Biologic Treatment of Mild and Moderate Intervertebral Disc Degeneration

Disc degeneration is the most common cause of back pain in adults and has enormous socioeconomic implications. Conservative management is ineffective in most cases, and results of surgical treatment have not yet reached desirable standards. Biologic treatment options are an alternative to the above conventional management and have become very attractive in recent years. The present review highlights the currently available biologic treatment options in mild and moderate disc degeneration, where a potential for regeneration still exists. Biologic treatment options include protein-based and cell-based therapies. Protein-based therapies involve administration of biologic factors into the intervertebral disc to enhance matrix synthesis, delay degeneration or impede inflammation. These factors can be delivered by an intradiscal injection, alone or in combination with cells or tissue scaffolds and by gene therapy. Cell-based therapies comprise treatment strategies that aim to either replace necrotic or apoptotic cells, or minimize cell death. Cell-based therapies are more appropriate in moderate stages of degenerated disc disease, when cell population is diminished; therefore, the effect of administration of growth factors would be insufficient. Although clinical application of biologic treatments is far from being an everyday practice, the existing studies demonstrate promising results that will allow the future design of more sophisticated methods of biologic intervention to treat intervertebral disc degeneration.     

细胞衰老与椎间盘退变的相关性研究进展

椎间盘退变(intervertebral disc degeneration,IDD)是导致下腰痛的主要原因之一,严重降低患者生活质量,并给家庭带来沉重的经济负担.细胞衰老是驱动IDD的关键因素,而炎症反应、氧化应激、线粒体功能障碍、端粒缩短、DNA损伤、营养剥夺、机械负荷异常和表观遗传学改变介导了椎间盘细胞的衰老进程...     

氧化应激介导的NF-kB 信号转导通路在椎间盘退变中的作用

椎间盘位于两个椎体之间,在脊柱中发挥着连接、减震和固定作用,其发生退变可以引起一系列椎间盘退变性疾病,是多数 脊柱疾病发病的根本原因,探索椎间盘的退变机制是寻找其治疗措施的前提。椎间盘退变机制十分复杂,其最主要的病理基础是 椎间盘活性细胞减少以及其引起的细胞外基质合成减少和成分的改变,而NF-kB 作为一种普遍存在在真核细胞中的多向性转录 因子,通过多种途径在细胞增殖、分化及凋亡方面起着关键的作用,研究表明,抑制NF-kB信号通路可以有效的缓解椎间盘退变; 而引起NF-kB信号通路的异常激活的因素很多,其中氧化应激是一个重要的因素,同时研究证实在椎间盘退变中存在着氧化损 伤。因此,当年龄、营养、外伤等因素引起的椎间盘细胞中发生氧化应激,进而导致NF-资B信号通路的激活,从而使其转录活性增 高,触发凋亡信号,引起髓核细胞的大量凋亡,使其参与到椎间盘退变中。     

Effects of Tobacco Smoking on the Degeneration of the Intervertebral Disc: A Finite Element Study

Tobacco smoking is associated with numerous pathological conditions. Compelling experimental evidence associates smoking to the degeneration of the intervertebral disc (IVD). In particular, it has been shown that nicotine down-regulates both the proliferation rate and glycosaminoglycan (GAG) biosynthesis of disc cells. Moreover, tobacco smoking causes the constriction of the vascular network surrounding the IVD, thus reducing the exchange of nutrients and anabolic agents from the blood vessels to the disc. It has been hypothesized that both nicotine presence in the IVD and the reduced solute exchange are responsible for the degeneration of the disc due to tobacco smoking, but their effects on tissue homeostasis have never been quantified. In this study, a previously presented computational model describing the homeostasis of the IVD was deployed to investigate the effects of impaired solute supply and nicotine-mediated down-regulation of cell proliferation and biosynthetic activity on the health of the disc. We found that the nicotine-mediated down-regulation of cell anabolism mostly affected the GAG concentration at the cartilage endplate, reducing it up to 65% of the value attained in normal physiological conditions. In contrast, the reduction of solutes exchange between blood vessels and disc tissue mostly affected the nucleus pulposus, whose cell density and GAG levels were reduced up to 50% of their normal physiological levels. The effectiveness of quitting smoking on the regeneration of a degenerated IVD was also investigated, and showed to have limited benefit on the health of the disc. A cell-based therapy in conjunction with smoke cessation provided significant improvements in disc health, suggesting that, besides quitting smoking, additional treatments should be implemented in the attempt to recover the health of an IVD degenerated by tobacco smoking.     

The Nucleus of the Intervertebral Disc from Development to Degeneration

The nucleus of the intervertebral disc in humans shows the mostdramatic changes with age of any cartilaginous tissue. It originatesfrom the notochord. In the foetus and infant, the nucleus containsactively dividing and biosynthetically active notochordal cells.The proteoglycans and other matrix components produced havea high osmotic pressure, imbibe water and maintain a hydratedstructure which, though it has little mechanical strength, hasa high swelling pressure which maintains disc turgor. In somespecies, the notochordal cells and the mucoid nucleus pulposuspersist throughout adult life. However by about 4 yr of agein humans, the notochordal cells have disappeared to be replacedby those of chondrocytic appearance but of unknown origin. Thesecells continue to produce proteoglycans but also synthesizesignificant amounts of collagen. The nucleus becomes firmerand less hydrated and loses its transparent appearance. Thecell density of the adult nucleus is very low with cells occupyingless than 0.5% of tissue volume; each cell thus has to turnover and maintain a large domain of extracellular matrix. Thedensity of living cells decreases with age, possibly becauseof problems with nutrient supply to this large avascular tissue.Proteoglycan concentration also falls, and nucleus hydrationdecreases markedly, the disc discolours and in many cases cleftsand fissures form. In most adults, the disc nucleus degenerateseventually to a stage where it can no longer fulfil its mechanicalrole.     

Vitamin D Receptor (VDR) Genetic Polymorphisms Associated with Intervertebral Disc Degeneration

<正>Intervertebral disc degeneration(IDD)is characterized by disc dehydration and herniation,which is often associated with low back pain and lumbar radiculopathy due to nerve root compression or inflammation.The pathophysiology of IDD is not completely elucidated so far.Some researchers have indicated that disc degeneration begins as early as the second decade of life(Mayer et al.,2013).Common risk factors are     

几种椎间盘退变动物模型的建立和应用

椎间盘退变是一种年龄相关的退行性疾病,是引起下腰痛的主要因素,严重影响病人的生活质量,并显著增加家庭的经济负担。目前,缺少椎间盘退变的有效干预和治疗手段,部分原因是其发病机制尚未阐明。椎间盘退变动物模型的构建对于阐明该疾病的病理机制至关重要。椎间盘退变是一个复杂的过程,受机械应力、结构损伤、生物化学与基因表达等多种因素的影响。本文总结了应用异常机械应力、结构损伤、生物化学或化学诱导和基因敲除等方式构建的椎间盘退变动物模型。生物力学是维持椎间盘稳态的重要因素,异常的机械应力会导致椎间盘退变。同时,椎间盘退变常伴随结构性损伤,椎间盘结构破坏也会导致椎间盘发生退变。此外,生物化学或化学诱导和关键基因敲除也会导致椎间盘退变。本文按照造成异常机械应力的因素将机械应力模型分为加压模型和失稳模型;按照椎间盘结构将结构损伤模型分为髓核与纤维环损伤模型和软骨终板损伤模型。总结了生物化学或化学诱导模型以及新型的基因敲除模型。讨论了不同类型椎间盘退变动物模型的可能应用和局限性。     

Effects of Single Injection of Local Anesthetic Agents on Intervertebral Disc Degeneration: Ex Vivo and Long-Term In Vivo Experimental Study

Background

Analgesic discography (discoblock) can be used to diagnose or treat discogenic low back pain by injecting a small amount of local anesthetics. However, recent in vitro studies have revealed cytotoxic effects of local anesthetics on intervertebral disc (IVD) cells. Here we aimed to investigate the deteriorative effects of lidocaine and bupivacaine on rabbit IVDs using an organotypic culture model and an in vivo long-term follow-up model.

Methods

For the organotypic culture model, rabbit IVDs were harvested and cultured for 3 or 7 days after intradiscal injection of local anesthetics (1% lidocaine or 0.5% bupivacaine). Nucleus pulposus (NP) cell death was measured using confocal microscopy. Histological and TUNEL assays were performed. For in vivo study, each local anesthetic was injected into rabbit lumbar IVDs under a fluoroscope. Six or 12 months after the injection, each IVD was prepared for magnetic resonance imaging (MRI) and histological analysis.

Results

In the organotypic culture model, both anesthetic agents induced time-dependent NP cell death; when compared with injected saline solution, significant effects were detected within 7 days. Compared with the saline group, TUNEL-positive NP cells were significantly increased in the bupivacaine group. In the in vivo study, MRI analysis did not show any significant difference. Histological analysis revealed that IVD degeneration occurred to a significantly level in the saline- and local anesthetics-injected groups compared with the untreated control or puncture-only groups. However, there was no significant difference between the saline and anesthetic agents groups.

Conclusions/Significance

In the in vivo model using healthy IVDs, there was no strong evidence to suggest that discoblock with local anesthetics has the potential of inducing IVD degeneration other than the initial mechanical damage of the pressurized injection. Further studies should be performed to investigate the deteriorative effects of the local injection of analgesic agents on degenerated IVDs.     

Metabolic Syndrome Components Are Associated with Intervertebral Disc Degeneration: The Wakayama Spine Study

Objective

The objective of the present study was to examine the associations between metabolic syndrome (MS) components, such as overweight (OW), hypertension (HT), dyslipidemia (DL), and impaired glucose tolerance (IGT), and intervertebral disc degeneration (DD).

Design

The present study included 928 participants (308 men, 620 women) of the 1,011 participants in the Wakayama Spine Study. DD on magnetic resonance imaging was classified according to the Pfirrmann system. OW, HT, DL, and IGT were assessed using the criteria of the Examination Committee of Criteria for MS in Japan.

Results

Multivariable logistic regression analysis revealed that OW was significantly associated with cervical, thoracic, and lumbar DD (cervical: odds ratio [OR], 1.28; 95% confidence interval [CI], 0.92–1.78; thoracic: OR, 1.75; 95% CI, 1.24–2.51; lumbar: OR, 1.87; 95% CI, 1.06–3.48). HT and IGT were significantly associated with thoracic DD (HT: OR, 1.54; 95% CI, 1.09–2.18; IGT: OR, 1.65; 95% CI, 1.12–2.48). Furthermore, subjects with 1 or more MS components had a higher OR for thoracic DD compared with those without MS components (vs. no component; 1 component: OR, 1.58; 95% CI, 1.03–2.42; 2 components: OR, 2.60; 95% CI, 1.62–4.20; ≥3 components: OR, 2.62; 95% CI, 1.42–5.00).

Conclusion

MS components were significantly associated with thoracic DD. Furthermore, accumulation of MS components significantly increased the OR for thoracic DD. These findings support the need for further studies of the effects of metabolic abnormality on DD.     

MRI Assessment of Lumbar Intervertebral Disc Degeneration with Lumbar Degenerative Disease Using the Pfirrmann Grading Systems

Background

To evaluate by MRI intervertebral disc degeneration in patients with lumbar degenerative disease using the Pfirrmann grading system and to determine whether Modic changes correlated with the Pfirrmann grades and modified Pfirrmann grades of disc degeneration.

Methods

The clinical data of 108 surgical patients with lumbar degenerative disease were reviewed and their preoperative MR images were analyzed. Disc degeneration was evaluated using the Pfirrmann grading system. Patients were followed up and low back pain was evaluated using the visual analog scale (VAS) and the effect of back pain on the daily quality of life was assessed using Oswestry disability index (ODI).

Results

Forty-four cases had normal anatomical appearance (Modic type 0) and their Pfirrmann grades were 3.77±0.480 and their modified Pfirrmann grades were of 5.81±1.006. Twenty-seven cases had Modic type I changes and their Pfirrmann grades were 4.79±0.557 and their modified Pfirrmann grades were 7.00±0.832. Thirty-six cases exhibited Modic type II changes and their Pfirrmann grades and modified Pfirrmann grades were 4.11±0.398 and 6.64±0.867, respectively. One case had Modic type III changes. Kruskal-Wallis test revealed significant difference in modified Pfirrmann grade among Modic type 0, I and II changes (P<0.01) but no significant difference between Modic type I and II changes (P>0.05). Binary regression analysis showed that Modic changes correlated most strongly with disc degeneration. Follow up studies indicated that the VAS and ODI scores were markedly improved postoperatively. However, no difference was noted in VAS and ODI scores among patients with different Modic types.

Conclusion

Modic changes correlate with the Pfirrmann and modified Pfirrmann grades of disc degeneration in lumbar degenerative disease. There is no significant correlation between Modic types and surgical outcomes.     

NF-κB信号通路参与高糖在椎间盘退行性变中影响及其作用的研究

目的:近来研究发现,椎间盘退变与代谢性疾病,尤其是与糖尿病具有明显的相关性,但具体机制尚未有深入研究。本实验拟探究高糖微环境诱导椎间盘退行性变及其对NF-κB信号通路的影响,为进一步揭示高糖诱导椎间盘髓核细胞退变的机制提供研究基础,为延缓、阻止糖尿病椎间盘退变和治疗糖尿病相关腰痛疾病带来新的策略和方法。方法:1、高糖微环境与IVDD的关系:使用5.5 mmol/L、15 mmol/L、30 mmol/L、100 mmol/L不同浓度葡萄糖培养基培养髓核细胞,RT-PCR检测髓核细胞MMP-3、MMP-13、Aggrecan、CollagenII的表达;2、NF-κB信号通路参与高糖微环境调控IVDD进展:Bay11-7082抑制NF-κB信号通路激活,再使用RT-PCR、Western Blot检测髓核细胞MMP-3、MMP-13、Aggrecan、CollagenII和NF-κB的表达。结果:RT-PCR检测显示,在不同葡萄糖浓度下,Aggrecan、CollagenII随浓度升高表达减少,MMP-3、MMP-13随浓度升高表达增加。RT-PCR、Western Blot检测显示,使用Bay11-7082可使高糖组中Aggrecan、CollagenII表达增加,MMP-3、MMP-13表达减少。结论:高糖微环境诱导椎间盘退行性变发病,且NF-κB信号通路参与高糖微环境诱导椎间盘退行性变发病。     

Chondroadherin Fragmentation Mediated by the Protease HTRA1 Distinguishes Human Intervertebral Disc Degeneration from Normal Aging

Chondroadherin, a member of the leucine-rich repeat family, has previously been demonstrated to be fragmented in some juveniles with idiopathic scoliosis. This observation led us to investigate adults with disc degeneration. Immunoblotting analysis demonstrated that non-degenerate discs from three different age groups show no chondroadherin fragmentation. Furthermore, the chondroadherin fragments in adult degenerate disc and the juvenile scoliotic disc were compared via immunoblot analysis and appeared to have a similar size. We then investigated whether or not chondroadherin fragmentation increases with the severity of disc degeneration. Three different samples with different severities were chosen from the same disc, and chondroadherin fragmentation was found to be more abundant with increasing severity of degeneration. This observation led us to the creation of a neoepitope antibody to the cleavage site observed. We then observed that the cleavage site in adult degenerate discs and juvenile scoliotic discs was identical as confirmed by the neoepitope antibody. Consequently, investigation of the protease capable of cleaving chondroadherin at this site was necessary. In vitro digests of disc tissue demonstrated that ADAMTS-4 and -5; cathepsins K, B, and L; and MMP-3, -7, -12, and -13 were incapable of cleavage of chondroadherin at this site and that HTRA1 was indeed the only protease capable. Furthermore, increased protein levels of the processed form of HTRA1 were demonstrated in degenerate disc tissues via immunoblotting. The results suggest that chondroadherin fragmentation can be used as a biomarker to distinguish the processes of disc degeneration from normal aging.     

腰间盘置换对手术及相邻运动节段几何参量的影响测评

目的:研究椎间盘假体置换对置换及其相邻节段的几何参量的影响,为评价人工椎间盘置换的疗效及功能意义和间盘置换对脊柱多个运动节段的影响提供一定的依据。方法:用计算机图形及辅助设计技术从置换前后X线片采集部分及整体的几何参量;按椎间高度、椎间孔面积、椎间隙面积、运动节段中间隙的总面积作术前-术后对比。将单个与两个节段置换后相邻节段的指标进行对比。综合分析置换及相邻节段的参量及其关系。结果:①椎间盘置换后运动节段中椎间高度、椎间孔面积、椎间隙面积、节段中间隙的总面积较术前增加,两者比较有显著差异(P<0.01);②相邻节段术前与术后比较,各参量无显著性差异(P>0.05);③双节段置换与单节段置换后其相邻节段2D几何参量对比,各参量无显著性差异(P>0.05);④各指标在数值变化上具有一定的协同趋势。结论:①假体置换后相应节段前、后部的空间结构及解剖关系得到一定恢复,可能改善负载及运动功能。②单个及两个假体置换后其相邻运动节段仍能维持原有结构特征,置换不改变相邻节段的几何参量。初步论证了椎间盘假体置换的功能意义;③所测指标间有协同及互补性。2D参量如椎间隙面积、间隙的总面积,能为多运动节段的评测提供必要的补充。     

椎间盘微环境对干细胞疗法修复椎间盘的影响的研究概况

椎间盘(IVD)退变是一种常见的病理状态,保守治疗往往失败,IVD变性的患者最后往往需要手术干预。已经提出的几种治疗方案中,只有椎间盘切除术和关节融合术被证明可以达到预料的效果。生物治疗的目的是预防和控制椎间盘变性,改善椎间盘的功能、髓核和纤维环细胞的合成代谢和修复能力,并抑制基质降解。目前,临床应用仍处于起步阶段。间充质干细胞和基因治疗在预防和治疗IVD变性的作用还需要进一步的研究。最近的研究向我们展示了一种新的保护椎间盘的结构和功能的治疗策略:间充质干细胞(MSCs)移植,尤其是骨髓间充质干细胞(BM-MSCs)。而了解MSCs是否可以以及如何在有排拆性的退化的椎间盘中存活并繁殖是十分重要的。因此,本文着重讨论内源性蛋白酶、细胞因子、低氧、低营养、机械负荷及渗透压的调节对移植的MSCs的影响。     

Sesn2 Serves as a Regulator between Mitochondrial Unfolded Protein Response and Mitophagy in Intervertebral Disc Degeneration

Mitochondrial unfold protein response (UPR^mt) can induce mitophagy to protect cell from unfold protein. However, how UPR^mt induces mitophagy to protect cell is not yet clear. Herein, Sesn2 was considered to be a key molecule that communicated UPR^mt and mitophagy in the intervertebral disc. Silencing of Sesn2 was able to reverse the protective effects of Nicotinamide riboside (NR) on nucleus pulposus (NP) cells and inhibit mitophagy induced by UPR^mt. UPR^mt upregulated Sesn2 through Eif2ak4/eIF2α/Atf4, and further induced mitophagy. Sesn2 promoted the translocation of cytosolic Parkin and Sqstm1 to the defective mitochondria respectively, thereby enhancing mitophagy. The translocation of cytosolic Sqstm1 to the defective mitochondria was dependent on Parkin. The two functional domains of Sesn2 were necessary for the interaction of Sesn2 with Parkin and Sqstm1. The cytosolic interaction of Sesn2 between Parkin and Sqstm1 was independent on Pink1 (named as PINK1 in human) but the mitochondrial translocation was dependent on Pink1. Sesn2-/- mice showed a more severe degeneration and NR did not completely alleviate the intervertebral disc degeneration (IVDD) of Sesn2-/- mice. In conclusion, UPR^mt could attenuate IVDD by upregulation of Sesn2-induced mitophagy. This study will help to further reveal the mechanism of Sesn2 regulating mitophagy, and open up new ideas for the prevention and treatment of IVDD.     

Genetic and Functional Studies of the Intervertebral Disc: A Novel Murine Intervertebral Disc Model

Intervertebral disc (IVD) homeostasis is mediated through a combination of micro-environmental and biomechanical factors, all of which are subject to genetic influences. The aim of this study is to develop and characterize a genetically tractable, ex vivo organ culture model that can be used to further elucidate mechanisms of intervertebral disc disease. Specifically, we demonstrate that IVD disc explants (1) maintain their native phenotype in prolonged culture, (2) are responsive to exogenous stimuli, and (3) that relevant homeostatic regulatory mechanisms can be modulated through ex-vivo genetic recombination. We present a novel technique for isolation of murine IVD explants with demonstration of explant viability (CMFDA/propidium iodide staining), disc anatomy (H&E), maintenance of extracellular matrix (ECM) (Alcian Blue staining), and native expression profile (qRT-PCR) as well as ex vivo genetic recombination (mT/mG reporter mice; AdCre) following 14 days of culture in DMEM media containing 10% fetal bovine serum, 1% L-glutamine, and 1% penicillin/streptomycin. IVD explants maintained their micro-anatomic integrity, ECM proteoglycan content, viability, and gene expression profile consistent with a homeostatic drive in culture. Treatment of genetically engineered explants with cre-expressing adenovirus efficaciously induced ex vivo genetic recombination in a variety of genetically engineered mouse models. Exogenous administration of IL-1ß and TGF-ß3 resulted in predicted catabolic and anabolic responses, respectively. Genetic recombination of TGFBR1^fl/fl explants resulted in constitutively active TGF-ß signaling that matched that of exogenously administered TGF-ß3. Our results illustrate the utility of the murine intervertebral disc explant to investigate mechanisms of intervertebral disc degeneration.     

正常椎间盘胶原的研究

腰椎间盘突出症是引起腰腿痛常见的原因。胶原作为椎间盘结构的主要成分,构成椎间盘的纤维框架,其类型与分布直接决定着椎间盘结构的强度和功能的稳定。本文利用溴化氰消化椎间盘胶原产生多肽,借助于梯度层析。SDS-PAGE及光密度定量扫描等对正常人椎间盘胶原进行了研究。结果表明:正常人椎间盘含Ⅰ型及Ⅱ型两种胶原,它们的分布呈明显而特征性的移行性变化:纤维环外层边缘以Ⅰ型胶原为主(83％),由外向内Ⅰ型胶原逐渐移行为Ⅱ型胶原,靠近髓核处以Ⅱ型胶原为主(72％);髓核中心含有Ⅱ型胶原。此为椎间盘的一个结构特性,以满足椎间盘的特殊功能的需要。