / Medicine, Faculty of / Graduate

Intervertebral Disk

Magnetic Resonance Spectroscopy

Nuclear magnetic resonance

Intervertebral disk

Genetic association studies of lumbar disc degeneration (LDD)

Kao, Yu-ping, Patrick, 高宇平

January 2010

published_or_final_version / Biochemistry / Doctoral / Doctor of Philosophy

Development of whole disc organ culture system and acellular disc scaffold for intervertebral disc engineering

Chan, Kit-ying, 陳潔瑩

January 2010

published_or_final_version / Orthopaedics and Traumatology / Doctoral / Doctor of Philosophy

Intervertebral disk prostheses.

Tissue engineering.

Fabrication of a biphasic scaffold for tissue engineering of intervertebral disc

Choy, Tsz-hang, Andrew., 蔡子鏗.

January 2012

Current treatments to intervertebral disc degeneration alter spine biomechanics and have complications. Tissue engineering offers an approach to regenerate a biological disc that provides flexibility and stability to, and integrates with the spine. To date, a scaffold that mimics the extracellular matrix composition and mechanical strength of a native disc is lacked. In this project, a biphasic scaffold was fabricated using glycosaminoglycan (GAG) and collagen, the prevalent ma-trix components in a native disc. It also adapted the structure of the disc, with la-mellae of collagen surrounding a collagen-GAG (CG) core. The first part of this project studied chemical modification of CG and evaluated the physiochemical and biological properties of modified CGs. As only loosely bound by GAG under physiological environment, collagen was modified by deamination, methylation and amination, and yielded Deaminated, Methylated and Aminated CGs upon co-precipitation with GAG. While GAG was mostly lost within 1 day in Untreated and Deaminated CGs, 20% and 40% GAG was retained after 6 days in Methylated and Aminated CGs respectively. In cell-seeded Aminated CG, over 60% GAG was retained after 8 days. Aminated CG, having the highest GAG/HYP of 4.5, best simulated the GAG-rich nucleus pulposus tissue. In ultrastructural analysis, Aminated CG consisted of abundant granular sub-stances that resembled the nucleus pulposus. Despite the differential initial number adhered to the CG scaffolds, human mesenchymal stem cells (hMSCs) had over 90% viability at all time points. Cell morphology was distinct, being round in Untreated and Methylated CGs but elongated in Deaminated and Aminated ones. The adhesion of hMSCs via collagen receptor, integrin alpha2beta1, was observed in all CG scaffolds, while adhesion via general matrix receptor, integrin alphaV, was extensive in all but Aminated CG. Based on improved GAG incor-poration and retention, which approximate the matrix composition of nucleus pulposus, Aminated CG was chosen as the core of the biphasic scaffold. The second part of this project studied lamination in biphasic disc scaffold and evaluated its mechanical properties in creep, recovery and dynamic loadings. A process was optimized to encapsulate a CG under physiological condition whilst producing an intact collagen gel, which allowed the CG to retain more GAGs and to be confined by the annulus structurally as was in the disc. This encasing approach was repeated for multiple lamellae, one lamella per day. Scaffolds with more lamellae had increased viscous compliance in creep and recovery, which was explained by the less laminated scaffolds being overloaded. Another lamination approach replaced most encasing lamellae with coiling ones. Despite low sample size, it was shown that this combined approach produced scaffolds with lower elastic and viscous compliances and longer equilibrating time in both creep and recovery, and higher complex modulus under dynamic loading. Full recovery was not achieved by any scaffold. This study demonstrated that a biphasic disc scaffold, made of GAG and collagen, contained similar matrix components to native disc, was almost mechanically comparable to the disc, and was cyto-compatible. It paved way towards tissue engineering of intervertebral disc and the intervertebral disc motion segment. / published_or_final_version / Mechanical Engineering / Doctoral / Doctor of Philosophy

Tissue scaffolds.

Intervertebral disk - Regeneration.

Lumbar endplate and modic changes, epidemiology, determinants and pain profiles in southern Chinese

Mok, Pik-sze, 莫碧詩

January 2014

Intervertebral disc(IVD) degeneration is associated with low back pain (LBP).Despite the endplates are located adjacent to the IVD, the phenotypes of endplate and vertebral bone marrow changes remain unclear. The objective of this study is to assess the prevalence and the associated determinants of these phenotypes of the lumbar spine. 2449 Southern Chinese subjects (aged 10 –88 years) undergone sagittal T2-weighted magnetic resonance imaging (MRI)examination to assess the presence of endplate and vertebral bone marrow changes including Schmorl’s nodes (SN) and Modic changes (MC),respectively, and scored for additional radiographic features over the lumbar spine. Subjects’ demographics, clinical profile, and functional status were assessed by means of standardized questionnaires. Anovel6-domain SN morphological classification based on MRI was developed to further analyze the characteristics of SN and its association with disc degeneration (DD). The prevalence of SN was 16.4%. Males, taller and heavier individuals had a significantly increased likelihood of SN. Overall presence of SN was age-independent, but was significantly associated with DD, and linearly correlated with increase in severity of DD. SN were particularly associated with severe DD at the upper two lumbar levels (L1/2 – L2/3). Based on the SN classification system, specific SN characteristics and endplate linkage patterns were found. Of these, two SN types were identified:“Typical SN” and “Atypical SN”. “Typical SN” were those smaller size SN with various shapes that were frequently located at caudal endplates of L1/2–L3/4disc levels. One variant of “Atypical SN” were those rectangular shape SN, which predominantly located at the posterior region of the rostral endplates of L1/2–L2/3disc levels. The other variant of “Atypical SN” was larger size SN with irregular shape that frequently presented at the L4/5endplates, they were also likely to be associated with marrow changes. Despite “Atypical SN” only entailed 8.3% of all identified SN, they were associated with increased severity of DD than “Typical SN”. Although the overall prevalence of MC among Southern Chinese was low (5.8%), after adjustments for other confounding factors, the presence of MC was associated with the presence and severity of LBP. Interestingly, the determinants of MC at upper (L1/2 – L3/4) and lower (L4/5 – L5/S1) lumbar showed distinct difference. The presence of MC at upper lumbar levels was only associated with the disc integrity only (i.e. the presence of disc displacement, and DD score), while the presence of MC at the lower levels, apart from the disc integrity, was also associated with increasing age, the presence of SN, smoking and obesity status. This study is the largest MRI study assessing the phenotypes of endplate and vertebral bone marrow changes in-vivo. The prevalence and distribution of SN and MC vary throughout the lumbar spine, and there are level and region-specific variations regarding these phenotypes. Determinants of SN and MC may be similar but do vary, suggesting distinct etiological factors. Findings of this study broaden the understanding of the various phenotypes of the lumbar spine and its association with DD. / published_or_final_version / Orthopaedics and Traumatology / Doctoral / Doctor of Philosophy

Lumbar vertebrae

Intervertebral disk - Diseases

Critical evaluation of predictive modelling of a cervical disc design /

De Jongh, Cornel

January 2007

Thesis (MScIng)--University of Stellenbosch, 2007. / Bibliography. Also available via the Internet.

Intervertebral disc regeneration by use of autologous mesenchymal stemcells

Ho, Grace., 何秀慧.

January 2005

published_or_final_version / abstract / Orthopaedics and Traumatology / Master / Master of Philosophy

Stem cells.

Mechanical behavior of the human lumbar intervertebral disc with polymeric hydrogel nucleus implant : an experimental and finite element study /

Joshi, Abhijeet Bhaskar.

January 2004

Thesis (Ph. D.)--Drexel University, 2004. / Includes abstract and vita. Includes bibliographical references (leaves 168-182).

Genetic study of lumber disc degeneration

Ho, Wai-hung, Daniel, 何偉雄

January 2009

published_or_final_version / Biochemistry / Doctoral / Doctor of Philosophy

Backache.

Ultrashort time-to-echo MRI of the cartilaginous endplate and relationship to disc degeneration and Schmorl's nodes, andretrospective study of paediatric spines and the neurocentralsynchondrosis

Law, Tsz-kwun., 羅子冠.

January 2011

Background: An association between cartilaginous endplate (CEP) defects and intervertebral disc (IVD) degeneration has been previously suggested in animal and cadaveric studies. CEP defects may also be involved in Schmorl’s nodes (SN). There have been no previous reports in the literature that describe the use of ultrashort time-to-echo (UTE) MRI to assess the CEP in humans in vivo. In chapter 5 of this thesis, a retrospective study of paediatric spines and the neurocentral synchondrosis (NCS) was singled out to report the incidence of NCS and to raise the hypothesis of NCS as a precursor of SN. Purpose: To assess the feasibility of detecting CEP defects in live humans using UTE MRI, and to assess their relationship with IVD degeneration and SN. Subjects and Methods: A total number of 22 subjects underwent T2-weighted (T2W) and UTE MRI to assess for the presence and severity of IVD degeneration, the presence of SN and for the presence of CEP defects. SN and IVD degeneration were confirmed by assessing T2W images and IVD degeneration was graded according to the Schneiderman classification. CEP defects were defined as discontinuity of high signal over 4 consecutive images and were independently assessed by two raters. Results: Analyses of CEP defects between IVD degeneration and SN were performed separately. For the study of CEP defects and IVD degeneration, subjects with SN were excluded. 37 out of 108 (34.3%) CEPs had defects, which mainly occurred at T12/L1, L1/L2 and L4/L5 (p=0.008). Inter-rater reliability was substantial (Kappa statistic= 0.67, p<0.001). Multivariate logistic regression revealed that lower BMI (p=0.009) and younger (p=0.034) individuals had a decreased likelihood of having CEP defects. A statistically significant association was found to exist between the presence of cartilaginous endplate defects and intervertebral disc degeneration (p=0.036). Degenerated discs with CEP defects were found in L4/5 and L5/S1, while degenerated discs with no CEP defects were found throughout the whole lumbar region. Mean degeneration scores of L4/5 and L5/S1 levels with CEP defects were higher than that of L4/5 and L5/S1 levels without. For the study of CEP defects and SN, with all 22 subjects assessed, 125 out of 264 (47.3%) CEPs had defects. 40 SN were found, and among those, 35 SN had CEP defects (87.5%). 125 CEPs had the presence of CEP defects; among them, a large number of CEP defects did not have SN underneath (92 out of 125, 73.2%). Conclusion: The studies demonstrate the feasibility of using UTE MRI in live humans to assess the integrity of the CEP. Longitudinal studies may reveal the diagnosis of CEP defects to be clinically beneficial for assessment of IVD degeneration and SN. / published_or_final_version / Diagnostic Radiology / Master / Master of Philosophy