Department of Orthopaedics, University Medical Center Utrecht, HP G05.228, Postbus 85500, Heidelberglaan 100, 3508GA Utrecht, The Netherlands.
Department of Clinical Sciences of Companion Animals, Yalelaan 108, 3584 CM Utrecht, The Netherlands.
Spine J. 2019 May;19(5):905-919. doi: 10.1016/j.spinee.2018.10.014. Epub 2018 Oct 26.
Local corticosteroids have been used to relieve symptoms of chronic low back pain, although treatment effects have been shown to wear off relatively fast. Prolonging corticosteroid presence by controlled release from biomaterials may allow for longer pain relief while circumventing adverse effects such as high bolus dosages.
The purpose of this study was to evaluate the safety and efficacy of intradiscal controlled release of triamcinolone acetonide (TAA) by poly(esteramide) microspheres in a canine degenerated intervertebral disc (IVD) model.
In a preclinical experimental large animal model, the effect of prolonged glucocorticoid exposure on disc degeneration was evaluated.
Degeneration was accelerated by nucleotomy of lumbar IVDs of Beagle dogs. After 4 weeks, microspheres loaded with 8.4 µg TAA, and 0.84mg TAA were administered to the degenerated IVDs by intradiscal injection (n=6 per group). Empty microspheres (n=6) and all adjacent non-nucleotomized noninjected IVDs were included as controls (n=24). Immediately prior to TAA administration and after 12 weeks, magnetic resonance imaging was performed. Degenerative changes were evaluated by disc height index, Pfirrmann grading, T1ρ and T2 mapping values, postmortem CT scans, macroscopic and microscopic grading, and biochemical/immunohistochemical analysis of inflammation and extracellular matrix content. In addition, nerve growth factor (NGF) protein expression, a biomarker for pain, was scored in nucleus pulposus (NP) tissues. The study was funded by a research grant from Health Holland (1.3million euros = 1.5million US dollars).
Macroscopic evaluation and CT images postmortem were consistent with mild disc degeneration. Other abnormalities were not observed. Nucleotomy-induced degeneration and inflammation was mild, reflected by moderate Pfirrmann grades and PGE levels. Regardless of TAA dosage, local sustained delivery did not affect disc height index nor Pfirrmann grading, T1ρ and T2 mapping values, PGE tissue levels, collagen, GAG, and DNA content. However, the low dosage of TAA microspheres significantly reduced NGF immunopositivity in degenerated NP tissue.
This is the first in vivo application in a preclinical large animal model of a controlled release formulation of corticosteroids in mild IVD degeneration. Sustained release of TAA locally in the IVD appeared safe and reduced NGF expression, suggesting its potential applicability for pain relief, although beneficial effects were absent on tissue degeneration.
The present platform seems to be promising in extending the local controlled delivery of TAA with the potency to provide long-standing analgesia in the subset of LBP patients suffering from discogenic pain.
局部皮质类固醇已被用于缓解慢性下腰痛的症状,尽管治疗效果显示相对较快地消失。通过生物材料的控制释放来延长皮质类固醇的存在时间,可能会使疼痛缓解时间更长,同时避免高剂量冲击疗法的不良反应。
本研究旨在评估聚酯酰胺微球控释曲安奈德(TAA)在犬退行性椎间盘(IVD)模型中的安全性和疗效。
在临床前的大型动物模型中,评估了延长糖皮质激素暴露对椎间盘退变的影响。
通过腰椎 IVD 的核切除术加速退变。4 周后,通过椎间盘内注射将载有 8.4μg TAA 和 0.84mg TAA 的微球分别施用于退变的 IVD(每组 6 只)。空微球(n=6)和所有相邻的非核切开非注射 IVD 作为对照(n=24)。在 TAA 给药前和 12 周后立即进行磁共振成像。通过椎间盘高度指数、Pfirrmann 分级、T1ρ和 T2 映射值、死后 CT 扫描、大体和显微镜分级以及炎症和细胞外基质含量的生化/免疫组织化学分析来评估退行性变化。此外,还对核髓(NP)组织中的神经生长因子(NGF)蛋白表达进行了评分,这是一种疼痛的生物标志物。该研究由健康荷兰(130 万欧元= 150 万美元)的研究资助。
大体评估和死后 CT 图像与轻度椎间盘退变一致。未观察到其他异常。核切开诱导的退变和炎症较轻,反映在中度 Pfirrmann 分级和 PGE 水平。无论 TAA 剂量如何,局部持续递送均不影响椎间盘高度指数或 Pfirrmann 分级、T1ρ和 T2 映射值、PGE 组织水平、胶原、GAG 和 DNA 含量。然而,低剂量 TAA 微球显著降低了退变 NP 组织中 NGF 的免疫阳性率。
这是在临床前大型动物模型中首次应用皮质类固醇的控释制剂治疗轻度 IVD 退变。IVD 中 TAA 的局部持续释放似乎是安全的,并降低了 NGF 的表达,表明其在缓解疼痛方面具有潜在的适用性,尽管对组织退变没有有益的影响。
目前的平台似乎很有前途,可以延长 TAA 的局部控释释放,为患有椎间盘源性疼痛的 LBP 患者亚群提供长期的镇痛效果。
