类同轴成像大鼠股骨头关节软骨及骨小梁结构清楚。
With in-line holography imaging, the articular cartilage and trabecular bone of the femoral head could also be imaged.
后者除骨小梁数量减少、变细等改变外,骨小梁结构显著退变。
Besides trabecular number was decreased and they became thin, the trabecular structure decline...
病理检测表明,密骨颗粒能改善模型小鼠骨小梁结构,大剂量组改善明显,未见骨小梁缺损和破坏。
Migu granule could also improve the structure of bone trabecula. The high dose group improved remarkably as the defect and lesion of bone trabecula were not observed.
结果显示周围神经功能性电刺激可以提高骨小梁面积百分率,改善骨小梁结构,但仍维持原有的高骨转换率。
Results: Functional electrical stimulation on peripheral nerve can improve area percent and the structure of bone trabecula while bone metabolism sustained at high level.
由于其具有天然的骨小梁结构,可降解,无免疫原性,是骨组织工程比较理想的支架材料,因此越来越受到重视。
It exhibits excellent biocompatibility, possesses a natural trabecular structure, biodegradability, no immunogenicity, so TBC is a ideal extracellular matrix material in bone tissue engineering.
本文介绍一种以计算机图像处理为手段,对骨小梁的二维结构进行形态计量学分析的方法。
An Computer - aided - image - processing method for the Two dimensional analysis of trabecular bone structure was given.
还能明显改善骨显微结构的病理变化,使骨小梁厚度(高剂量)明显增加(P<0.05),骨小梁间隙和骨髓腔明显缩小(P<0.05)。
KGS could also improve the pathological changes in microstructure of bone, increase the thickness of trabecula and cortex (P <0.05) , reduce the trabecular gap and bone marrow cavity (P<0 . 05) .
本研究表明,心室小梁不仅是一种有规律排列的结构,而且与肌性室间隔的形成有关。
This study suggests that the ventricular trabeculae are not only highly organized structures, but also contribute to formation of the muscular ventricular septum.
只见纤维结缔组织结构,未见小梁者15眼。
In the other 15 samples trabecular tissues were not found, only fibrous connective tissue structure.
目前常用的骨质疏松评价指标包括骨密度、骨代谢生化指标、骨生物力学强度及骨小梁显微结构。
The most widely used parameters of osteoporosis include bone mineral density, biochemical markers of bone metabolism, biomechanical properties and the microarchitecture of bone trabecula.
结果:模型组大鼠胫骨骺板变薄,骨小梁裂纹、断裂者较多,网状结构破坏。
Result:The model group rats bone epiphysis were thinner, the trabecular cracks were more numerous and the net-structure was destroyed.
结论在微骨痂修复微破裂过程中可能存在一种“超微小梁”结构,这种结构对于受损骨小梁承受应力以及修复均有利。
Conclusions a kind of structure named ultra-trabeculae might appear during the healing process of microcracks which is beneficial to bear loading and repair the damaged trabeculae.
在生理结构上,松质骨由骨小梁构成的骨架结构和充满于该结构之间的组织液组成。
The physiological structure of cancellous bone is composed of the trabeculae architecture and the tissue fluid which is full of the porous skeleton.
骨小梁间距是评价松质骨微结构状况的主要参数之一。
Mean trabecular spacing is one of the most important parameters to estimate the microstructure of cancellous bone.
诱导后晚期的模型眼前房角胶原增生,结构破坏。结论复方卡波姆诱导的兔眼慢性高眼压模型房水流出受阻的主要部位在小梁内皮网部。
Conclusions the obstruction of aqueous humor outflow induced by compound Carbomer in rabbit high IOP model is caused mainly by the changes in trabecular endothelial cells.
重建后的松质骨三维立体图像呈均匀、致密的立体网状结构,骨小梁连接清晰可见。
The 3D images of trabecular structure of cancellous bone after reconstruction were displayed with peculiarity of uniformity a nd solid reticulation.
本文对7例正常人眼前房角小梁网进行了组织化学——酸性粘多糖及超微结构的研究。
Histochemical and ultrastructural studies of the trabecular meshwork(TM)of 7 normal human eyes were carried out.
应力性骨小梁后组表观结构参数两组比较差异无显著性意义(P > 0.05)。
There were no significant differences in trabecular structural parameters from posterior part of stress trabecular area between two groups (P > 0.05).
卵巢切除后骨小梁穿孔、断裂多见于水平骨小梁,骨小梁网状结构4周时完整,第8周和第12周后逐渐被破坏,12周最严重;
After ovariectomy, the transverse trabecular was easier to be perforated and broken; the trabecular network was almost intact at 4 weeks, but gradually damaged at weeks 8 and 12;
卵巢切除后骨小梁穿孔、断裂多见于水平骨小梁,骨小梁网状结构4周时完整,第8周和第12周后逐渐被破坏,12周最严重;
After ovariectomy, the transverse trabecular was easier to be perforated and broken; the trabecular network was almost intact at 4 weeks, but gradually damaged at weeks 8 and 12;
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