Microstructure of the radial head: Insights into anatomical variations and implications for advanced interventions.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-10 DOI:10.1002/ca.24191
Scott Cole, Randall R Rainwater, Erin Mannen, Mark A Tait, John W Bracey
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Abstract

Appropriate management of radial head fractures is integral to prevent long-term consequences like chronic pain and loss of motion. Advanced imaging systems, like micro-computed tomography (μCT), are valuable for understanding radial head fracture patterns as they utilize micrometer scale resolution to define important parameters of bone health like cortical density and trabecular thickness. The purpose of this study was to identify and describe the structural morphology of the radial head utilizing μCT. Nine fresh-frozen cadaveric human radii were divided into four equal quadrants, based, and labeled as posteromedial, posterolateral, anteromedial, and anterolateral. Quadrants were scanned with a SCANCO MicroCT40 with both cortical and cancellous bone density measurements at a resolution of 36.0 μm. Bone density, direct trabecular number, and trabecular thickness were recorded as milligrams of hydroxyapatite/cm3. A one-way repeated measures ANOVA was performed to compare the bone densities, trabecular number, and trabecular thickness of each of the four quadrants (p < 0.05). The posteromedial quadrant contained substantially more bone than other quadrants. Significantly greater bone densities were found in the posteromedial quadrant (148.1 mg of HA/cm3) compared to the anteromedial quadrant (54.6 mg of HA/cm3), posterolateral quadrant (137.5 mg of HA/cm3) compared to the anteromedial quadrant (54.6 mg of HA/cm3), and posterolateral quadrant (137.5 mg of HA/cm3) compared to the anterolateral quadrant (58.1 mg of HA/cm3). The trabecular number was not significantly different between quadrants. Trabecular thickness was significantly lower in the anterolateral (0.1417 mg of HA/cm3) and anteromedial (0.1416 mg of HA/cm3) quadrants compared to the posteromedial (0.1809 mg of HA/cm3) quadrant. The posterior half of the radial head was found to have a higher density of columns and arches compared to the anterior half. The microstructure of trabecular bone in the distal radius forms columns, struts, and arches, which allow for efficient transmission of stress through the bone. The microstructure of the radial head has similar microarchitecture to the distal radius with the present study identifying the presence of columns and arches in the radial head. These structures, along with trabecular density, in the posterior radial head may explain the lower incidence of fractures involving the posterior half of the radial head. Furthermore, our study supports the idea that the high incidence of fractures involving the anterolateral quadrant is due to microarchitecture characteristics and the relative lack of supportive structures compared to other areas. The novel insight gained from this study will aid in the development of advanced interventions for preventative measures and better treatment of radial head fractures like more satisfactory purchase when screws are directed towards the denser posteromedial quadrant.

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桡骨头的微观结构:解剖变异的启示及对高级干预的影响。
对桡骨头骨折进行适当处理是防止长期疼痛和丧失活动能力等后果不可或缺的。先进的成像系统,如微型计算机断层扫描(μCT),对了解桡骨头骨折模式很有价值,因为它们利用微米级的分辨率来确定骨健康的重要参数,如皮质密度和骨小梁厚度。本研究旨在利用μCT识别和描述桡骨头的结构形态。九个新鲜冷冻的人体桡骨被分成四个相等的象限,分别标记为后内侧、后外侧、前内侧和前外侧。用 SCANCO MicroCT40 扫描象限,以 36.0 μm 的分辨率测量皮质和松质骨密度。骨密度、直接骨小梁数量和骨小梁厚度均以羟基磷灰石毫克/立方厘米为单位记录。对四个象限的骨密度、骨小梁数和骨小梁厚度(p 3)与前内侧象限(54.6毫克 HA/立方厘米)、后外侧象限(137.5毫克 HA/立方厘米)与前内侧象限(54.6毫克 HA/立方厘米)相比,以及后外侧象限(137.5毫克 HA/立方厘米)与前外侧象限(58.1毫克 HA/立方厘米)相比。不同象限的小梁数量无明显差异。与后内侧象限(0.1809 毫克 HA/立方厘米)相比,前外侧象限(0.1417 毫克 HA/立方厘米)和前内侧象限(0.1416 毫克 HA/立方厘米)的小梁厚度明显较低。与前半部分相比,桡骨头后半部分的柱状和拱形密度更高。桡骨远端骨小梁的微观结构形成了柱、支柱和拱,使应力在骨中有效传递。桡骨头的微结构与桡骨远端相似,本研究发现桡骨头中存在柱状和拱状结构。桡骨头后部的这些结构以及骨小梁密度可能是桡骨头后半部骨折发生率较低的原因。此外,我们的研究还支持这样一种观点,即涉及前外侧象限的骨折发生率高是由于微结构特征以及与其他区域相比相对缺乏支撑结构造成的。本研究获得的新见解将有助于开发先进的干预措施,以预防和更好地治疗桡骨头骨折,如将螺钉对准密度较高的后内侧象限,可获得更满意的疗效。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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