但是对大部分人来说,受骨骼结构和肌肉韧带牵制的影响,我们的大腿旋转不了那么多。
For many of us, though, the thigh cannot turn out that much, either because of its bone structure or because tight muscles and ligaments inhibit its movement.
这些细胞长成后,研究人员发现它们的结构已经分化成熟为各种成分并形成了牙本质、釉质、牙髓、血管及牙周韧带。
After growing them they found their structures had matured into the components that make teeth including dentin enamel dental pulp blood vessels and periodontal ligaments.
这些细胞长成后,研究人员发现它们的结构已经分化成熟为各种成分并形成了牙本质、釉质、牙髓、血管及牙周韧带。
After growing them, they found their structures had matured into the components that make teeth, including dentin, enamel, dental pulp, blood vessels, and periodontal ligaments.
与此相反,结构按摩包括确定和具体疼痛相关的“软组织”(如肌肉和韧带)为重点。
By contrast, structural massage involves identifying and focusing on specific pain-related "soft tissues" (like muscles and ligaments).
重建后的韧带并不能恢复正常的超微结构、解剖学特征和生物力学性能。
Graft could not recovery the ultrastructure, anatomy and biomechanics of the normal ligament.
方法:十六具人尸体颈椎标本,剥离软组织,保留颅骨和完整的韧带结构。
Methods. Sixteen human cadaveric cervical spines were stripped of soft tissue leaving the occiput and ligamentous structures intact.
外侧支持结构的损伤包括腓侧副韧带、髂胫束、股二头肌、腘肌腱也可用MRI描述。
Injuries of the lateral supporting structures, including the fibular collateral ligament, iliotibial band, biceps femoris, and popliteus tendon, also are depicted with MRI.
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.
目的探讨髌下结构(髌韧带及其周围结构)损伤的新的治疗方法。
Objective To discuss a new method of curing the damnification at infrapatellar structure (patellar ligament and the structure around it).
韧带结构色的发现为宝石的颜色成因及光子带隙材料等研究提供了新的思路。
The finding of structural color of ligament provides new insights on the studies about origin of gem colors and photonic band gap materials.
目的:观察实验性近视中悬韧带超微结构的改变。
Objective: To observe the lens zonule infrastructure changes in experimental myopia.
方法对27例急性膝关节后外侧韧带结构损伤的患者,根据不同损伤类型分别进行修复或重建。
Methods 27 cases of acute posterolateral corner injury of the knee were treated by either repair or reconstruction, according to the type of injury.
结论对踝关节骨折伴下胫腓韧带分离的患者在治疗骨折的同时注意修补下胫腓韧带以恢复正常踝穴结构,避免创伤性骨关节炎发生。
Conclusion To fix the fracture and repair the inferior tibiofibular ligament would restore the structure of malleolar cave and avoid the occurrence of traumatic osteoarthritis.
目的:观察人类项韧带的精细解剖结构及形态。
AIM: to observe the fine anatomic structure and the structural status of the human nuchal ligament.
前交叉韧带(ACL)位于膝关节内,是膝关节内的核心结构。
Anterior cruciate ligament (ACL) locates in the articular genu, and is the core texture of articular genu.
P 45生物塑化薄片技术的应用使项韧带精细解剖结构的全貌更直观。
The adoption of P45 sheet plastination technique makes the complete appearance of the fine anatomic structure of human nuchal ligament more obvious.
结论:肘关节内侧副韧带前束是肘关节内侧稳定的主要结构,临床上当肘关节内侧副韧带损伤时应重点修复或重建前束以稳定肘关节。
Conclusion: the anterior bundle of UCL of the elbow is the primary restraint to valgus stress and should be the focus of repairing or reconstructive operation.
目的探讨多孔性三维立体结构生物材料—重组和异种骨(RBX)在运动性前交叉韧带断裂后进行重建过程中的应用效果。
Objective To investigate the effect of recombined bone xenografts(RBX) on the healing of tendon to bone through the way of imageology, histology.
任何产生痛的结构都可以引起腰痛,这些异常包括椎间关节韧带、肌肉、筋膜和神经结构。
These may include abnormalities of the ligaments of the apophyseal joints, muscles and fascia, as well as neural structures.
目的探讨保留棘突韧带复合结构椎管潜行减压治疗退变性腰椎管狭窄症的疗效。
Conclusion Decompressive laminectomy could reduce the pressure of lumbar spinal stenosis and improve the stability of lumbar vertebrae.
板股韧带在矢状像上表现为位于后交叉韧带前或后方的类圆形或短棒状低信号结构,而在冠状像上表现为自外侧半月板后角至股骨内侧髁外侧面的条带样低信号结构。
Nevertheless, a belt-shaped area of low signal intensity from the posterior horn of the lateral meniscus to lateral facet of the medial femoral condyle was identified in the coronal plane.
韧带是一种纤维状结构,把关节的两端连在一起。
Ligaments are fibrous structures that hold the bones together on each side of the joint, like stout pieces of tape.
颈椎在各个方向上有很大范围的活动度,这是由肌肉、韧带、肌腱等复杂的结构来支持的。
The cervical spine has a wide range of motion in all directions. This motion is supported by a complex structure of muscles, ligaments, and tendons.
韧带结构色的发现为宝石的颜色成因及光子带隙材料等研究提供了新的思路。
The finding of structural color of ligament provides new insights on the studies about origin of gem colors and photonic band gap mater...
本文根据踝关节生理结构,分析了踝关节损伤的实质。踝关节损伤是踝关节各韧带损伤及导致系列病症的总称。造成踝关节损伤的原因是踝关节受弯、扭力矩太大或来不及缓冲。
According to the physiological structure of the ankle and the principle of the ankle injury, the author analyzes the essence of ankle injury and its causes in the basketball playing.
结果证实,同种异体肌腱重建膝关节后交叉韧带并后外侧复合体损伤不损伤正常的自身结构,修复效果满意。
The results confirmed that the tendon allograft reconstruction of PCL plus PLC injuries cannot damage the normal structure with satisfactory effects.
结果证实,同种异体肌腱重建膝关节后交叉韧带并后外侧复合体损伤不损伤正常的自身结构,修复效果满意。
The results confirmed that the tendon allograft reconstruction of PCL plus PLC injuries cannot damage the normal structure with satisfactory effects.
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