鼻部的组织和软骨结构太软,无法形成化石。
The tissue and cartilage of a nose are too soft to fossilize.
会厌是叶子形状的软骨结构位于舌头的舌骨和根。
The epiglottis is a leaf shaped cartilaginous structure located behind the hyoid bone and root of the tongue.
目的探讨离心力对软骨细胞功能表达和组织工程软骨结构的影响。
Objective To study the effect of the centrifugal force on the functional expression of chondrocytes and the structural arrange of tissue engineering cartilage.
结果:MRI对剥脱性骨软骨炎分期的符合率为81 3 % ,病变骨剥离程度和覆盖软骨结构的完整性是分期的主要依据。
Results: The accuracy of MRI stage was 81.3%. The important signs for stage were integrality of overlying cartilage and sunken extent of osseous lesion.
按照BMI分组时,T2值的差别反映了髌股关节炎时髌软骨结构成分改变程度,提示BMI可能是引起T2值增加的潜在因素。
T2 values with BMI signify structural changes of patellar cartilage, and BMI may be a potential factor for an increase of T2 values.
组织工程可能最终能应用于各种组织的重建,如肝、小肠、心血管结构、神经和软骨。
Tissue engineering may eventually be applied to the regeneration of diverse tissues such as the liver, small intestine, cardiovascular structures, nerve, and cartilage.
所有这些软骨均由连续的软骨膜连接到一起,它提供了软骨的稳定性,也是它们能作为一个单一的结构和功能单位的原因。
All of these cartilages are bound together by a continuous perichondrium, which gives stability to the cartilages and causes them to act as a single structural and functional unit.
为关节软骨组织的结构和功能,氨基葡萄糖是必要的。
Glucosamine is necessary in the body for the structure and function of the articular cartilage.
胶原蛋白是一种结构蛋白在软骨和肌腱发现,它有助于支持血管。
Collagen is a structural protein found in cartilage and tendons, and it helps to support blood vessels.
术后18周可见具有过渡结构的纤维软骨带。
The fibrous cartilage zones had a transition structure at 18 weeks.
目的:研究骨骺软骨管的形态结构。
Objective: To study morphological structure of cartilage canals of epiphysis .
他们发现高级结构,特别是原始人的,与大量的会厌软骨是被摆动的软颚所覆盖。
They found the superior structures (aditus laryngis) particularly primitive, with a voluminous epiglottis covered by the pendular velum.
结果确定了生物反应器的内腔结构,生物反应器由控制系统和细胞培养室两部分构成,能置于培养箱中对软骨细胞材料复合物进行动态培养。
Results We optimized the bioreactor configuration and bioreactor compose of control system and culture chamber. Bioreactor can be put into incubator and culture cartilage by dynamic state.
而超微结构改变以软骨细胞破碎的比较多见,有的软骨细胞则增生,基质胶原原纤维明显减少。
Many broken cartilage cells could be observed and matrix collagenous fibril decreases obviously, but some cartilage cells proliferated.
结果确定了,生物反应器的内腔结构。生物反应器由控制系统和细胞培养室两部分构成,能置于培养箱中对软骨细胞材料复合物进行动态培养。
Results We optimized the bioreactor configuration and bioreactor compose of control system and culture chamber. Bioreactor can be put into incubator and culture cartilage by dynamic stale.
在高剂量组子鼠的上肢骨切片中可见软骨细胞和关节结构的破坏。
A damage of cartilaginous cell and joint structure of arm bone of the newborn mice was observed in high dose fluoride group.
鼻尖支架结构由下外侧软骨的内中和外侧脚构成。
The framework of the nasal tip is formed by the medial middle, and lateral crura of the lower lateral cartilages.
结论MRI能显示骨发育中软骨组织的细微结构,有助于今后研究婴幼儿和儿童的软骨疾患。
Conclusion Some minor structures in the cartilage of the developing bone can be identified on MRI, which is very helpful in the study of cartilage diseases in infants and children.
目的探索应用离心管培养技术进行体外构建组织工程化关节软骨组织的可行性,并研究其结构和功能。
Objective To explore the feasibility of tissue engineered articular cartilage constructed by the technique of centrifuge tube culture and study its structure and function.
氨基葡萄糖是主要组成部分的物质,连同蛋白的形式在软骨的结构单位。
Glucosamine is a major building block of the substances that together with protein form the structural units in cartilage.
结缔组织结构和支持,提供了许多机关的尸体,并发现皮肤,血管,骨骼,牙齿,肌腱,软骨和韧带。
Connective tissue provides structure and support to many organs in the body and is found in skin, blood vessels, bone, teeth, tendons, cartilage and ligaments.
结论离心管培养软骨具有独特的超微结构,可作为关节软骨和生长板的移植物。
Conclusion cartilage cultured in centrifuge tube has unique ultrastructure and may be used as graft materials for articular cartilage and growth plate.
结果:建立了包括膝关节所涉及的几乎所有骨骼、软骨、半月板等基本力学结构的模型,模型形态逼真,能在力学性质上很好地模拟膝关节。
Results:The model included knee bone, cartilage, meniscus and other basic mechanical structure. The shape of the model was lifelike and mechanical properties could be well simulated on the knee.
目的:探讨腰椎后上缘软骨结节(LPMN)的CT特征,及其对周围结构的影响。
Objective To explore ct characters of lumbar posterior superior marginal intraosseous cartilaginous node (LPMN) and it influence on the tissue around LPMN.
腕关节软骨板是腕关节中较为薄弱的结构,在体育运动和日常生活中,该软骨板的损伤较为多见。
The fibrocartilage of wrist joint is a weaker structure in the wrist joint, which is frequently injured in sports and daily life.
骨髓基质细胞在损伤骨骺板处形成团块状软骨,未见类似骺板结构。
Bone marrow stromal cells could only repair the epiphyseal lesion with chondrocytes, and could not reform a normal structure of epiphysis.
鼻翼软骨纤维环和鼻翼软骨肌肉环是维持外鼻下端形态和鼻孔对称的重要解剖结构。
Alar cartilaginous fibrous ring and alar cartilaginous muscular ring are very important anatomic structures to maintain the shape of the lower part of the nose.
离心管培养形成的软骨有独特的超微结构,与关节软骨及骺板有一定的相似性,而与半月板有明显区别。
Cartilage cultured in centrifuge tube has unique ultrastructure and was similar to articular chondrocyte and epiphyseal plate, but it was markedly different from meniscus.
离心管培养形成的软骨有独特的超微结构,与关节软骨及骺板有一定的相似性,而与半月板有明显区别。
Cartilage cultured in centrifuge tube has unique ultrastructure and was similar to articular chondrocyte and epiphyseal plate, but it was markedly different from meniscus.
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