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1.
In hard cortical bone this process of replacement is considerably slower than in spongy or cancellous bone.
坚硬的皮质骨的替代过程大大慢于海绵骨或松质骨。
2.
This fauna is associated with Foraminifera, sponge spicules and Brachiopoda et al.
伴生生物有有孔虫、海绵骨针、腕足动物等。
3.
GLAUCONITIZED SPONGE SPICULES FROM THE YELI FORMATION AT THE DAYANGCHA CAMBRIAN-ORDOVICIAN BOUNDARY SECTION,JILIN
吉林大阳岔寒武系-奥陶系界线剖面冶里组海绿石化海绵骨针化石
4.
The Classification and Evolvement of Siliceous Spicules and the Cause of the Extinction during the End-Permian
华南二叠纪末硅质海绵骨针分类、演化及灭绝原因
5.
"An external layer of compact Bone surrounds a central area of spongy Bone, except at the marrow cavity."
骨的外层为质密的骨皮质,包围着海绵状骨松质中心区(不算骨髓腔)。
6.
The Effects of Collagen Sponge on Mandibular Distraction Osteogenesis in Goat Model;
胶原海绵在山羊下颌骨牵引成骨中早期成骨作用的实验研究
7.
Experimental study of material characteristics of collagen typeⅡ and its repairing efficacy to cartilage defect
Ⅱ型胶原海绵的材料特性及对软骨缺损的影响
8.
Research on The Bone Nutritional Condition of Grazing Sheep in The Region around Qinghai Lake
青海环湖地区放牧绵羊骨营养状况的研究
9.
sponges with 6-rayed siliceous spicules; choanocytes are restricted to finger-shaped chambers.
包含有六道边花硅质骨针的海绵;环细胞限于指状室中。
10.
A Primary Study on Absorbable Gelatin Sponge Combined with Cultured Bone Mesenchymal Stem Cells in Vitro;
骨髓间充质干细胞与可吸收明胶海绵体外复合生长的初步研究
11.
Biocompatibility of absorbable gelatin sponge as bone mesenchymal stem cells scaffold
可吸收明胶海绵载体与骨髓间充质干细胞的相容性
12.
Sponge titanium
GB/T2524-1981海绵钛
13.
sponge platinum
GB/T1419-1989海绵铂
14.
deep-water marine sponge having a cylindrical skeleton of intricate glassy latticework; East Indian and East Asian coast.
深水中的海生海绵,由复杂的玻璃状网格的柱状骨骼;产于印度东部和亚洲东部的沿海。
15.
Study on repair of radial defects using rabbit bone marrow mesenchymal stem cells mixed with collagen sponge
同种异体骨髓间充质干细胞复合胶原海绵修复兔桡骨缺损的实验研究
16.
The digestive cavity in the body of a sponge.
海绵的体腔海绵体内的消化腔
17.
Microanatomy of Cavernous Sinus and Surgical Treatment of Cavernous Sinus Hemangioma;
海绵窦显微解剖与海绵窦海绵状血管瘤的显微手术治疗
18.
Experimental Study of the Biomechanics and Related Research in the Surface of a New Type Prosthesis (Titanium-Sponge Sinterring);
钛—海绵烧结法处理的人工关节假体多孔表面—骨界面的组织学和生物力学相关研究