TCP ceramics have been widely used into clinical as the bone-repair and bone-substitute material.
TCP陶瓷作为骨修复、骨替代材料已广泛应用于临床。
At present, more and more patients suffer from bone defects caused by trauma, tumor and bone diseases, which is still a big challenge on the bone-repair therapies of bone defects.
目前因创伤、肿瘤或骨病等原因造成骨缺损的病人越来越多。临床上对大范围骨缺损的修复治疗仍是一个难题。
Ideal bone-repair materials should be of good biocompatibility and high bioactivity. Besides, their mechanical properties should be equivalent to or better than those of natural bone.
理想的骨修复材料,应当具有良好的生物相容性和高的生物活性,其力学性能与天然骨相当或稍优于天然骨。
And if you hurt yourself, billions more cells spring up to repair broken blood vessels and make new skin, muscle or even bone.
一旦受伤,超过十亿数量的细胞就会冒出来,修复受损的血管,生成新的皮肤、肌肉乃至骨骼。
The products are used now to generate artificial skin, dura grafts, tendon repair, nerve repair, bone repair and a few other areas.
这些产品现在应用于人造皮肤,硬脑膜移植,肌腱修复,神经修复,骨修复等等领域。
Autologous stem cell transplant is a procedure using a patient's own bone marrow that is designed to repair damaged bone marrow after the use of high chemotherapy doses.
自身干细胞移植是用患者自身骨髓的方法被设计修复高剂量化疗损伤骨髓。
"There is a compound in traditional Chinese herbs that can stimulate fracture repair," o 'keefe says. "it alters a signaling pathway well known to regulate bone formation."
“中草药中有一种化合物可以刺激骨折处修复,”OKeefe说,“它能开启一条修复骨骼信息的信号通路”。
Therefore it is the main object for many scholars to search for other live transplantation materials to repair bone defect.
因此,寻找其它有生物活性的移植材料,修复骨缺损是不少学者探索的主要目标。
It is the nature of these inducing agents within bone grafts that have led researchers to search for the biologic modifiers in grafts that encourage defect repair.
就是这些骨移植物中具有诱导剂性质的成分,指引着研究者去寻找移植物中可以促进缺损修复的生物改性剂。
Reconstruction may include the use of bone grafts, taking bone from other parts of the body to repair the facial bones, or fill in smaller areas of missing bone with prosthetic materials and implants.
对于MMA斗士的面部整形包括对骨折的接骨,从身体其它部位取骨的骨骼移植,和用人造材料对骨骼缺失部位进行填充。
Bone morphogenetic proteins can enhance the cartilage repair, and may be important in the future for cartilage defect.
骨形态发生蛋白可促进软骨生成和修复,在关节软骨修复上有着很好的前景。
The research of new materials and techniques repair defect and deformity of bone tissue, which caused by various disease, is an important challenge in life science and biomaterial science.
纳米材料与纳米技术为寻求修复各种原因引起的骨组织缺损、畸形的新型材料和技术起了很大的推动作用。
Methods Analysis retrospectively the clinical data that vascularized flap or musculocutaneous flap or muscle flap or bone flap to repair tissue defect in ankle or foot had been performed.
方法回顾性分析应用带血管蒂(肌)皮瓣、骨瓣等组织瓣移植修复踝足部组织缺损的临床资料。
The composite can be used to repair bone defection near by articular facet so as to prevent from articular degeneration.
用其修复靠近关节面附近骨缺损可有效的防止关节的退行性变。
Around 1000 patients have been treated in approximately 20 trials worldwide, mostly using bone marrow stem cells or derivatives of bone marrow cells to repair damage caused by heart attack.
在世界范围内大约20个实验中约1000例患者接受治疗,大多数使用骨髓干细胞或骨髓细胞衍生物来修复心脏病导致的损害。
Objective To explore a new method of cranioplasty to repair large-format bone defect.
目的探求一种新的大面积颅骨缺损的修复方法。
In the final phase, graft repair and remodeling occurs, a process which differs in cortical and cancellous bone regions.
最后一个阶段,也就是修复与重建的发生,这一过程在皮质骨与松质骨部分是不同的。
PURPOSE: To evaluate the changes of transplanted bones after cancellous iliac bone grafting in cleft alveolar repair in various ages.
目的:评价在不同年龄阶段髂骨松质骨移植修复牙槽嵴裂术后植入骨的变化情况。
Objective To report clinical application of iliac cancellous bone grafting in alveolar cleft repair.
目的报告自体髂骨松质骨修复牙槽突裂的临床应用。
The research achievements of the tissue engineering study will provide engineered tissues for clinical medicines, and repair bone defect, reconstruct or improve the tissues and organs.
组织工程学的研究成果将会为临床医学提供工程化组织,以修复组织缺损,重建或改善组织、器官功能。
Researchers have developed improved methods to repair bone that supports the teeth.
研究人员已经找出了修复支撑牙齿的骨骼的方法。
We think that the ideal bone repair material should be a composite of some kinds of biomaterials, which is similar to human bone tissue.
作者认为,将几类生物材料复合加工,研制出类似于人体骨组织的材料,将是今后骨修复材料的发展趋势。
Conclusion: 1. Seram BGP reflects the activity of osteoblasts in early bone repair.
从而我们得出结论:(1)骨钙素反映了骨修复早期成骨细胞活动功能。
Conclusion PCL possesses good biocompatibility and high bone inductive potentiality, it can be used to repair bone defect.
结论P CL材料具有良好的生物相容性、缓慢降解和骨引导能力,可修复骨缺损。
Applying vascularized bone graft to repair local bone defect after resection of tumor can make bone recovery rapid and success rate high.
应用显微骨移植修复瘤切除后所遗局部骨缺损,具有骨愈合快、成功率高的优点。
This article introduced the present status of studies and applications of bone repair materials , such as bioceramics , collagen , deminerized bone matrix, synthetic materials.
本文综述了生物陶瓷、胶原、脱钙骨、合成聚合物等骨修复材料的研究和应用现状。
Three types of bone calli were observed in different phases during the bone repair: 1 trabeculae with coarse woven fibers, 2 trabeculae with fine parallel fibers, and 3 the mixed type.
在骨折修复过程中,不同时期内可以见到三种不同的骨痴:(1)粗纤维编织状骨,(2)细纤维板层状骨,以及(3)混合性骨小梁。
The material with excellent biocompatibility, which is the key to clinical applications, is a popular topic among the bone repair materials.
近年来,如何制备出生物相容性良好的材料是骨修复材料研究的重点内容,也是决定是否能应用于临床的重要因素之一。
Objective: To evaluate the value of multiphase bone imaging in the transplantation and repair of bone defect.
目的:评价放射性核素三相骨显像在骨缺缺损移植修复过程中的价值。
Objective: To evaluate the value of multiphase bone imaging in the transplantation and repair of bone defect.
目的:评价放射性核素三相骨显像在骨缺缺损移植修复过程中的价值。
应用推荐