Rate of lumbar paravertebral muscle fat infiltration versus spinal degeneration in asymptomatic populations: an age-aggregated cross-sectional simulation study.

Q1 Medicine

Scoliosis and Spinal Disorders Pub Date : 2016-08-05 eCollection Date: 2016-01-01 DOI:10.1186/s13013-016-0080-0

Rebecca J Crawford, Thomas Volken, Stephanie Valentin, Markus Melloh, James M Elliott

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引用次数: 43

Abstract

Background: The spinal column including its vertebrae and disks has been well examined and extensively reported in relation to age-aggregated degeneration. In contrast, paravertebral muscles are poorly represented in describing normative degeneration. Increasing evidence points to the importance of paravertebral muscle quality in low back health, and their potential as a modifiable factor in low back pain (LBP). Studies examining normative decline of paravertebral muscles are needed to advance the field's etiological understanding. With a novel approach and based on published data, we establish and compare decline rates of imaging features for degeneration of lumbar vertebrae and disks, versus fatty infiltration in paravertebral muscles in asymptomatic adults.

Methods: Our cross-sectional simulation study examined age-aggregated data from three published studies who reported on asymptomatic adults spanning 18-60 years. Prevalence rates of imaging degenerative features of the spinal column were examined via logistic regression and compared with percentage fatty infiltration in erector spinae, multifidus and psoas using synthetic data and Monte Carlo simulation with 10,000 endpoint-specific regression iterations. General linear regression models were employed to estimate marginal effects of age reported as a one-year change rate (with 95 % confidence intervals) for comparisons between all reported spinal features.

Results: Declines in multifidus (0.24 & 0.11 %/year), erector spinae (0.13 & 0.07 %/year), and psoas (0.04 %/year) occur at similarly slow rates to disk protrusion (0.25 %/year), annular fissure (0.15 %/year), and spondylolisthesis (0.29 %/year). Multifidus showed a trend for faster decline than erector spinae, particularly in men. Of the features examined, disk signal loss declined fastest, and psoas muscle the slowest.

Conclusions: Degeneration of lumbar paravertebral muscles occurs slowly in asymptomatic adults, with a tendency to be most pronounced in multifidus. Rate of decline of spinal structures represents a novel variable that warrants inclusion as a known feature of the expected degenerative cascade, and to provide a basis for comparison to diseases of the spine in research and clinical practice. Concurrent examination of spinal features using advanced imaging to improve muscle analysis would be a strong addition to the field.

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无症状人群腰椎椎旁肌脂肪浸润率与脊柱退变:一项年龄聚集的横断面模拟研究。

背景:脊柱包括其椎骨和椎间盘已被很好地检查和广泛报道与年龄聚集性退变有关。相反，椎旁肌肉在描述规范性变性时表现不佳。越来越多的证据表明，椎旁肌肉质量在腰背部健康中的重要性，以及它们作为腰痛(LBP)可改变因素的潜力。需要研究脊椎旁肌肉的规范性衰退，以推进该领域的病因学理解。采用一种新颖的方法并基于已发表的数据，我们建立并比较无症状成人腰椎和椎间盘退变与椎旁肌肉脂肪浸润的成像特征下降率。方法:我们的横断面模拟研究检查了来自3项已发表的研究的年龄汇总数据，这些研究报告了18-60岁的无症状成年人。通过逻辑回归检查脊柱影像学退行性特征的患病率，并使用合成数据和蒙特卡罗模拟进行10,000次终点特定回归迭代，将其与竖脊肌、多裂肌和腰肌的脂肪浸润百分比进行比较。采用一般线性回归模型来估计年龄作为一年变化率报告的边际效应(95%置信区间)，以比较所有报告的脊柱特征。结果:多裂肌(0.24%和0.11% /年)、竖脊肌(0.13%和0.07% /年)和腰肌(0.04% /年)的下降速度与椎间盘突出(0.25% /年)、环裂(0.15% /年)和脊柱滑脱(0.29% /年)相似。多裂肌比竖脊肌衰退得更快，尤其是男性。在检查的特征中，磁盘信号丢失下降最快，腰肌下降最慢。结论:腰椎椎旁肌退变在无症状的成年人中发生缓慢，多裂肌倾向最明显。脊柱结构的退化率代表了一个新的变量，值得作为预期的退行性级联的已知特征，并在研究和临床实践中为脊柱疾病的比较提供基础。同时检查脊柱特征，使用先进的成像技术来改善肌肉分析，将是该领域的一个强有力的补充。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Scoliosis and Spinal Disorders Medicine-Orthopedics and Sports Medicine

CiteScore

5.60

自引率

0.00%

发文量

期刊介绍： Cessation.Scoliosis and Spinal Disorders is an open access, multidisciplinary journal that encompasses all aspects of research on prevention, diagnosis, treatment, outcomes and cost-analyses of conservative and surgical management of all spinal deformities and disorders. Both clinical and basic science reports form the cornerstone of the journal in its endeavour to provide original, primary studies as well as narrative/systematic reviews and meta-analyses to the academic community and beyond. Scoliosis and Spinal Disorders aims to provide an integrated and balanced view of cutting-edge spine research to further enhance effective collaboration among clinical spine specialists and scientists, and to ultimately improve patient outcomes based on an evidence-based spine care approach.