解剖显微镜

使用解剖显微镜进行检查。

Examinations were conducted by means of a dissecting microscope .

解剖显微镜下计数肺转移灶数目。

The number of black metastatic colonies in lungs were counted under a dissecting microscope .

实验方法：1.取孕14天的Wistar胎鼠，解剖显微镜下取出胚胎大鼠大脑皮层。

Methods : 1 . Brain tissues were obtained from the forebrain of embryonic day 14 Wistar rat embryos .

解剖显微镜下建立睾丸去神经支配大鼠模型，于术后1个月采用免疫组化法检测睾丸组织中Bax、Bcl-2蛋白的表达。

The animals were killed 1 month after the operation . ISH SP-method was used to detect the expression of Bax and Bcl-2 protein .

出生后1天（PND1）和PND7在解剖显微镜下测量各组雄性仔鼠肛门与外生殖器间的距离（AGD）。

On postnatal day ( PND ) 1 and PND 7 the anogenital distance ( AGD ) were measured with anatomy microscope .

用20倍解剖显微镜直接观察气管片，用秒表及两脚规测量墨汁运行速率，每次观察1min。

20-time amplification anatomy microscope was used to observe the trachea directly , and the speed of ink movement was tested with stopwatch and compasses for 1 minute .

方法：在解剖显微镜下对脑干进行解剖观察。

Methods : Totally 75 brain stems were observed and dissected with anatomic microscope .

第15天处死小鼠，解剖显微镜下计数肺转移瘤灶。

On the 15th day , the metastatic nodes on lung surface were counted by anatomical microscope .

术后4周处死动物，解剖显微镜下切取关节组织，常规处理，石蜡包埋，HE染色。

The animals were killed at 4 weeks and the craniomandibular joint tissues were excised under dissecting microscope .

在解剖显微镜下放大6&40倍观察了100侧成人的大脑后动脉及其分支。

The posterior cerebral artery and its branches were examined in 100 sides of adult brains undre 6-40x magnification .

用树脂铸型方法，在解剖显微镜及扫描电镜下，观测了大鼠上、下切牙的牙髓血管构筑。其特征为，牙髓中轴血管束由10～20支微动脉和8～12支微静脉构成；

By using replica cast SEM method , the vascular architecture of the dental pulp of rat incisors was studied .

解剖显微镜下测量喉部支架数值，光镜下观察兔喉组织结构变化。

The laryngeal anatomic numerical value was measured under dissecting microscope and the histological structure change was observed under a light microscope .

解剖显微镜下分离海马和皮质组织，分别匀浆，获得海马细胞蛋白和皮质细胞蛋白。

The hippocampus and cortex were microdissected under a dissecting microscope . The protein of hippocampus and cortex were obtained after homogenized .

于妊娠第12天取出各组胚胎，解剖显微镜下进行神经管缺陷形态学判定。

Embryos were examined on day 12 under light microscopy to look for morphological defect of the neural tube ( NTD ) .

方法：采用22只成人尸体标本，在解剖显微镜下观察舟月骨间韧带的大体形态、长度变化、与腕囊内韧带的关系和在舟月骨上的附着点的位置及宽度。

Methods : Morphological features and attachment location and width of the ligament were studied on 22 adult cadaveric wrists under anatomic microscope .

解剖显微镜下可见，大鼠下颌角下缘和下颌孔上缘有骨膜下骨吸收区存在；

The bone resorption regions in subperiosteum was seen in the lower border of mandibular angle and the upper border of mandibular foramen by anatomic microscope .

方法：选用10具经防腐固定，在解剖显微镜下对胸腰段脊柱后部结构进行逐层解剖，重点观测脊神经后支及其分支、脊柱节段动静脉的后支的来源、走行以及分布规律。

Methods : The origin , branch and distribution of the posterior rami of spinal nerves and the dorsal branches of the segmental artery , vein in the thoracolumbar region were observed on 10 adult specimens .

两组股骨髁关节面标本大体观察结果：解剖显微镜下观察股骨髁关节面病理变化，透明质酸钠注射组软骨退变程度较生理盐水对照组明显减轻。

Result of articular cartilage degeneration of medial femoral condyle : Pathological change of articular surface of femoral condyle was observed under anatomic microscope . Cartilage degradation in experimental group was significantly less severe than that in saline control group .

方法：1.解剖显微镜下，无菌操作分离获取豚鼠耳蜗血管纹组织，经Ⅰ型胶原酶消化后接种培养，反复多次刮除杂细胞并使用内皮细胞条件培养液对所培养的内皮细胞进行纯化。

Methods : 1 . Aseptically , the cochlear stria vascularis was acquired from normal guinea pigs with micradissection and the endothelial cells were isolated by Collagenase ⅰ digestion . Then , they were cultured and purified by using conditioned medium and mechanical curettement .

在解剖手术显微镜用显微手术镊子、剪子完成WMP。

WMP was performed under dissection microscope with microsurgical scissors and forceps .

方法：选择30只成人尸体的无损伤、无畸形手，在解剖手术显微镜下观测尺神经深支的行程、分支、分布。

Methods : The trend , syntopy and distribution of the profound branch of ulnar nerve were studied on 30 hand specimens of adult corpses under microscope .

于接种后第17天，解剖小鼠取肺组织，解剖显微镜下计数黑色素瘤肺转移结节的数目，并检测小鼠部分免疫学指标及肝、肾功能。

Seventeen days after inoculation of B16 cells , the mice were killed to count pulmonary metastasis nodes under microscope , and to detect a series of immunologic parameters , liver function , and kidney function .