目的:探讨前臂骨间膜前面尺侧的动脉分布及其与心经穴位的关系。
Objective: To study the distribution of arteries on the ulnar side of anterior surface of interosseous membrane of forearm and their relations with acupoints of cardiac channel.
各骨(长骨)骨间膜骨化及骨小梁、骨密度改变发生早、且病变程度重。
But change most early is every (long bone) interosseous membrane ossify and bony trabecula, bone density and pathological changes degree serious.
结论DRUJ的稳定性主要依靠TFCC水平部分和远侧骨间膜的维持。
Conclusions Stability of DRUJ relies mainly on the horizontal portion of TFCC and the distal interosseous membrane.
TFCC水平部及远侧骨间膜全部切除后,DRUJ于各个位置均不稳定。
After resection of entire horizontal part of TFCC and the distal interosseous membrane, DRUJ was unstable in every position.
随后,腓骨的扭转引起胫腓前韧带断裂,同时伴有骨间膜的断裂(图。2A)。
Subsequently, torsion to the fibula causes rupture of the anterior tibiofibular ligament, followed by rupture of the interosseous ligament (FIG. 2a).
合并开放性复位并侥骨头内固定及内固定远端桡尺骨关节可以使骨间膜有机会愈合,并且使前臂稳定。
The combined open reduction/internal fixation of the radial head with the closed reduction/internal fixation of the DRUJ allowed the IOM to have a chance to heal and gave stability to the forearm.
目的从应用解剖的角度研究尺、桡骨成角畸形对前臂旋转功能的影响,阐明骨间膜对前臂旋转功能的重要性。
Objective To study the forearm angulation deformities and observe its influence on the rotation function of the forearm.
骨间膜、前间隔、后间隔和肌间筋膜是各骨筋膜室的分界标志,胫前、胫后动脉和胫骨外缘、腓骨前后缘是重要定位标志。
The anterior tibial artery, the posterior tibial artery, the tibia lateral border, the fibula anterior and posterior borders were important markers of localization.
它们可以起源于软骨内骨、或者脑内的间充质细胞、脑膜、膜内成骨或者软组织。
They can also arise in endochondral bone; or primitive mesenchymal cells in the brain, meninges, membranous bone, or soft tissue.
然而,它表面自然形成的二氧化钛膜层使其呈现出生物惰性,植入人体后难以和宿主骨间形成强有力的化学键合;
However, the natural titanium oxide film formed on its surface make it bio-inert, it is difficult to achieve chemical bond with bone and form new bone on their surfaces;
然而,它表面自然形成的二氧化钛膜层使其呈现出生物惰性,植入人体后难以和宿主骨间形成强有力的化学键合;
However, the natural titanium oxide film formed on its surface make it bio-inert, it is difficult to achieve chemical bond with bone and form new bone on their surfaces;
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