Department of Anatomy & Cell Biology, University of Saskatchewan, Saskatoon, Canada.
Bone. 2013 Jan;52(1):126-32. doi: 10.1016/j.bone.2012.09.010. Epub 2012 Sep 17.
In recent years there has been growing interest in the spatial properties of osteocytes (including density and morphology) and how these potentially relate to adaptation, disease and aging. This interest has, in part, arisen from the availability of increasingly high-resolution 3D imaging modalities such as synchrotron radiation (SR) micro-CT. As resolution increases, field of view generally decreases. Thus, while increasingly detailed spatial information is obtained, it is unclear how representative this information is of the skeleton or even the isolated bone. The purpose of this research was to describe the variation in osteocyte lacunar density, morphology and orientation within the femur from a healthy young male human. Multiple anterior, posterior, medial and lateral blocks (2 mm × 2 mm) were prepared from the proximal femoral shaft and SR micro-CT imaged at the Advanced Photon Source. Average lacunar densities (± standard deviation) from the anterior, posterior, medial and lateral regions were 27,169 ± 1935, 26,3643 ± 1262, 37,521 ± 6416 and 33,972 ± 2513 lacunae per mm(3) of bone tissue, respectively. These values were significantly different between the medial and both the anterior and posterior regions (p<0.05). The density of the combined anterior and posterior regions was also significantly lower (p=0.001) than the density of the combined medial and lateral regions. Although no difference was found in predominant orientation, shape differences were found; with the combined anterior and posterior regions having more elongated (p=0.004) and flattened (p=0.045) lacunae, than those of the medial and lateral regions. This study reveals variation in osteocyte lacunar density and morphology within the cross-section of a single bone and that this variation can be considerable (up to 30% difference in density between regions). The underlying functional significance of the observed variation in lacunar density likely relates to localized variations in loading conditions as the pattern corresponds well with mechanical axes. Lower density and more elongate shapes being associated with the antero-posterior oriented neutral axis. Our findings demonstrate that the functional and pathological interpretations that are increasingly being drawn from high resolution imaging of osteocyte lacunae need to be better situated within the broader context of normal variation, including that which occurs even within a single skeletal element.
近年来,人们对骨细胞的空间特性(包括密度和形态)以及这些特性如何与适应、疾病和衰老相关产生了越来越大的兴趣。这种兴趣的部分原因是由于越来越多的高分辨率 3D 成像方式(如同步辐射微 CT)的可用性。随着分辨率的提高,视野通常会减小。因此,尽管获得了越来越详细的空间信息,但尚不清楚这些信息在多大程度上代表骨骼,甚至是孤立的骨骼。本研究旨在描述来自健康年轻男性股骨中骨细胞陷窝密度、形态和方向的变化。从股骨近端干骨制备多个前、后、内和外侧块(2mm×2mm),并在高级光子源进行同步辐射微 CT 成像。前、后、内和外侧区域的平均陷窝密度(±标准偏差)分别为 27169±1935、263643±1262、37521±6416 和 33972±2513 个陷窝/mm(3)的骨组织。内侧区域与前、后区域之间的这些值差异显著(p<0.05)。联合前、后区域的密度也明显低于(p=0.001)联合内、外侧区域的密度。尽管在主要方向上没有发现差异,但发现了形状差异;与前、后区域相比,联合前、后区域的陷窝更细长(p=0.004)和更扁平(p=0.045)。本研究揭示了单个骨骼横截面上骨细胞陷窝密度和形态的变化,并且这种变化可能相当大(密度在区域之间的差异高达 30%)。观察到的陷窝密度变化的潜在功能意义可能与局部载荷条件的变化有关,因为该模式与机械轴很好地对应。较低的密度和更细长的形状与前-后向中立轴相关。我们的发现表明,越来越多地从骨细胞陷窝的高分辨率成像中得出的功能和病理解释需要更好地置于正常变化的更广泛背景下,包括即使在单个骨骼元素中也会发生的变化。
