应用微创技术建立恒河猴腰椎间盘早期退变模型

目的 应用CT定位,经皮穿刺纤维环诱导恒河猴腰椎间盘退变,建立灵长类动物腰椎间盘早期退变模型.方法 恒河猴13只,随机分为三组:(1)造模组:在CT定位下,用20G穿刺针从左侧后方入路经皮穿刺L1,2:(n=12),L2,3、L3,4、L4,5、L5,6(n=13)椎间盘的纤维环全层至椎间盘髓核正中,共64个椎间盘.(2)穿刺对照组:15G穿刺针穿刺1只猴的L1,2椎间盘.(3)正常对照组:L6,7,L7-S1,共26个椎间盘.造模前及造模后4、8、12周对各组椎间盘行MRI检查,并行HE、Masson、番红O、免疫组织化学染色组织学观察.结果 (1)MRI:20G穿刺针穿刺的造模组椎间盘造模前及造模后4、8、12周,椎间盘信号强度按Pfirmann分级均为Ⅰ级.15G穿刺针穿刺椎间盘4周时信号降低(Pfirrmann Ⅲ级),8周时为黑色椎间盘(Pfirmann Ⅳ级).正常对照组椎间盘为Pfirmann Ⅰ级.(2)组织学:造模组椎间盘造模后4周未见改变,8周时HE染色示髓核内细胞数减少,12周时较为明显.Masson染色4周未见改变,8周时各层纤维间出现裂隙,12周时裂隙增宽.番红O染色见8、12周髓核内蛋白聚糖进行性减少.免疫组织化学结果显示4周和8周时同正常椎间盘比较差异无统计学意义(P＞0.05),12周时,Ⅱ型胶原合成减少(P＜0.05).15G穿刺对照组在8周时HE染色见髓核内细胞减少明显,Masson染色见纤维环各层间裂隙明显,呈波浪状.番红O染色示髓核内蛋白聚糖数量明显减少.免疫组织化学染色示Ⅱ型胶原合成减少.正常对照组在各时间点未见到形态学改变.结论 20G穿刺针可以诱发椎间盘缓慢进展的轻度退变.MRI平均信号强度观察椎间盘轻度退变时,不是敏感的指标,需要依靠组织学证实.     

腺相关病毒介导的骨形态发生蛋白-2体内转染兔退变椎间盘的实验研究

目的 观察腺相关病毒介导的骨形态发生蛋白-2(AAV-BMP-2)基因对兔退变腰椎间盘的治疗作用.方法 将36只新西兰大白兔L2-3、L3-4、L4-5、L5-6椎间盘针刺制造退变模型后随机分为3组,其中12只注射AAV-BMP-2作为实验组,12只注射AAV作为实验对照组,12只注射生理盐水作为空白对照组.注射后的2、4、8周各组随机抽取4只兔行腰椎MRI扫描,扫描后将其处死,取L2-3、L3-4、L4-5、L5-6椎问盘髓核组织,用间苯三酚分光光度法检测髓核组织中的蛋白多糖含量.结果 在MRI影像学Thompson分级评估中,实验组各时间点椎间盘MRI信号比较,差异无统计学意义.实验对照组和空白对照组各时间点MRI信号比较,差异有统计学意义.实验组和实验对照组、实验组和空白对照组各时间点MRI髓核信号比较,差异有统计学意义;实验对照组和空白对照组比较,差异无统计学意义.在蛋白多糖含量测定中,实验组蛋白多糖含量在各时间点均高于实验对照组和空白对照组,实验对照组和空白对照组蛋白多糖均随时间的变化逐渐减少,各时间点两组比较无明显区别.结论 AAV-BMP-2对兔退变的腰椎间盘有治疗作用.     

Injection of human umbilical tissue–derived cells into the nucleus pulposus alters the course of intervertebral disc degeneration in vivo

Background contextPatients often present to spine clinic with evidence of intervertebral disc degeneration (IDD). If conservative management fails, a safe and effective injection directly into the disc might be preferable to the risks and morbidity of surgery.PurposeTo determine whether injecting human umbilical tissue–derived cells (hUTC) into the nucleus pulposus (NP) might improve the course of IDD.DesignProspective, randomized, blinded placebo–controlled in vivo study.Patient sampleSkeletally mature New Zealand white rabbits.Outcome measuresDegree of IDD based on magnetic resonance imaging (MRI), biomechanics, and histology.MethodsThirty skeletally mature New Zealand white rabbits were used in a previously validated rabbit annulotomy model for IDD. Discs L2–L3, L3–L4, and L4–L5 were surgically exposed and punctured to induce degeneration and then 3 weeks later the same discs were injected with hUTC with or without a hydrogel carrier. Serial MRIs obtained at 0, 3, 6, and 12 weeks were analyzed for evidence of degeneration qualitatively and quantitatively via NP area and MRI Index. The rabbits were sacrificed at 12 weeks and discs L4–L5 were analyzed histologically. The L3–L4 discs were fixed to a robotic arm and subjected to uniaxial compression, and viscoelastic displacement curves were generated.ResultsQualitatively, the MRIs demonstrated no evidence of degeneration in the control group over the course of 12 weeks. The punctured group yielded MRIs with the evidence of disc height loss and darkening, suggestive of degeneration. The three treatment groups (cells alone, carrier alone, or cells+carrier) generated MRIs with less qualitative evidence of degeneration than the punctured group. MRI Index and area for the cell and the cell+carrier groups were significantly distinct from the punctured group at 12 weeks. The carrier group generated MRI data that fell between control and punctured values but failed to reach a statistically significant difference from the punctured values. There were no statistically significant MRI differences among the three treatment groups. The treated groups also demonstrated viscoelastic properties that were distinct from the control and punctured values, with the cell curve more similar to the punctured curve and the carrier curve and carrier+cells curve more similar to the control curve (although no creep differences achieved statistical significance). There was some histological evidence of improved cellularity and disc architecture in the treated discs compared with the punctured discs.ConclusionsTreatment of degenerating rabbit intervertebral discs with hUTC in a hydrogel carrier solution might help restore the MRI, histological, and biomechanical properties toward those of nondegenerated controls. Treatment with cells in saline or a hydrogel carrier devoid of cells also might help restore some imaging, architectural, and physical properties to the degenerating disc. These data support the potential use of therapeutic cells in the treatment of disc degeneration.     

两种骨水泥渗漏对椎间盘影响的实验研究

目的 探讨椎体成形术时骨水泥渗漏是否会引起椎间盘退变，以及椎间盘退变程度与骨水泥类型是否相关。方法 选用8只成年家犬，以每只犬L2-3、L3-4、L4-5椎间盘为实验对象，随机分为对照组、聚甲基丙烯酸甲酯（polymethylmethacrylate，PMMA）与磷酸钙骨水泥（calcium phosphate cement，CPC）3组。对照组仅行椎间盘穿刺，不注入任何物质，PMMA组及CPC组均各向椎间盘注入0．1ml骨水泥。术前及术后24周摄正、侧位X线片，计算椎间盘高度指数百分数（disc height index percentage，DHIP）。术后24周行MR检查，计算MRI指数。组织学检查参照Masuda标准对椎间盘退变程度评分并分析。结果 术后24周X线片显示对照组椎间隙无狭窄，病理学检查未见椎间盘退变。PMMA、CPC组椎间盘MRI显示：椎间隙有狭窄，R加权像髓核信号不同程度降低且不均一，其相对高信号区面积减小，髓核形态不规则，纤维环与髓核界限不清。组织学检查显示髓核细胞数量不同程度减少，空泡变小。髓核的细胞外基质不同程度压缩，纤维环断裂或扭转。3组DHIP、MRI指数、组织学评分的差异均有统计学意义（P〈0.01）。结论 PMMA、CPC注入椎间盘会导致椎间盘退变，PMMA所致椎间盘退变较CPC更为严重.     

Disc degeneration reduces the delamination strength of the annulus fibrosus in the rabbit annular disc puncture model

Background contextDegenerative disc disease is a common pathologic disorder accompanied by both structural and biochemical changes. Changes in stress distribution across the disc can lead to annulus fibrosus (AF) damage that can affect the strength and integrity of the disc. Given that some present degeneration therapies incorporate biological regrowth of the nucleus pulposus (NP), it is crucial that the AF remains capable of containing this newly grown material.PurposeTo examine the resistance of AF to delamination using an adhesive peel test in experimentally degenerated rabbit discs.Study designExperimentally induced disc degeneration; excised AF tissue study.MethodsDisc degeneration was induced in eight New Zealand white rabbits by annular puncture; four additional rabbits served as controls. In experimental rabbits, an 18-gauge needle was inserted into the anterolateral AF region of levels L2–L3 and L4–L5, and disc height was monitored by X-ray. Animals were sacrificed at 4 and 12 weeks postsurgery and magnetic resonance images and X-rays were taken. Four discs were excised from the experimental animals; two punctured (L2–L3 and L4–L5) and two controls (L3–L4 and L6–L7). The same four discs were also excised from the age-matched control animals and served as nonpunctured control discs. To determine resistance to delamination, AF samples were dissected from each disc and subjected to a mechanical peel test at 0.5 mm/s.ResultsMagnetic resonance imaging and X-ray images confirmed dehydration of the NP and reduced disc height, similar to that found in clinical degeneration. Resistance to delamination was significantly lower in punctured/degenerated discs compared with both the nonpunctured discs from the same animal (27% lower) and the nonpunctured control discs (30% lower) (p=.024).ConclusionsThe findings of this study suggest that degeneration increases the potential for delamination between AF layers. Given this substantial change to the integrity of the AF after degeneration, clinical treatments should not only target rehydration or regrowth of the NP, but should also target repair and strengthening of the AF to confine the NP.     

ISSLS PRIZE IN BASIC SCIENCE 2018: Growth differentiation factor-6 attenuated pro-inflammatory molecular changes in the rabbit anular-puncture model and degenerated disc-induced pain generation in the rat xenograft radiculopathy model

Purpose

To elucidate the effects of growth differentiation factor-6 (GDF6) on: (i) gene expression of inflammatory/pain-related molecules and structural integrity in the rabbit intervertebral disc (IVD) degeneration model, and (ii) sensory dysfunction and changes in pain-marker expression in dorsal nerve ganglia (DRGs) in the rat xenograft radiculopathy model.

Methods

Forty-six adolescent rabbits received anular-puncture in two non-consecutive lumbar IVDs. Four weeks later, phosphate-buffered saline (PBS) or GDF6 (1, 10 or 100 µg) was injected into the nucleus pulposus (NP) of punctured discs and followed for 4 weeks for gene expression analysis and 12 weeks for structural analyses. For pain assessment, eight rabbits were sacrificed at 4 weeks post-injection and NP tissues of injected discs were transplanted onto L5 DRGs of 16 nude rats to examine mechanical allodynia. The rat DRGs were analyzed immunohistochemically.

Results

In GDF6-treated rabbit NPs, gene expressions of interleukin-6, tumor necrosis factor-α, vascular endothelial growth factor, prostaglandin-endoperoxide synthase 2, and nerve growth factor were significantly lower than those in the PBS group. GDF6 injections resulted in partial restoration of disc height and improvement of MRI disc degeneration grades with statistical significance in rabbit structural analyses. Allodynia induced by xenograft transplantation of rabbit degenerated NPs onto rat DRGs was significantly reduced by GDF6 injection. Staining intensities for ionized calcium-binding adaptor molecule-1 and calcitonin gene-related peptide in rat DRGs of the GDF6 group were significantly lower than those of the PBS group.

Conclusion

GDF6 injection may change the pathological status of degenerative discs and attenuate degenerated IVD-induced pain.

Graphical Abstract

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Injection of AAV2-BMP2 and AAV2-TIMP1 into the nucleus pulposus slows the course of intervertebral disc degeneration in an in vivo rabbit model

Background contextIntervertebral disc degeneration (IDD) is a common cause of back pain. Patients who fail conservative management may face the morbidity of surgery. Alternative treatment modalities could have a significant impact on disease progression and patients’ quality of life.PurposeTo determine if the injection of a virus vector carrying a therapeutic gene directly into the nucleus pulposus improves the course of IDD.Study designProspective randomized controlled animal study.MethodsThirty-four skeletally mature New Zealand white rabbits were used. In the treatment group, L2–L3, L3–L4, and L4–L5 discs were punctured in accordance with a previously validated rabbit annulotomy model for IDD and then subsequently treated with adeno-associated virus serotype 2 (AAV2) vector carrying genes for either bone morphogenetic protein 2 (BMP2) or tissue inhibitor of metalloproteinase 1 (TIMP1). A nonoperative control group, nonpunctured sham surgical group, and punctured control group were also evaluated. Serial magnetic resonance imaging (MRI) studies at 0, 6, and 12 weeks were obtained, and a validated MRI analysis program was used to quantify degeneration. The rabbits were sacrificed at 12 weeks, and L4–L5 discs were analyzed histologically. Viscoelastic properties of the L3–L4 discs were analyzed using uniaxial load-normalized displacement testing. Creep curves were mathematically modeled according to a previously validated two-phase exponential model. Serum samples obtained at 0, 6, and 12 weeks were assayed for biochemical evidence of degeneration.ResultsThe punctured group demonstrated MRI and histologic evidence of degeneration as expected. The treatment groups demonstrated less MRI and histologic evidence of degeneration than the punctured group. The serum biochemical marker C-telopeptide of collagen type II increased rapidly in the punctured group, but the treated groups returned to control values by 12 weeks. The treatment groups demonstrated several viscoelastic properties that were distinct from control and punctured values.ConclusionsTreatment of punctured rabbit intervertebral discs with AAV2-BMP2 or AAV2-TIMP1 helps delay degenerative changes, as seen on MRI, histologic sampling, serum biochemical analysis, and biomechanical testing. Although data from animal models should be extrapolated to the human condition with caution, this study supports the potential use of gene therapy for the treatment of IDD.     

Heme oxygenase-1 modulates degeneration of the intervertebral disc after puncture in Bach 1 deficient mice

Purpose

Intervertebral disc degeneration is considered to be a major feature of low back pain. Furthermore, oxidative stress has been shown to be an important factor in degenerative diseases such as osteoarthritis and is considered a cause of intervertebral disc degeneration. The purpose of this study was to clarify the correlation between oxidative stress and intervertebral disc degeneration using Broad complex-Tramtrack-Bric-a-brac and cap‘n’collar homology 1 deficient (Bach 1?/?) mice which highly express heme oxygenase-1 (HO-1). HO-1 protects cells from oxidative stress.

Methods

Caudal discs of 12-week-old and 1-year-old mice were evaluated as age-related models. Each group and period, 5 mice (a total of 20 mice, a total of 20 discs) were evaluated as age-related model. C9–C10 caudal discs in 12-week-old Bach 1?/? and wild-type mice were punctured using a 29-gauge needle as annulus puncture model. Each group and period, 5 mice (a total of 60 mice, a total of 60 discs) were evaluated. The progress of disc degeneration was evaluated at pre-puncture, 1, 2, 4, 8 and 12?weeks post-puncture. Radiographic, histologic and immunohistologic analysis were performed to compare between Bach 1?/? and wild-type mice.

Results

In the age-related model, there were no significant differences between Bach 1?/? and wild-type mice radiologically and histologically. However, in the annulus puncture model, histological scoring revealed significant difference at 8 and 12?weeks post-puncture. The number of HO-1 positive cells was significantly greater in Bach 1?/? mice at every period. The apoptosis rate was significantly lower at 1 and 2?weeks post-puncture in Bach 1?/? mice.

Conclusions

Oxidative stress prevention may avoid the degenerative process of the intervertebral disc after puncture, reducing the number of apoptosis cells. High HO-1 expression may also inhibit oxidative stress and delay the process of intervertebral disc degeneration.     

大鼠正常与退变性髓核突出导致神经根性疼痛的对比研究

目的探讨正常与退变髓核突出对大鼠疼痛阈值以及背根神经节中TNF-α表达的影响,研究椎间盘退变与神经根性疼痛之间的关系。方法72只大鼠随机分为4组:正常对照组(n=18)、假手术组(n=19)、正常髓核(N-NP)组(n=16)和退变髓核(P-NP)组(n=19)。对P-NP组大鼠利用尾椎椎间盘纤维环穿刺的方法建立椎间盘退变模型。分别取出N-NP组和P-NP组大鼠自体的正常髓核与退变髓核组织,置于手术显露后的腰5左侧神经根处,建立髓核突出致神经根性疼痛动物模型。采用行为学测试的方法分别观察各组大鼠术前1天,术后1、4、7、10、14、21天机械刺激阈值与热刺激阈值的变化;采用免疫组化方法分别检测术后第4、14天各组大鼠背根神经节中TNF-α的表达。结果行尾椎间盘纤维环穿刺后2周,组织学与MRI检查均证实椎间盘组织发生明显退变。对照组和假手术组动物未出现明显的痛觉过敏现象,N-NP组和P-NP组大鼠机械性刺激阈值均显著下降,该痛觉过敏现象持续至术后2周消失;与正常髓核组织相比,退变髓核所致机械性刺激阈值下降程度更为严重。各实验组均未发生热刺激阈值的规律性变化。术后第4、14天对照组和假手术组背根神经节中未见TNF-α明显表达,而正常及退变髓核组TNF-α表达量均显著升高。结论大鼠尾椎纤维环穿刺是建立大鼠椎间盘退变模型的一种有效方法。与正常髓核组织相比,发生退变的髓核组织可导致神经根性疼痛的加重,提示椎间盘退变过程中释放的炎症因子在疼痛的发生机制中可能起到了重要作用。     

经皮穿刺纤维环建立兔腰椎间盘退变模型

目的探讨使用自制穿刺针经皮穿刺纤维环制备兔腰椎间盘退变模型的可行性。方法将18只新西兰大白兔分为实验组、假手术组及空白对照组。实验组及假手术组使用自制穿刺针穿刺L_(3~4)、L_(4~5)和L_(5~6)椎间盘位置,实验组穿刺椎间盘深度为5 mm,假手术组钝性穿刺但不损伤椎间盘,空白对照组不作处理。术后3、6、9周每组取2只兔麻醉后行腰椎MRI检查,处死行大体观察并取椎间盘行HE染色及髓核蛋白多糖含量测定。结果术后3周开始实验组MRI信号强度、髓核蛋白多糖含量与其他两组相比明显下降(P0.05),其后呈逐渐下降趋势,大体观察及HE染色显示实验组髓核及纤维环呈逐渐退变趋势。结论自制穿刺针经皮穿刺纤维环法能成功建立兔腰椎间盘退变模型,具有操作简单、损伤小、动物存活率高等优点。     

纤维环穿刺诱导椎间盘退变动物模型的实验研究

目的：探讨纤维环穿刺诱导椎间盘退变建立动物模型的可行性。方法：新西兰大白兔24只，用持针器夹持18G皮肤穿刺针从左前外侧刺人L3/4、L4/5、L5/6椎间盘的纤维环，深度控制在5mm。术前及术后3、6、10周对造模后的椎间盘及对照的椎间盘（L2／3）行MRI检查，并行免疫组化及组织学观察。结果：术后第3周到第10周，造模后的椎间盘MRI T2WI信号呈现持续减弱趋势，免疫组化及组织学观察发现髓核细胞的数量及Ⅱ型胶原含量较对照间盘进行性减少（P〈0．01）。结论：纤维环穿刺法可以诱导兔椎间盘的缓慢退变，为研究椎间盘的退行性变提供有效的动物模型。     

Optimization of puncture injury to rat caudal disc for mimicking early degeneration of intervertebral disc

The caudal discs of rats have been proposed as a puncture model in which intervertebral disc (IVD) degeneration can be induced and novel therapies can be tested. For biological repair, treatments for ongoing IVD degeneration are ideally administered during the earlier stages. The purpose of this study was to elucidate the optimal puncture needle size for creating a model that mimicked the earlier stages of IVD degeneration. According to the disc height index, histologic score, and MRI grading, a puncture needle sized 21G or larger induced rapid degenerative processes in rat caudal discs during the initial 2–4 weeks. The degenerative changes were severe and continued deteriorating after 4 weeks. Conversely, puncture injury induced by needles sized 25G or smaller also produced degenerative changes in rat caudal discs during initial 2–4 weeks; however, the changes were less severe. Furthermore, the degenerative process became stabilized and showed no further deterioration or spontaneous recovery after 4 weeks. In the discs punctured by 25G needles, the expression of collagen I was increased at 2–4 weeks with a gradually fibrotic transformation thereafter. The expressions of collagen II and SOX9 were enhanced initially but returned to pre‐injury levels at 4–8 weeks. The above‐mentioned findings were more compatible with earlier degeneration in discs punctured by needles sized 25G or smaller than by needles sized 21G or larger, and the appropriate timing for intradiscal administration of proposed therapeutic agents would be 4 weeks or longer after puncture. © 2017 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 36:202–211, 2018.     

Use of Allogeneic Hypoxic Mesenchymal Stem Cells For Treating Disc Degeneration in Rabbits

Intervertebral discs (IVDs) are important biomechanical components of the spine. Once degenerated, mesenchymal stem cell (MSC)‐based therapies may aid in the repair of these discs. Although hypoxic preconditioning enhances the chondrogenic potential of MSCs, it is unknown whether bone marrow MSCs expanded under hypoxic conditions (1% O₂, here referred to as hypoxic MSCs) are better than bone marrow MSCs expanded under normoxic conditions (air, here referred to as normoxic MSCs) with regards to disc regeneration capacity. The purpose of this study was to compare the therapeutic effects of hypoxic and normoxic MSCs in a rabbit needle puncture degenerated disc model after intra‐disc injection. Six weeks after needle puncture, MSCs were injected into the IVD. A vehicle‐treated group and an un‐punctured sham‐control group were included as controls. The tissues were analyzed by histological and immunohistochemical methods 6 and 12 weeks post‐injection. At 6 and 12 weeks, less disc space narrowing was evident in the hypoxic MSC‐treated group compared to the normoxic MSC‐treated group. Significantly better histological scores were observed in the hypoxic MSC group. Discs treated with hypoxic MSCs also demonstrated significantly better extracellular matrix deposition in type II and XI collagen. Increased CD105 and BMP‐7 expression were also observed upon injection of hypoxic MSCs. In conclusion, hypoxic MSC injection was more effective than normoxic MSC injection for reducing IVD degeneration progression in vivo. © 2019 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 37:1440–1450, 2019.     

P物质阳性神经纤维在退变腰椎间盘的分布及意义

目的研究P物质（substance P,SP）阳性神经纤维在腰椎间盘中的出现及分布,以探讨其在椎间盘退变中的潜在作用。方法收集16例患者的21个病变腰椎间盘和来自于新鲜尸体的12个正常对照椎间盘,行组织学检查和SP免疫组织化学染色检查。结果SP阳性神经纤维偶见于正常椎间盘,在病变椎间盘内可见较多的SP免疫反应阳性神经纤维分布,阳性神经纤维数量与腰椎间盘退变程度呈正相关。结论腰椎间盘退变程度和SP阳性神经纤维数量有明显的相关性,SP可能作为神经炎性介质加速了腰椎间盘的退变。     

NF-κB inhibitor,NEMO-binding domain peptide attenuates intervertebral disc degeneration

BACKGROUND CONTEXTNonphysiological mechanical loading and inflammation are both critically involved in intervertebral disc (IVD) degeneration, which is characterized by an increase in cytokines and matrix metalloproteases (MMPs) in the nucleus pulposus (NP). This process is known to be mediated by the NF-κB pathway.CLINICAL SIGNIFICANCECurrent clinical treatments for IVD degeneration focus on the alleviation of symptoms rather than targeting the underlying mechanism. Injection of an NF-κB inhibitor may attenuate the progression of IVD degeneration.PURPOSETo investigate the ability of the NF-κB inhibitor, NEMO binding domain peptide (NBD), to alter IVD degeneration processes by reducing IL-1β- and mechanically-induced cytokine and MMP levels in human nucleus pulposus cells in vitro, and by attenuating IVD degeneration in an in vivo rat model for disc degeneration.STUDY DESIGNExperimental in vitro and animal model.PATIENT SAMPLEDiscarded specimens of lumbar disc from 21 patients, and 12 Sprague Dawley rats.OUTCOME MEASURESGene and protein expression, cell viability, µMRI and histology.METHODSIL-1β-prestimulated human nucleus pulposus cells embedded into fibrin constructs were loaded in the Flexcell FX-5000 compression system at 5 kPa and 1 Hz for 48 hours in the presence and absence of NBD. Unloaded hNPC/fibrin constructs served as controls. Cell viability in loaded and unloaded constructs was quantified, and gene and protein expression levels determined. For in vivo testing, a rat needle disc puncture model was employed. Experimental groups included injured discs with and without NBD injection and uninjured controls. Levels of disc degeneration were determined via µMRI, qPCR and histology. Funding sources include $48,874 NASS Young Investigator Research Grant and $119,174 NIH 5K01AR071512-02. There were no applicable financial relationships or conflicts of interest.RESULTSMechanical compression of hNPC/fibrin constructs resulted in upregulation of MMP-3 and IL-8. Supplementation of media with 10 μM NBD during loading increased cell viability, and decreased MMP-3 gene and protein levels. IVD injury in rat resulted in an increase in MMP-3, IL-1β and IL-6 gene expression. Injections of 250 µg of NBD during disc injury resulted in decreased IL-6 gene expression. µMRI analysis demonstrated a reduction of disc hydration in response to disc needle injury, which was attenuated in NBD-treated IVDs. Histological evaluation showed NP and AF lesion in injured discs, which was attenuated by NBD injection.CONCLUSIONSThe results of this study show NBD peptide's capacity to reduce IL-1β- and loading-induced MMP-3 levels in hNPC/fibrin constructs while increasing the cells’ viability, and to attenuate IVD degeneration in rat, involving downregulation of IL-6. Therefore, NBD may be a potential therapeutic agent to treat IVD degeneration.     

A porcine model of intervertebral disc degeneration induced by annular injury characterized with magnetic resonance imaging and histopathological findings. Laboratory investigation

OBJECT: Appropriate animal models of disc degeneration are critical for the study of proposed interventions as well as to further delineate the degenerative process. The purpose of this study was to characterize a porcine model for disc degeneration confirmed on magnetic resonance (MR) imaging studies and histological analysis. METHODS: Twelve miniature pigs were used (weight 48-65 kg) to study degeneration in the lumbar spine. Under fluoroscopic guidance, the disc was percutaneously punctured with a 3.2-mm-diameter trephine to a 5-mm depth into the annulus fibrosus. Control and experimental levels were randomized among 6 levels in the lumbar spine. The unlesioned spinal levels were used as controls and were compared with lesioned levels. Magnetic resonance imaging grading and disc height were serially recorded preoperatively, and at 5, 8, 19, 32, and 39 weeks postoperatively. The animals were killed in groups of 3 at 7, 18, 32, and 41 weeks postinjury, and the discs were examined histopathologically. RESULTS: Consistent, sequential, and progressive degeneration of the annular injury was observed on MR imaging and histopathological studies from the time of injury to the final time point. The disc height and the disc height index also sequentially decreased from the time of the injury in a consistent manner. The uninjured control levels did not show any progressive degeneration and maintained their normal state. CONCLUSIONS: Based on MR imaging and histopathological findings, the authors demonstrated and characterized a reliable model of sequential disc degeneration in miniature pigs with percutaneous injury to the annulus fibrosus. In the early stages, as soon as 5 weeks after injury, significant disc degeneration was seen on MR imaging grading with decreases in disc height. This degeneration did not improve by the final time point of 39 weeks.     

Injection of a polymerized hyaluronic acid/collagen hydrogel matrix in an in vivo porcine disc degeneration model

Introduction

Disc degeneration and re-herniation after nucleotomy procedures are common problems. Simultaneous application of hyaluronic acid (HA)-based matrix has been proposed to limit disc degeneration. This, however, is hampered by loss of the substituted matrix out of the disc. Hence, in situ polymerization of the injected matrix with ultraviolet light (UVL) directly used after injection may be useful. Therefore, this study evaluates a new HA/collagen hydrogel matrix with in situ polymerization after implantation in an established porcine nucleotomy model.

Materials and methods

12 mature minipigs were used. A total of 60 lumbar discs were analyzed. 36 discs underwent partial nucleotomy with a 16G biopsy needle. Of those, 24 discs received matrix (porcine nucleus pulposus collagenous scaffold component and chemically modified HA) which was in situ polymerized using UVL immediately after transplantation. 12 nucleotomized discs and 24 non-nucleotomized discs served as controls. After 24?weeks, animals were killed. X-rays, MRIs, histology, and gene expression analysis were done.

Results

Disc height was reduced equally after sole nucleotomy and nucleotomy with HA treatment and in MRIs signal intensity decreased. For both nucleotomy groups, the nucleus histo-degeneration score showed a significant increase compared to controls. In histology, HA treatment resulted in more scarring and inflammation in the annulus. Gene expression of catabolic MMPs was up-regulated, whereas IFN-gamma, IL-6, and IL-1b were unchanged.

Conclusion

Although nucleotomy and administration of the implant material did not cause generalized inflammation of the disc, localized annular damage with annulus inflammation and scarring resulted in detrimental degenerative disc changes. As a result, therapeutic strategies should strongly focus on the prevention of annular damage or techniques for annular repair to remain disc integrity.     

The effect of needle size inducing degeneration in the rat caudal disc: evaluation using radiograph,magnetic resonance imaging,histology, and immunohistochemistry

Background context

The rat caudal disc has been increasingly used in studying of disc degeneration because of its simplicity, low cost, and efficiency. However, the reproducibility and standardization are essential to facilitate the investigations of biologic therapeutics at different stages of degeneration.

Purpose

To identify the effect of different needle gauges to the degenerative response in rat caudal discs and to examine its pathogenesis by looking at the cellular and matrix changes.

Study design

In vivo study of injury-induced rat caudal disc degeneration using needle puncture.

Patient sample

Thirty-six Lewis rats aged 12–14 weeks.

Outcome measures

The induced degenerative discs were analyzed by plain radiograph, magnetic resonance imaging (MRI) and histological examination. Proteoglycan content was assessed by alcian blue stain. Immunohistochemistry using aggrecan, collagen II, and Sox-9 was also evaluated to investigate cell differentiation and matrix changes.

Methods

All rats were divided into three groups according to different needle gauges (18G, 20G, and 22G). Caudal discs were punctured percutaneously under image guidance. Radiographs and MRI were obtained at 2 weeks interval until 8 weeks. At each time point, three rats from each group were sacrificed for histological analysis and immunohistochemistry.

Results

Larger needle gauges, especially 18G, produced more deterioration of the disc when compared with smaller sizes, particularly with time. Significant differences were identified in almost all parameters compared between 18G and 22G at the 8-week time point. For the effect of time in the same needle size, the differences occurred between 2- or 4-week and 8-week time point in the 18G and 20G groups. The proteoglycan and aggrecan stain gradually decreased over time. Chondrogenic differentiation was identified within the degenerative disc by detecting Sox-9 positive cells and collagen II accumulation increased as degeneration progressed.

Conclusions

The puncture-induced degenerative changes in rat caudal discs can imitate the human degenerative cascade as observed in plain radiograph, MRI, histology, and immunohistochemistry. We suggest that needle size affects the occurrence of progression of degeneration; thus, the large needle size was required to accelerate the deterioration. The size of needle and time point after injury should be considered when investigating the effect of therapeutic materials to retard degeneration or regenerate the intervertebral disc.     

Intradiscal injection of simvastatin results in radiologic,histologic, and genetic evidence of disc regeneration in a rat model of degenerative disc disease

Background contextA large percentage of back pain can be attributed to degeneration of the intervertebral disc (IVD). Bone morphogenetic protein 2 (BMP-2) is known to play an important role in chondrogenesis of the IVD. Simvastatin is known to upregulate expression of BMP-2. Thus, we hypothesized that intradiscal injection of simvastatin in a rat model of degenerative disc disease (DDD) would result in retardation of DDD.PurposeThe purpose of the present study was to develop a novel conservative treatment for DDD and related discogenic back pain.Study design/settingThe setting of this study is the laboratory investigation.MethodsDisc injury was induced in 272 rats via 21-ga needle puncture. After 6 weeks, injured discs were treated with simvastatin in a saline or hydrogel carrier. Rats were sacrificed at predetermined time points. Outcome measures assessed were radiologic, histologic, and genetic. Radiologically, the magnetic resonance imaging (MRI) index (number of pixels multiplied by the corresponding image densities) was determined. Histologically, disc spaces were read by three blinded scorers using a previously described histologic grading scale. Genetically, nuclei pulposi were harvested, and polymerase chain reaction was run to determine relative levels of aggrecan, collagen type II, and BMP-2 gene expression.ResultsRadiologically, discs treated with 5 mg/mL of simvastatin in hydrogel or saline demonstrated MRI indices that were normal through 8 weeks after treatment, although this was more sustained when delivered in hydrogel. Histologically, discs treated with 5 mg/mL of simvastatin in hydrogel demonstrated improved grades compared with discs treated at higher doses. Genetically, discs treated with 5 mg/mL of simvastatin in hydrogel demonstrated higher gene expression of aggrecan and collagen type II than control.ConclusionsDegenerate discs treated with 5 mg/mL of simvastatin in a hydrogel carrier demonstrated radiographic and histologic features resembling normal noninjured IVDs. In addition, the gene expression of aggrecan and collagen type II (important constituents of the IVD extracellular matrix) was upregulated in treated discs. Injection of simvastatin into degenerate IVDs may result in retardation of disc degeneration and represents a promising investigational therapy for conservative treatment of DDD.     

Patterns of lumbar disc degeneration are different in degenerative disc disease and disc prolapse magnetic resonance imaging analysis of 224 patients

Background contextExisting research on lumbar disc degeneration has remained inconclusive regarding its etiology, pathogenesis, symptomatology, prevention, and management. Degenerative disc disease (DDD) and disc prolapse (DP) are common diseases affecting the lumbar discs. Although they manifest clinically differently, existing studies on disc degeneration have included patients with both these features, leading to wide variations in observations. The possible relationship or disaffect between DDD and DP is not fully evaluated.PurposeTo analyze the patterns of lumbar disc degeneration in patients with chronic back pain and DDD and those with acute DP.Study designProspective, magnetic resonance imaging–based radiological study.MethodsTwo groups of patients (aged 20–50 years) were prospectively studied. Group 1 included patients requiring a single level microdiscectomy for acute DP. Group 2 included patients with chronic low back pain and DDD. Discs were assessed by magnetic resonance imaging through Pfirmann grading, Schmorl nodes, Modic changes, and the total end-plate damage score for all the five lumbar discs.ResultsGroup 1 (DP) had 91 patients and group 2 (DDD) had 133 patients. DP and DDD patients differed significantly in the number, extent, and severity of degeneration. DDD patients had a significantly higher number of degenerated discs than DP patients (p<.000). The incidence of multilevel and pan-lumbar degeneration was also significantly higher in DDD group. The pattern of degeneration also differed in both the groups. DDD patients had predominant upper lumbar involvement, whereas DP patients had mainly lower lumbar degeneration. Modic changes were more common in DP patients, especially at the prolapsed level. Modic changes were present in 37% of prolapsed levels compared with 9.9% of normal discs (p<.00). The total end-plate damage score had a positive correlation with disc degeneration in both the groups. Further the mean total end-plate damage score at prolapsed level was also significantly higher.ConclusionThe results suggest that patients with disc prolapse, and those with back pain with DDD are clinically and radiologically different groups of patients with varying patterns, severity, and extent of disc degeneration. This is the first study in literature to compare and identify significant differences in these two commonly encountered patient groups. In patients with single-level DP, the majority of the other discs are nondegenerate, the lower lumbar spine is predominantly involved and the end-plate damage is higher. Patients with back pain and DDD have larger number of degenerate discs, early multilevel degeneration, and predominant upper lumbar degeneration. The knowledge that these two groups of patients are different clinically and radiologically is critical for our improved understanding of the disease and for future studies on disc degeneration and disc prolapse.