Scientists have demonstrated a refined X-ray technique which can spot tiny variations in bone structures.
科学家已经证实一种精密的X光射线技术可以显示骨骼结构中细微变化。
The changes of bone structures and collagen fibers were observed with light microscope and polariscope.
以普通光镜及偏光显微镜观察骨结构及胶原纤维变化。
Localization of polynuclear osteoclasts in limb bones of ribbed newt were analyzed in consideration of calcium content in different bone structures.
本土化的多核破骨细胞在肢体骨肋蝾螈进行了分析,考虑钙含量在不同的骨骼结构。
Results bone structures in fretting areas become loose and obvious cracks could be found in both longitudinal and cross -sectional planes of the bone.
结果微动区域附近的骨组织均变疏松,纵剖面和横剖面上都存在肉眼可见的明显裂纹。
The anatomical relationships and the distance within the asterion, the anterior angle of parietomastoid sutures and the adjacent bone structures were studied with dried skulls.
在手术显微镜下观察、测量干性颅骨标本外侧面星点、顶乳突缝前角与周围解剖结构的距离及其位置关系。
Replacement can be a marvelously precise process, so that details of shell ornamentation, tree rings in wood, and delicate structures in bone are accurately preserved.
替换可能是一个令人惊叹的精确过程,因此贝壳纹饰的细节,树木的年轮和骨的微妙结构都被准确地保存。
The anatomical relationships and the distance within the asterion, the anteriorangle of parietomastoid sutures and the adjacent bone structures were studied with dried skulls.
研究干性颅骨标本外侧面星点、顶乳突缝前角与周围解剖结构的距离及其位置关系。
The company's femur implant is dense where stiffness and strength is required, but it also has strong lattice structures which would encourage the growth of bone onto the implant.
该公司研制的植入股骨头在硬度和力度需要高的地方更加坚实,但同时它也有丰富的格状结构,有利于新生骨头向植入骨头里生长。
These include structures like a wide blade at the top of the hip bone that allows for more muscle attachments to help in balancing.
这些包括在髋骨顶部的宽骨片结构,允许更多的肌肉附着于其上,帮助平衡。
In the control group, only bone -like structures were observed.
对照组则形成骨样结构。
Objective: to study the styloid of temporal bone and their relation with the surrounding structures, providing anatomic data for clinical diagnosis and treatment of belemnoid syndrome.
目的:研究颞骨茎突及其周围结构毗邻关系,为临床诊断和治疗茎突综合征提供解剖学数据。
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.
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。
There were some normal nasal structures which were susceptible to be confused with fracture, such as bone suture, internasal aperture, intersuture bone, and normal variations.
易与骨折混淆的鼻区正常结构有鼻骨缝、鼻骨孔、缝间骨及鼻骨正常变异。
Methods: The blue line of superior semicircular canal went through the mill and correlative structures were measured on 24 cases of wet cranial bone specimens(48 sides) .
方法:采用福尔马林固定的头颅标本24具(48侧),首先寻找弓状隆起并磨出上半规管蓝线,进一步测量其与内耳道及相关结构的位置关系。
Arrow basket, bone basket, drying rack and skull light can now be nested with dynamic structures (ie: houseboat).
箭头的篮子,篮子和颅骨骨,架光干燥现在可以嵌套的动态结构(即:游艇)。
Careful microsurgical surgery is required to avoid damage to the important structures locateded in the sella region. Reconstruction of the skull base is needed in patients with bone destruction.
细致的显微手术可以避免损伤鞍区的重要结构,对有颅底骨质破坏者需行颅底重建;
Tumors affect nearby bone and invade almost all orbital structures, including: globe, extraocular muscles, optic nerve sheath, and branches of sensory nerves.
肿瘤影响邻近骨骼并侵犯几乎所有眼眶结构:眼球,眼外肌,视神经鞘以及感觉神经分支。
This paper research on moving verbs?sentence structures in Oracle-bone scripture and compare them with those structures in books before Qin Dynasty.
主要探讨了甲骨文中表示位置移动的动词的句型结构及分布情况,进而与先秦典籍进行对比,指出了它们之间的传承关系。
Streak-like occur most frequently in the bony structures at the base of the skull and the petrous bone region.
条状伪影最常发生在头骨和太阳穴的多骨结构。
Stem cells were used to create fragments of jaw bones, which were transplanted in rats. Five months later, the structures had formed vascularized bone tissue.
干细胞创造出来的颌骨也被移植到了老鼠身上,五个月后,这些结构形成了血管骨组织。
Shape and margin: Most tumors had an irregular shape with obscure margin, infiltrating around the structures of the eyeball, lacrimal gland, extraocular muscle, optic nerve and (or) bone.
形态边缘:肿瘤形态多不规则,边缘呈浸润状,沿眼球壁、泪腺、视神经、眼外肌、眶隔或眶壁蔓延生长。
To show its power, the scientists printed a jaw bone, muscle, and cartilage structures, as well as a stunningly accurate human ear.
为了展现这一技术的能力,科学家们打印了颌骨、肌肉、软骨组织和人耳进行实验。
To show its power, the scientists printed a jaw bone, muscle, and cartilage structures, as well as a stunningly accurate human ear.
为了展现这一技术的能力,科学家们打印了颌骨、肌肉、软骨组织和人耳进行实验。
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