High-resolution three-dimensional micro-computed tomography assessment of micro-architectural patterns in non-adults with cribra orbitalia: Correlation between macro- and micro-scale bone features.
Veda Mikasinovic, Ksenija Djukic, Petar Milenkovic, Jelena Jadzic, Petar Milovanovic, Marija Djuric
{"title":"High-resolution three-dimensional micro-computed tomography assessment of micro-architectural patterns in non-adults with cribra orbitalia: Correlation between macro- and micro-scale bone features.","authors":"Veda Mikasinovic, Ksenija Djukic, Petar Milenkovic, Jelena Jadzic, Petar Milovanovic, Marija Djuric","doi":"10.1002/jemt.24656","DOIUrl":null,"url":null,"abstract":"<p><p>Skeletal porous lesions such as cribra orbitalia (CO) have long been of interest to bioanthropologists worldwide, mainly due to their high prevalence in osteological material. Previous studies considered CO as an external morphological manifestation, and therefore, research has mainly focused on visible (macroscopic) CO patterns. However, the understanding of CO-induced micro-scale bone changes is still scarce. Therefore, we performed high-resolution micro-computed tomography imaging to investigate three-dimensional CO-induced micro-architectural patterns in non-adults, with a particular focus on the correlation between macroscopic and micro-architectural orbital features. Cortical and trabecular micro-architectural changes in the orbital roof were analyzed in non-adults younger than 15 years, using orbital roof samples with and without macroscopic traces of CO (n = 28). A widely accepted five-grade macroscopic CO scoring system was applied to analyze CO severity. Areas affected with CO (area 1) and areas without macroscopic CO traces (area 2) were analyzed separately. The conducted high-resolution analysis showed that cortical and trabecular micro-architecture varied with CO presence, lesion severity (CO grade), and the analyzed area. Inter-grade comparisons suggested that most of the analyzed micro-architectural parameters were not significantly different between adjacent CO grades. Based on the micro-architectural evaluation of areas 1 and 2, the porous lesions were much more extensive than revealed by gross examination. In addition, micro-architectural differences were particularly pronounced in younger non-adults. In summary, our pilot study suggests that the macroscopic examination of CO reflects only the tip of the iceberg, as the micro-architectural changes seem to be much larger than macroscopically identified. RESEARCH HIGHLIGHTS: Cribra orbitalia (CO) represents orbital porous lesions. A high-resolution microscopic assessment of CO-induced changes in non-adults was done by micro-computed tomography. The microarchitecture was affected by CO presence, CO grade, area, and age.</p>","PeriodicalId":2,"journal":{"name":"ACS Applied Bio Materials","volume":null,"pages":null},"PeriodicalIF":4.6000,"publicationDate":"2024-12-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"ACS Applied Bio Materials","FirstCategoryId":"5","ListUrlMain":"https://doi.org/10.1002/jemt.24656","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2024/7/14 0:00:00","PubModel":"Epub","JCR":"Q2","JCRName":"MATERIALS SCIENCE, BIOMATERIALS","Score":null,"Total":0}
引用次数: 0
Abstract
Skeletal porous lesions such as cribra orbitalia (CO) have long been of interest to bioanthropologists worldwide, mainly due to their high prevalence in osteological material. Previous studies considered CO as an external morphological manifestation, and therefore, research has mainly focused on visible (macroscopic) CO patterns. However, the understanding of CO-induced micro-scale bone changes is still scarce. Therefore, we performed high-resolution micro-computed tomography imaging to investigate three-dimensional CO-induced micro-architectural patterns in non-adults, with a particular focus on the correlation between macroscopic and micro-architectural orbital features. Cortical and trabecular micro-architectural changes in the orbital roof were analyzed in non-adults younger than 15 years, using orbital roof samples with and without macroscopic traces of CO (n = 28). A widely accepted five-grade macroscopic CO scoring system was applied to analyze CO severity. Areas affected with CO (area 1) and areas without macroscopic CO traces (area 2) were analyzed separately. The conducted high-resolution analysis showed that cortical and trabecular micro-architecture varied with CO presence, lesion severity (CO grade), and the analyzed area. Inter-grade comparisons suggested that most of the analyzed micro-architectural parameters were not significantly different between adjacent CO grades. Based on the micro-architectural evaluation of areas 1 and 2, the porous lesions were much more extensive than revealed by gross examination. In addition, micro-architectural differences were particularly pronounced in younger non-adults. In summary, our pilot study suggests that the macroscopic examination of CO reflects only the tip of the iceberg, as the micro-architectural changes seem to be much larger than macroscopically identified. RESEARCH HIGHLIGHTS: Cribra orbitalia (CO) represents orbital porous lesions. A high-resolution microscopic assessment of CO-induced changes in non-adults was done by micro-computed tomography. The microarchitecture was affected by CO presence, CO grade, area, and age.
长期以来,骨骼多孔病变(如眼眶裂纹)一直受到全世界生物人类学家的关注,这主要是由于它们在骨学材料中的高流行率。以往的研究认为,CO 是一种外部形态表现,因此,研究主要集中在可见的(宏观的)CO 形态上。然而,对 CO 引起的微尺度骨骼变化的了解仍然很少。因此,我们进行了高分辨率显微计算机断层扫描成像,以研究非成人三维 CO 诱导的微观结构模式,尤其关注宏观和微观结构眼眶特征之间的相关性。我们使用有和没有一氧化碳宏观痕迹的眶顶样本(n = 28),分析了 15 岁以下非成年人眶顶皮质和小梁微观结构的变化。采用广为接受的五级宏观 CO 评分系统来分析 CO 的严重程度。分别分析了受一氧化碳影响的区域(区域 1)和无一氧化碳宏观痕迹的区域(区域 2)。高分辨率分析表明,皮质和小梁的微观结构随 CO 的存在、病变严重程度(CO 等级)和分析区域的不同而变化。等级间比较表明,在相邻的 CO 等级之间,大部分分析的微观结构参数没有显著差异。根据对 1 号和 2 号区域的微观结构评估,多孔病变的范围比大体检查发现的要大得多。此外,微观结构的差异在非成年人中尤为明显。总之,我们的试点研究表明,CO 的宏观检查仅反映了冰山一角,因为微观结构的变化似乎比宏观检查发现的要大得多。研究亮点:眼眶裂孔(Cribra orbitalia,CO)是眼眶多孔性病变的一种。通过微型计算机断层扫描,对非成人的 CO 引起的变化进行了高分辨率的显微评估。微观结构受 CO 存在、CO 等级、面积和年龄的影响。