正常或骨骼状态改变的大鼠骨骼的微观结构、密度测定及代谢变化
Microstructural, densitometric and metabolic variations in bones from rats with normal or altered skeletal states.
作者信息
Luu Andrew N, Anez-Bustillos Lorenzo, Aran Shima, Araiza Arroyo Francisco J, Entezari Vahid, Rosso Claudio, Snyder Brian D, Nazarian Ara
机构信息
Center for Advanced Orthopaedic Studies, Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, Massachusetts, United States of America ; School of Medicine, Tufts University, Boston, Massachusetts, United States of America.
Center for Advanced Orthopaedic Studies, Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, Massachusetts, United States of America.
出版信息
PLoS One. 2013 Dec 17;8(12):e82709. doi: 10.1371/journal.pone.0082709. eCollection 2013.
BACKGROUND
High resolution μCT, and combined μPET/CT have emerged as non-invasive techniques to enhance or even replace dual energy X-ray absorptiometry (DXA) as the current preferred approach for fragility fracture risk assessment. The aim of this study was to assess the ability of µPET/CT imaging to differentiate changes in rat bone tissue density and microstructure induced by metabolic bone diseases more accurately than current available methods.
METHODS
Thirty three rats were divided into three groups of control, ovariectomy and vitamin-D deficiency. At the conclusion of the study, animals were subjected to glucose ((18)FDG) and sodium fluoride (Na(18)F) PET/CT scanning. Then, specimens were subjected to µCT imaging and tensile mechanical testing.
RESULTS
Compared to control, those allocated to ovariectomy and vitamin D deficiency groups showed 4% and 22% (significant) increase in (18)FDG uptake values, respectively. DXA-based bone mineral density was higher in the vitamin D deficiency group when compared to the other groups (cortical bone), yet μCT-based apparent and mineral density results were not different between groups. DXA-based bone mineral density was lower in the ovariectomy group when compared to the other groups (cancellous bone); yet μCT-based mineral density results were not different between groups, and the μCT-based apparent density results were lower in the ovariectomy group compared to the other groups.
CONCLUSION
PET and micro-CT provide an accurate three-dimensional measurement of the changes in bone tissue mineral density, as well as microstructure for cortical and cancellous bone and metabolic activity. As osteomalacia is characterized by impaired bone mineralization, the use of densitometric analyses may lead to misinterpretation of the condition as osteoporosis. In contrast, µCT alone and in combination with the PET component certainly provides an accurate three-dimensional measurement of the changes in both bone tissue mineral density, as well as microstructure for cortical and cancellous bone and metabolic activity.
背景
高分辨率μCT以及μPET/CT联合成像已成为非侵入性技术,有望增强甚至取代双能X线吸收法(DXA),成为目前评估脆性骨折风险的首选方法。本研究的目的是评估μPET/CT成像在比现有方法更准确地区分代谢性骨病引起的大鼠骨组织密度和微观结构变化方面的能力。
方法
33只大鼠分为对照组、卵巢切除组和维生素D缺乏组。在研究结束时,对动物进行葡萄糖((18)FDG)和氟化钠(Na(18)F)PET/CT扫描。然后,对标本进行μCT成像和拉伸力学测试。
结果
与对照组相比,卵巢切除组和维生素D缺乏组的(18)FDG摄取值分别显著增加了4%和22%。基于DXA的骨矿物质密度在维生素D缺乏组中高于其他组(皮质骨),然而基于μCT的表观密度和矿物质密度结果在各组之间并无差异。基于DXA的骨矿物质密度在卵巢切除组中低于其他组(松质骨);然而基于μCT的矿物质密度结果在各组之间并无差异,且基于μCT的表观密度结果在卵巢切除组中低于其他组。
结论
PET和微型CT能够准确地对骨组织矿物质密度的变化以及皮质骨、松质骨的微观结构和代谢活性进行三维测量。由于骨软化症的特征是骨矿化受损,使用密度分析可能会将该病症误解为骨质疏松症。相比之下,单独使用μCT以及与PET组件结合使用肯定能够准确地对骨组织矿物质密度的变化以及皮质骨、松质骨的微观结构和代谢活性进行三维测量。
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