Van Dessel Jeroen, Nicolielo Laura Ferreira Pinheiro, Huang Yan, Slagmolen Pieter, Politis Constantinus, Lambrichts Ivo, Jacobs Reinhilde
Eur J Oral Implantol. 2016;9(4):411-424.
To determine the accuracy of the latest cone beam computed tomography (CBCT) machines in comparison to multi-slice computer tomography (MSCT) and micro computed tomography (micro-CT) for objectively assessing trabecular and cortical bone quality prior to implant placement.
Eight edentulous human mandibular bone samples were scanned with seven CBCT scanners (3D Accuitomo 170, i-CAT Next Generation, ProMax 3D Max, Scanora 3D, Cranex 3D, Newtom GiANO and Carestream 9300) and one MSCT system (Somatom Definition Flash) using the clinical exposure protocol with the highest resolution. Micro-CT (SkyScan 1174) images served as a gold standard. A volume of interest (VOI) comprising trabecular and cortical bone only was delineated on the micro-CT. After spatial alignment of all scan types, micro-CT VOIs were overlaid on the CBCT and MSCT images. Segmentation was applied and morphometric parameters were calculated for each scanner. CBCT and MSCT morphometric parameters were compared with micro-CT using mixed-effect models. Intraclass correlation analysis was used to grade the accuracy of each scanner in assessing trabecular and cortical quality in comparison with the gold standard. Bone structure patterns of each scanner were compared with micro-CT in 2D and 3D to facilitate the interpretation of the morphometric analysis.
Morphometric analysis showed an overestimation of the cortical and trabecular bone quantity during CBCT and MSCT evaluation compared to the gold standard micro-CT. The trabecular thickness (Tb.Th) was found to be significantly (P < 0.05) different and the smallest overestimation was found for the ProMax 3D Max (180 µm), followed by the 3D Accuitomo 170 (200 µm), Carestream 9300 (220 µm), Newtom GiANO (240 µm), Cranex 3D (280 µm), Scanora 3D (300 µm), high resolution MSCT (310 µm), i-CAT Next Generation (430 µm) and standard resolution MSCT (510 µm). The underestimation of the cortical thickness (Ct.Th) in ProMax 3D Max (-10 µm), the overestimation in Newtom GiANO (10 µm) and the high resolution MSCT (10 µm) were neglible. However, a significant overestimation (P < 0.05) was found for 3D Accuitomo 170 (110 µm), Scanora 3D (140 µm), standard resolution MSCT (150 µm), Carestream 9300 (190 µm), Cranex 3D (190 µm) and i-CAT Next Generation (230 µm). Comparison of the 2D network and 3D surface distance confirmed the overestimation in bone quantity, but only demonstrated a deviant trabecular network for the i-CAT Next Generation and the standard resolution MSCT. Intraclass correlation coefficients (ICCs) showed a significant (P < 0.05) high intra-observer reliability (ICC > 0.70) in morphometric evaluation between micro-CT and commercially available CBCT scanners (3D Accuitomo 170, Newtom GiANO and ProMax 3D Max). The ICC for Tb.Th and Ct.Th were 0.72 and 0.98 (3D Accuitomo 170), 0.71 and 0.96 (Newtom GiANO), and 0.87 and 0.92 (ProMax 3D Max), respectively.
High resolution CBCT offers a clinical alternative to MSCT to objectively determine the bone quality prior to implant placement. However, not all tested CBCT machines have sufficient resolution to accurately depict the trabecular network or cortical bone. Conflict-of-interest statement: There is no conflict of interest to declare.
Fellowship support came from Research Foundation Flanders (FWO) from the Belgian government, and Coordination for the Improvement of Higher Education Personnel (CAPES) program and Science without borders from the Brazilian government.
与多层螺旋计算机断层扫描(MSCT)和微型计算机断层扫描(micro-CT)相比,确定最新的锥形束计算机断层扫描(CBCT)机器在植入物植入前客观评估小梁骨和皮质骨质量方面的准确性。
使用具有最高分辨率的临床曝光方案,用七台CBCT扫描仪(3D Accuitomo 170、i-CAT Next Generation、ProMax 3D Max、Scanora 3D、Cranex 3D、Newtom GiANO和Carestream 9300)和一台MSCT系统(Somatom Definition Flash)对八个无牙颌人类下颌骨样本进行扫描。微型计算机断层扫描(SkyScan 1174)图像作为金标准。在微型计算机断层扫描上划定一个仅包含小梁骨和皮质骨的感兴趣体积(VOI)。在对所有扫描类型进行空间对齐后,将微型计算机断层扫描VOI叠加在CBCT和MSCT图像上。进行分割并计算每个扫描仪的形态计量参数。使用混合效应模型将CBCT和MSCT形态计量参数与微型计算机断层扫描进行比较。使用组内相关分析对每个扫描仪与金标准相比评估小梁骨和皮质骨质量的准确性进行分级。将每个扫描仪的骨结构模式在二维和三维上与微型计算机断层扫描进行比较,以促进形态计量分析的解释。
形态计量分析表明,与金标准微型计算机断层扫描相比,在CBCT和MSCT评估期间,皮质骨和小梁骨量被高估。发现小梁厚度(Tb.Th)存在显著差异(P<0.05),ProMax 3D Max(180µm)的高估最小,其次是3D Accuitomo 170(200µm)、Carestream 9300(220µm)、Newtom GiANO(240µm)、Cranex 3D(280µm)、Scanora 3D(300µm)、高分辨率MSCT(310µm)、i-CAT Next Generation(430µm)和标准分辨率MSCT(510µm)。ProMax 3D Max皮质厚度(Ct.Th)的低估(-l0µm)、Newtom GiANO(10µm)和高分辨率MSCT(10µm)的高估可忽略不计。然而,3D Accuitomo 170(110µm)、Scanora 3D(140µm)、标准分辨率MSCT(150µm)、Carestream 9300(190µm)、Cranex 3D(190µm)和i-CAT Next Generation(230µm)存在显著高估(P<0.05)。二维网络和三维表面距离的比较证实了骨量的高估,但仅显示i-CAT Next Generation和标准分辨率MSCT的小梁网络存在偏差。组内相关系数(ICC)显示,在微型计算机断层扫描和市售CBCT扫描仪(3D Accuitomo l70、Newtom GiANO和ProMax 3D Max)之间的形态计量评估中,观察者间可靠性显著较高(P<0.05,ICC>0.70)。Tb.Th和Ct.Th的ICC分别为0.72和0.98(3D Accuitomo 170)、0.71和0.96(Newtom GiANO)以及0.87和0.92(ProMax 3D Max)。
高分辨率CBCT为MSCT提供了一种临床替代方法,可在植入物植入前客观确定骨质量。然而,并非所有测试的CBCT机器都具有足够的分辨率来准确描绘小梁网络或皮质骨。利益冲突声明:无利益冲突声明。
奖学金支持来自比利时政府的弗拉芒研究基金会(FWO)、巴西政府的高等教育人员改进协调计划(CAPES)和无国界科学计划。
