目的:制备猪源性骨支架材料,并与人源性骨支架材料对比检测其理化性能和组织相容性。
Objective: To prepare pig bone carrier and explore its properties and biocompatibility by comparing it with human bone carrier.
骨组织吸收骨组织分解和吸收的过程。
随着骨组织工程学的出现,提出了一种治疗骨缺损新的思路和方法。
Along with the tissue engineering appearance, proposed one kind of treatment bone damage new mentality and the method.
有肾脏病变或血管病变的患者发生软组织和骨并发症包括延迟愈合和骨不连接的风险增加。
Patients with neuropathy or vasculopathy are at increased risk for both soft-tissue and osseous complications, including delayed union and nonunion.
同其他常规武器相比,肢体爆炸伤不仅在局部造成大面积皮肤软组织缺损,而且创面污染严重,往往还合并骨外露和骨缺损。
Compaired with the general weapon, the explosive weapon can cause not only bigger defects of soft tissue with severe contamination, but also bone defects or bone exposure in limb injury.
力学负荷可促进骨组织生长发育,维持骨结构的完整性和功能。
Mechanical loading can promote bone-tissue growth and develop, sustain the integrity of structure and funtion of bone.
结论:活性骨组织在体外具有调节和促进同种成骨细胞黏附特性的作用,用三蒸水浸泡的活性骨组织的作用最强。
CONCLUSION: Living bone tissue can regulate and improve the adhesion characteristics of osteoblast, with the strongest effect when dipped in the tri-distilled water.
羟基磷灰石(HAP)是一种生物相容性优良的骨修复和替换材料,植入生物体后可以与生物骨结合为一体,但陶瓷的脆性限制了其在骨组织替换中的应用。
HAP is a good type of biomedical material, which can form a bond with the neighboring bone after planted in the human body, but the brittleness of the ceramic limits it's use.
AMG 162是以静脉注射给药,它的起效机理在于抑制骨母细胞的活性,骨母细胞主要吸收和消除陈骨并给新骨组织腾出空间。
The injectable treatment, called AMG 162, works by suppressing the activity of osteoclasts, the cells involved in absorbing and removing old bone so that new bone tissue can take its place.
结论溶骨性骨破坏和巨大软组织肿块是骨原始神经外胚叶肿瘤的常见影像学表现,病灶内钙化和局部淋巴结肿大少见。
Conclusion The osteolytic lesion and a large soft tissue mass are common radiological appearances of bone PNETs and calcification and regional lymphadenopathy are rarely seen.
材料和方法:对48例核素骨显像检查发现肋骨病变的肿瘤患者,再行DE骨组织像判定其性质(转移性或非转移性)。
Materials and Methods: 48 cases with tumor were examined with bone scintigraphy. After rib lesion was found, DE were done to judge the quality of rib lesion (metastasis or non-metastasis).
目的:研究使用牙支抗式牵张器行上颌骨牵张成骨术后牙髓和牙周的组织学改变。
AIM: to observe the changes in dental pulp and periodontal tissues under the application of distraction osteogenesis using tooth-attached intraoral distracter.
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.
结论双相接种法是一种高效的组织工程骨构建方法,有利于提高接种效率和促进组织工程骨的体外成熟。
Conclusions Biphasic seeding is an effective method for fabricating tissue-engineered bone, can improve the seeding efficiency and facilitate in vitro maturation of the tissue-engineered bone.
目的探索骨组织在微动过程中裂纹产生和扩展的原因及过程,弄清假体-骨组织界面微动磨损的机理。
Objective To investigate the cause and process of crack generation and propagation in fretting wear of bone and to study the fretting wear mechanism between prostheses and bones.
结论:补肾壮骨中药可能通过抑制骨吸收,促进骨组织形成的作用预防和治疗骨质疏松症。
CONCLUSION: Chinese herbs of kidney-reinforcing and bone-strengthening can promote the formation of bone tissue, prevent and cure the osteoporosis by suppressing the bone absorption.
目的:应用自行设计的微创植骨器进行微创植骨术修复骨缺损的生物力学和组织学观察。
AIM to observe the biomechanics and histology of minimally invasive bone grafting in the plerosis of bone defects with self-made minimally invasive bone grafting instrument.
组织学可见实验侧早期有软骨形成和软骨内成骨,只是在4周以后不再有软骨形成及软骨内成骨。
Cartilage formation and endochondral ossification were found in test sides at an earlier stage, which stopped after 4 weeks postoperatively.
结果丛状骨和骨单位带在猪、牛、羊、狗的密质骨中广泛存在,人骨组织中几乎不见;
Results Plexiform bone and osteon banding were mostly observed in nonhuman bones, whereas rarely in human bones.
在松质骨区,雌激素组和假手术组结合骨板较厚,种植体周围骨小梁及种植体与骨组织的接触均多于卵巢切除组。
In cancellous bone area, the interface bone lamella was thin, the density of trabecular bone and contact of new bone with implants were less in ovariectomized group compared with other two groups.
目的研究使用牙附着式牵张器行上颌牙槽骨牵张成骨术后牙髓和牙周的组织学改变。
Objective to observe the changes in dental pulp and periodontal tissues under the application of maxillary tooth-bone distraction osteogenesis using tooth-attached intraoral distractor.
构成骨组织之一的矿物化骨状组织,即骨组织,它使骨具备了硬性和蜂窝样三维结构。
One of the types of tissues that makes up bone is the mineralized osseous tissue, also called bone tissue, that gives it rigidity and honeycomb-like three-dimensional internal structure.
结论骨形态蛋白复合物联合gtr技术修复牙周骨缺损,与传统的GTR术和牙周翻瓣术相比,更能有效促进牙周骨组织再生与修复。
Conclusion Combination of bone morphogenetic protein complex with GTR was more effective than GTR only or OFD in the repair of periodontal bone defects.
结论同种异体msc移植后可长期存活于骨髓和新骨组织并保存成骨特性。
Conclusion After transplantation, allogeneic MSCs have a long-term surviving in marrow and new bone tissue and maintain the characteristic of ossification.
电学环境是骨组织所处的重要微环境之一,外加电磁场对骨组织和成骨细胞有重要作用。
The electrical environment is one of the most important micro environment in which bone tissue exists.
目的通过引导性骨再生和组织工程软骨移植研究长骨骨缺损的修复机制。
Objective Study the mechanism of the healing of bone defect after transplantation of the tissue-engineered cartilage into the bone defects and with guided bone regeneration tubes.
从组织工程骨的预制、血管化及预制骨骨缺损修复作用三个方面对组织工程化骨预制技术研究的现状和发展趋势进行了回顾和展望。
We review and preview the status quo and tendency of tissue engineering bone prefabrication from bone prefabrication, vascularization and the reconstruction action of bone defect.
组织工程骨的研究为解决大块骨组织缺损修复提供了新思路和新方法。
The research of bone tissue engineering provides new thought and method to repair mass bone defect.
结论:离散的牙源性细胞在颌骨内可形成牙本质和骨组织样结构。
CONCLUSION: These data show for the first time the formation of dentin and bone from dissociated odontogenic cells in the canine jaw.
结论:离散的牙源性细胞在颌骨内可形成牙本质和骨组织样结构。
CONCLUSION: These data show for the first time the formation of dentin and bone from dissociated odontogenic cells in the canine jaw.
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