Introduction. Given the predominant functional role which aggrecan has in the intervertebral disc, particularly within the nucleus pulposus, it is necessary to evaluate the quality of aggrecan produced by cells within tissue engineered disc constructs. The aim here was to characterise the nanostructure of aggrecan synthesised by nucleus pulposus cells treated with growth differentiation factor [GDF]-6) seeded in hydrogels in comparison to aggrecan isolated from healthy disc. Methods. Aggrecan was isolated from bovine nucleus pulposus (NP) tissue (n=3 [<18 months old]) and primary bovine NP cells cultured with (+GDF6) or without GDF6 (−GDF6) for 28 days (n=2) in type I collagen hydrogels. Isolated aggrecan monomers were visualised by atomic force microscopy and categorised as either intact (globular domains visible at both the N and C termini) or non-intact. Core protein contour length (L. CP. ) was calculated for intact molecules. The proportion of non-intact/fragmented to intact aggrecan and the molecular area of all monomers was determined. Results. Very few aggrecan molecules were intact (1.3% in NP compared to 4.3% +GDF6 and 0% -GDF6). There was no significant difference in the mean L. CP. between NP (389 ± 37 nm) compared to +GDF6 (379.2 ± 26 nm) or the molecular area between NP (3560 ± 2179 nm. 2. ) and –GDF6 (3586 ± 2071 nm. 2. ). However, the molecular area in both cases was significantly lower than +GDF6 (4774 ± 3715 nm. 2. ) p≤0.0001. Discussion & conclusions. Aggrecan structure can be altered by culture conditions. GDF6 treatment promoted the synthesis of more intact monomers, with greater over all molecular area. Conflicts of interest: None. Funding: Impact Research Scholarship and the Presidents Doctoral Scholarship, provided by the University of Manchester

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This study aimed, through bioinformatics analysis and in vitro experiment validation, to identify the key extracellular proteins of intervertebral disc degeneration (IDD).

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In this investigation, we administered oxidative stress to nucleus pulposus cells (NPCs), recognized DNA-damage-inducible transcript 4 (DDIT4) as a component in intervertebral disc degeneration (IVDD), and devised a hydrogel capable of conveying small interfering RNA (siRNA) to IVDD.

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CRP is an acute-phase protein that is used as a biomarker to follow severity and progression in infectious and inflammatory diseases. Its pathophysiological mechanisms of action are still poorly defined. CRP in its pentameric form exhibits weak anti-inflammatory activity. The monomeric isoform (mCRP) exerts potent proinflammatory properties in chondrocytes, endothelial cells, and leucocytes. No data exist regarding mCRP effects in human intervertebral disc (IVD) cells. This work aimed to verify the pathophysiological relevance of mCRP in the aetiology and/or progression of IVD degeneration.

Aims. To evaluate the incidence of primary venous thromboembolism (VTE), epidural haematoma, surgical site infection (SSI), and 90-day mortality after elective spinal surgery, and the effect of two protocols for prophylaxis. Patients and Methods. A total of 2181 adults underwent 2366 elective spinal procedures between January 2007 and January 2012. All patients wore anti-embolic stockings, mobilised early and were kept adequately hydrated. In addition, 29% (689) of these were given low molecular weight heparin (LMWH) while in hospital. SSI surveillance was undertaken using the Centers for Disease Control and Prevention criteria. Results. In patients who only received mechanical prophylaxis, the incidence of VTE was 0.59% and that of SSI 2.1%. In patients who were additionally given LMWH, the incidence of VTE was 0% and that of SSI 0.7%. The unadjusted p-value was 0.04 for VTE and 0.01 for SSI. There were no cases of epidural haematoma or 90-day mortality in either group. When adjusted for case-mix, LMWH remained a significant factor (p = 0.006) for VTE, but not for SSI. Conclusion. A peri-operative protocol involving mechanical anti-embolism stockings, adequate hydration, and early post-operative mobilisation is effective in significantly reducing the incidence of VTE. The addition of LMWH is safe in patients at higher risk of developing VTE. Cite this article: Bone Joint J 2017;99-B:1204–9

Study purpose and background. Novel regenerative therapies have the potential to restore function and relieve pain in patients with low back pain (LBP) caused by intervertebral disc (IVD) degeneration. We have previously shown that stimulation of adipose-derived stem cells (ASCs) with growth differentiation factor-6 (GDF6) promotes differentiation into nucleus pulposus (NP) cells of the IVD, which have potential for IVD regeneration. We have also shown that GDF6 stimulation activates the Smad1/5/8 and ERK1/2 signalling cascades. The aim of this study was to progress our understanding of the immediate/early response mechanisms in ASCs (N=3) which may direct GDF6-induced differentiation. Methods and results. RNAseq was used to perform transcriptome-wide analysis across a 12-hour time course, post-stimulation. Gene ontology analysis revealed greater transcription factor and biological processes activity at 2hrs than at the 6hr and 12hr time points, where molecular and cellular activities appeared to stabilise. Interestingly, a number of lineage determining genes were identified as differentially expressed and work is ongoing to investigate whether the early response genes are maintained throughout differentiation, or whether they are responsible for early NP lineage commitment. Conclusion. This study is the first transcriptome-wide analysis on GDF6-mediated stimulation of ASCs, elucidating important early response mechanisms involved in directing appropriate differentiation. Identification of additional key markers and signalling pathways of differentiation will allow improved selection of ASCs for IVD regeneration. ‘No conflicts of interest’. Funding sources: NIHR Manchester Biomedical Research Centre and The RoseTrees Trust

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This study was performed to explore the effect of melatonin on pyroptosis in nucleus pulposus cells (NPCs) and the underlying mechanism of that effect.

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Lumbar spinal stenosis (LSS) is a common skeletal system disease that has been partly attributed to genetic variation. However, the correlation between genetic variation and pathological changes in LSS is insufficient, and it is difficult to provide a reference for the early diagnosis and treatment of the disease.

Background. Patients with Neck and/or Low Back Pain (NLBP) constitute a heterogeneous group with the prognosis and precise mix of factors involved varying substantially between individuals. This means that a one-size-fits-all approach is not recommended, but methods to tailor treatment to the individual needs are still relatively under-developed. Moreover, the fragmentation of disciplines involved in its study hampers achieving sound answers to clinical questions. Data mining techniques open new horizons by combining data from existing datasets, in order to select the best treatment at each moment in time to a patient based on the individual characteristics. Method. Within the Back-UP project (H2020 #777090) a multidisciplinary consortium is creating a prognostic model to support more effective and efficient management of NLBP, based on the digital representation of multidimensional clinical information. Patient-specific models provide a personalized evaluation of the patient case, using multidimensional health data from the following sources: (1) psychological, behavioral, and socioeconomic factors, (2) biological patient characteristics, including musculoskeletal structures and function, and molecular data, (3) workplace and lifestyle risk factors. Conclusion. The Back-UP system leverages shared-decision making, not only by enabling interoperability between all professionals involved in the care trajectory, but also empowering the patient in the decisions related to his/her care path. Furthermore, dynamic intervention models ensure that the patient receives the most beneficial treatment at each moment in time, considering the current position of the patient in the care path (i.e. within clinical rehabilitation, in return-to-work process or through motivational strategies supporting self-management in daily life). No conflicts of interest. Sources of funding: This project has received funding from the European Union Horizon 2020 research and innovation programme under grant agreement No 777090

Introduction. Idiopathic scoliosis (IS) has been associated with several genetic loci in varying study populations, reflecting the disorder's genetic complexity. One region of interest is on chromosome 17, flanking regions linked to neurofibromatosis type 1 (NF1). This region is of particular relevance because the most common osseous manifestation in NF1 is scoliosis (10–30% of patients). This alludes to a potential genetic correlation within this region affecting spinal development or stability. The objective of this research is to identify candidate genes within this region that are statistically linked to IS. Methods. An initial population of IS families recruited through approval by the institutional review board (202 families; 1198 individuals) had DNA harvested from blood, and underwent genomic screening, finemapping, and statistical analyses. We identified a specific familial subset: families with males having undergone surgery for scoliosis (17 families, 147 individuals). The initial genome-wide scan indicated that this subset was linked to chromosome 17q.11.2. The most prominent marker, D17s975, (p=0·0003) at 25.12 Mb is adjacent to the NF1 deletional region. We then analysed a custom panel of single-nucleotide polymorphisms (SNPs) extending from 18·30–31·47 Mb for linkage through Taqman SNP assay protocol. With allele specific fluorescent tags, allelic discrimination was done with real-time PCR. Results. Findings show two regions with two or more contiguous SNPs of significance (p<0·05), confirming significant linkage adjacent to the NF1 locus (table). The most significant results lie within the serotonin transporter gene SLC6A4, whose product is a modulator of serotonin (5-HT) activity. Conclusions. IS is a disorder of variable phenotypic expression that has been related to several regions on the genome. Although NF1 has been definitively associated with a region on chromosome 17, the phenotypic expression is not understood at the molecular level. The elucidation of shared genetic variations within this region by two disorders marked by scoliosis has significance for the molecular understanding of the pathogenesis of scoliosis and axial development. The specific gene, SLC6A4, is of particular interest in that as a modulator of serotonin transport, bone mineral content, density, and mechanical strength can be altered. Both NF1 and IS in some patients have been associated with decreased bone mineral density. Future work will focus on replication of these findings and targeted genetic sequencing

Introduction. At the Zorab Symposium in Oxford, 2006, we showed that semicircular canal (SCC) anomalies occurring with posterior basicranium asymmetry affect the oculovestibular system in human beings. As a consequence, we proposed the hypothesis of a descending direct vestibulospinal and cognitive top-down effect on some scoliosis. We will show that some SCC anomalies detected with MRI modelling are malformations frequently found in scoliosis. Methods. 445 patients (323 women, mean age 21 years; 122 men, mean age 24 years) with instability, imbalance, and spatial disorientation were submitted to T2 MRI modelling. 95 of 445 patients had scoliosis: 57 thoracolumbar scoliosis, 24 thoracic scoliosis, and 14 lumbar deformation. We processed the data acquired with G.E.MRI (1.5T), T2- 3D Fiesta with a set of Brainvisa modules (http://brainvisa.info/). Results. We detected abnormal connection between the lymphatic posterior and lateral duct (LPDC) in 67 of 445 (15%) patients. The frequency of LPDC was equal in men (18/122 [14·7%]) and women (nine of 323 [15·1%]). In patients with scoliosis, LPDC was more frequent (29/95 [30·5%]): these patients belonged to the thoracolumbar subgroup, but no correlation with the Cobb angle was established. Three patients with scoliosis with LPDC were submitted to threedimensional CT scan (figure 1): the modelling revealed that LPDC was also present on the bony canals. Aplasia (defined by Casselman [2009] as a partial interruption of the fluid-filled semicircular ducts) on lateral duct was detected in 129 of 445 patients (28·9%). In patients with scoliosis, lateral canal aplasia (LCA) was recorded in 40 of 95 (42·0%) patients (figure 2) and bilaterally in 25 of 40 (62·5%). LCA was specific of thoracolumbar scoliosis (Mann-Whitney U test: p=0·002). Aplasia of anterior and/or posterior ducts was present in 97 of 445 patients. In patients with scoliosis, bilateral aplasia of the anterior canal was the most frequent result (24/95), mainly in thoracolumbar scoliosis. We also discovered a lateral duct shaped as a saccule partially merged with the utricle in four patients with scoliosis (figure 3). Conclusions. Lateral SCC malformations and highly suspected associated malformations of the otolithic chambers have been implicated in abnormal descending vestibulospinal output and potentially cause scoliosis in otherwise healthy individuals. In this study, through cross checked modelling (MRI/CT), LPDC abnormalities related to the ossification of the inner-ear canal structure were noted in a subgroup of individuals with a diagnosis of idiopathic scoliosis. A co-development of inner-ear structures with the molecular pathways of axial development is suggestive of an integrated molecular pathway that is related to individuals with idiopathic scoliosis

Non-tuberculous mycobacterial infections pose a significant diagnostic and therapeutic challenge. We report two cases of such infection of the spine in HIV-negative patients who presented with deformity and neurological deficit. The histopathological features in both specimens were diagnostic of tuberculosis. The isolates were identified as Mycobacterium intracellulare and M. fortuitum by genotyping (MicroSeq 16S rDNA Full Gene assay) and as M. tuberculosis and a mycobacterium other than tuberculosis, respectively, by culture. There is a growing need for molecular diagnostic tools that can differentiate accurately between M. tuberculosis and atypical mycobacteria, especially in regions of the developing world which are experiencing an increase in non-tuberculous mycobacterial infections

Introduction. From the many human studies that attempt to identify genes for adolescent idiopathic scoliosis (AIS), the view emerging is that AIS is a complex genetic disorder with many predisposing genes exhibiting complex phenotypes through environmental interactions. Although advancements in genomic technology are transforming how we undertake genetic and genomic studies, only some success has been reached in deciphering complex diseases such as AIS. Moreover, the present challenge in AIS research is to understand the causative and correlative effects of discovered genetic perturbations. An important limitation to such investigations has been the absence of a method that can easily stratify patients with AIS. To overcome these challenges, we have developed a functional test that allows us to stratify patients with AIS into three functional subgroups, representing specific endophenotypes. Interestingly, in families with multiple cases of AIS, a specific endophenotype is shared among the affected family members, indicating that such a transmission is inherited. Moreover, increased vulnerability to AIS could be attributable to sustained exposure to osteopontin (OPN), a multifunctional cytokine that appears to be at the origin of the Gi-coupled receptor signalling dysfunction discovered in AIS. We examined the molecular expression profiles of patients with AIS and their response to OPN. Methods. Osteoblasts isolated from patients with AIS were selected for each functional subgroup and compared with osteoblasts obtained from healthy matched controls. We used the latest gene chip human genome array Affymetrix (HuU133 Plus 2.0 array) that allows for the analysis of the expression level of 38 000 well characterised human genes. Raw data were normalised with robust multiarray analysis method. Statistical analysis was done by the EB method with FlexArray software. Selection criteria for in-depth analysis include the magnitude of change in expression (at least □} 3-fold) and 5% false discovery rate as stringency selection. Validation of selected candidate genes was done by qPCR and at the protein level by Western blot and ELISA methods. Plasma OPN concentrations were measured by ELISA on a group of 683 consecutive patients with AIS and were compared with 262 healthy controls and 178 asymptomatic offspring, born from at least one scoliotic parent, and thus considered at risk of developing the disorder. The regulation of OPN signalling pathway in normal and AIS cells were validated in vitro by cellular dielectric spectroscopy (CDS). Results. Of 38 000 human genes tested, we have found eight genes specifically associated with the functional subgroup 1, 16 genes with the functional subgroup 2, and 11 genes with the functional subgroup 3. Interestingly, only 19 genes were shared and affected to the same extent in all AIS functional subgroups exhibiting a similar curve pattern (double major), suggesting their role in the formation of this curve pattern. Indeed, most of these genes encode for regulatory proteins such as transcription factors regulating axial skeleton, somite development, and extracellular matrix proteins. Mean plasma OPN concentrations were significantly increased in patients with AIS and correlated with disease severity. Increased plasma OPN concentrations were also detected in the asymptomatic at-risk group, suggesting that these changes precede scoliosis onset. CDS experiments clearly showed that OPN exposure triggers a Gi-coupled receptor signalling dysfunction, which is exacerbated by oestrogens. Conclusions. Our data further support our functional method of stratification of patients with AIS and allow the identification of genes triggering scoliosis onset versus those predisposing to the development of a specific curve pattern. Furthermore, our clinical and experimental data show that OPN is essential for scoliosis onset and curve progression, thus offering a first molecular concept to explain the pathomechanism leading to the asymmetrical growth of the spine in AIS. Acknowledgments. This research project was supported by grants from La Fondation Yves Cotrel de l'Institut de France, Canadian Institutes of Health Research, and Paradigm Spine LLC

The lack of an accurate, rapid diagnostic test for mycobacterium tuberculosis (TB) is a major handicap in the management of spinal TB. GeneXpert, a new, rapid molecular diagnostic test is recommended as the first line investigation for suspected pulmonary TB in areas with a high prevalence of HIV or drug resistance, yet it has not been validated for the diagnosis of musculoskeletal TB. The aim of this study was to assess the accuracy of GeneXpert in diagnosing spinal TB. A prospective clinical study of 69 consecutive adults with suspected spinal TB was conducted at a tertiary hospital in an area with the highest incidence and prevalence of TB in the world. GeneXpert was used on tissue samples of the enrolled patients and its diagnostic accuracy compared with a reference standard of tissue in liquid culture. A total of 71 spine samples from 69 patients (two re-biopsies) were included in the study. The GeneXpert test showed a sensitivity of 95.6% and specificity of 96.2% for spinal TB. The results of the GeneXpert test were available within 48 hours compared with a median of 35 days (IQR 15 to 43) for cultures. All cases of multi-drug resistant TB (MDR TB) were diagnosed accurately with the GeneXpert test. The MDR TB rate was 5.8%. Cite this article: Bone Joint J 2014;96-B:1366–9

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Non-coding microRNA (miRNA) in extracellular vesicles (EVs) derived from mesenchymal stem cells (MSCs) may promote neuronal repair after spinal cord injury (SCI). In this paper we report on the effects of MSC-EV-microRNA-381 (miR-381) in a rodent model of SCI.

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The aim of this study was to determine the differences in spinal imaging characteristics between subjects with or without lumbar developmental spinal stenosis (DSS) in a population-based cohort.

Introduction. Adolescent idiopathic scoliosis (AIS) is the most common form of spinal deformity. It occurs mainly in girls and progresses during pre-pubertal and pubertal growth, which is a crucial period for bone mass acquisition. The cause and molecular mechanisms of AIS are not clear; at present the consensus is that AIS has a multifactor cause, with many genetic factors. During the past 5 years, considerable effort has been devoted to identify a gene or genes that cause a predisposition to AIS. Many loci for this disorder have been mapped to different chromosome regions, but no genes have been clearly identified as being responsible for AIS, and, most importantly, the resulting protein defects remain to be shown. We aimed to identify the gene(s) that could be involved in AIS and to validate their involvement by both genetic and functional analyses. Methods. A large multiplex AIS French family was chosen for this study on the basis of clinical and radiological data. Whole genome genotyping of the 20 members of this family led to the mapping of a dominant disease-causing gene to two critical genomic intervals (Edery and colleagues, Eur J Hum Genet, accepted [2011]), but the causative mutation remains to be identified. In parallel, gene expression profiling was investigated by microarray analysis in RNA samples isolated from osteoblasts derived from healthy individuals and those with AIS. RNA samples were extracted from osteoblasts, purified, fluorescently labelled, and then hybridised to gene expression microarrays with the Illumina expression BeadChips technology containing more than 46 000 probes for the human genome (HumanHT-12). Data analysis in R version 2.10.1 (Bioconductor packages oligo and limma) was done, and genes that had at least 1·5-fold change in expression were considered differentially regulated relative to controls. AIS candidate genes within the critical intervals were selected on the basis of their mRNA expression in AIS individuals and by their known functions. The coding regions of these candidate genes were then sequenced to identify potential mutations. The biological activity of mutant proteins is under evaluation by in-vivo functional studies in zebrafish. Results. In the AIS family, a maximum LOD score of 3·01 was reached on two specific chromosomal regions. The interval lengths of these regions were 7cM and 12cM. These two regions contain several genes that might be responsible for AIS. Microarray analysis showed many genes that are differentially regulated in AIS osteoblasts compared with control osteoblasts. We recorded that 2·6% of the 24000 genes examined were upregulated in AIS osteoblasts, whereas 2·16% of them were downregulated. We observed a roughly 3-fold increase or decrease in the transcripts of many genes in AIS osteoblasts. Some of the differentially regulated genes are located within the two chromosomal candidate regions. The sequencing of the candidate genes' coding sequences was done on the family members. Sequence analysis showed two rare SNPs located on the coding regions of a gene that we called CH5G1. These two SNPs are located on the C-terminal region of the CH5G1 protein and affect its structure and probably its cellular activity and biological process leading to the disease. The C-terminal region of this protein interacts with the mRNA of a gene whose defects cause scoliosis as a secondary phenotype. The pathogenic nature of these SNPs is being investigated in the zebrafish model. The results suggest that CH5G1 gene's defects could be associated with AIS in this family. Conclusions. Identification of susceptibility genes for AIS will facilitate the understanding of underlying biochemical pathways (functional studies) and ultimately the development of specific therapies (pharmacological studies). This is likely to have important implications, since the cause of AIS is unknown. Acknowledgments. This study is supported by the Fondation Yves Cotrel, Institut de France

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The aim of this study was to determine whether the sequential application of povidone iodine-alcohol (PVI) followed by chlorhexidine gluconate-alcohol (CHG) would reduce surgical wound contamination to a greater extent than PVI applied twice in patients undergoing spinal surgery.

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Pulsed electromagnetic field (PEMF) stimulation was evaluated after anterior cervical discectomy and fusion (ACDF) procedures in a randomized, controlled clinical study performed for United States Food and Drug Administration (FDA) approval. PEMF significantly increased fusion rates at six months, but 12-month fusion outcomes for subjects at elevated risk for pseudoarthrosis were not thoroughly reported. The objective of the current study was to evaluate the effect of PEMF treatment on subjects at increased risk for pseudoarthrosis after ACDF procedures.

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The aim of this study was to evaluate the time course of changes in parameters of diffusion tensor imaging (DTI) such as fractional anisotropy (FA) and apparent diffusion coefficient (ADC) in patients with symptomatic lumbar disc herniation. We also investigated the correlation between the severity of neurological symptoms and these parameters.