骨质疏松性轴骨干骨内和椎间小梁微结构的区域变化

IF 1.2 4区 医学 Q3 ANATOMY & MORPHOLOGY
Guido Schröder, Anna Maria Baginski, Marko Schulze, Laura Hiepe, Semjon Bugaichuk, Heiner Martin, Julian Ramin Andresen, Mario Moritz, Reimer Andresen, Hans-Christof Schober
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引用次数: 1

摘要

椎体中的小梁结构在颈椎、胸椎和腰椎以及单个椎骨中分布不均。对这些实体微观结构的了解可能会影响我们对骨质疏松性骨折的理解和治疗,甚至影响外科手术。适当的研究可以阐明各种骨质疏松性骨折(鱼类、楔形和扁平椎骨)的病理机制。我们从颈椎3至腰椎5的中心和边缘获得了三个松质骨圆柱体,并对其骨体积分数、小梁厚度、分离度、小梁数量、小梁骨模式因子、连接密度和各向异性程度进行了研究。使用Jamshidi针®,我们从242块制备好的椎骨的三个象限(QI:右侧边缘,QII:中央,QIII:左侧边缘)获得了样本,并在微型CT设备上进行了研究。总共从11名捐献者身上采集了726份骨骼样本。QII的骨体积分数、小梁厚度和各向异性程度显著低于QI和QII。然而,QII的小梁模式因子显著高于QI和QII。研究结果有助于解释鱼的脊椎。楔形骨折和扁平椎骨最有可能是由小梁和皮质结构的复杂破坏引起的。与胸椎和腰椎相比,颈椎的骨体积分数较高,这是颈椎骨折数量较少的原因。胸椎和腰椎中心明显的小梁模式因素可能是外科医生对单个椎骨使用不同螺钉设计的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Regional variations in the intra- and intervertebral trabecular microarchitecture of the osteoporotic axial skeleton

Regional variations in the intra- and intervertebral trabecular microarchitecture of the osteoporotic axial skeleton

Trabecular structures in vertebral bodies are unequally distributed in the cervical, thoracic and lumbar spine, and also within individual vertebrae. Knowledge of the microstructure of these entities could influence our comprehension and treatment of osteoporotic fractures, and even surgical procedures. Appropriate investigations may clarify the pathomechanisms of various osteoporotic fractures (fish, wedge-shaped, and flat vertebrae). We obtained three cancellous bone cylinders from the centers and margins of cervical vertebra 3 to lumbar vertebra 5, and investigated these in regard of bone volume fraction, trabecular thickness, separation, trabecular number, trabecular bone pattern factor, connectivity density, and degree of anisotropy. Using a Jamshidi needle®, we obtained samples from three quadrants (QI: right-sided edge, QII: central, QIII: left-sided edge) of 242 prepared vertebrae, and investigated these on a micro-CT device. In all, 726 bone samples were taken from eleven body donors. Bone volume fraction, trabecular thickness, and the degree of anisotropy were significantly lower in QII than in QI and QIII. Trabecular pattern factor, however, was significantly higher in QII than in QI and QIII. The results helped to explain fish vertebrae. Wedge fractures and flat vertebrae are most likely caused by the complex destruction of trabecular and cortical structures. The higher bone volume fraction in the cervical spine compared to the thoracic and lumbar spine accounts for the small number of fractures in the cervical spine. The marked trabecular pattern factor in the center of thoracic and lumbar vertebrae could be a reason for the surgeon to use different screw designs for individual vertebrae.

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来源期刊
Anatomical Science International
Anatomical Science International 医学-解剖学与形态学
CiteScore
2.80
自引率
8.30%
发文量
50
审稿时长
>12 weeks
期刊介绍: The official English journal of the Japanese Association of Anatomists, Anatomical Science International (formerly titled Kaibogaku Zasshi) publishes original research articles dealing with morphological sciences. Coverage in the journal includes molecular, cellular, histological and gross anatomical studies on humans and on normal and experimental animals, as well as functional morphological, biochemical, physiological and behavioral studies if they include morphological analysis.
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