Jing Zhizhen, Yu Guangrong, Wang Dong, You Murong, Zhang Shimin
Department of Orthopaedics, Tongji Hospital, Tongji University, Shanghai, 200065, PR China.
Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi. 2008 Aug;22(8):959-63.
To investigate the venous drainage in retrograde island flaps by fluorescence tracing technique and to observe the pathway of venous drainage.
The 0.1 mL venous blood was collected from the marginal ear vein of every rabbit (n=20), respectively, and erythrocytes were separated by centrifugation and then were labeled with FITC. Positive rate and fluorescence intensity of FITC-labeled RBC were detected by flow cytometry. RBC amorphous was observed under the inverted fluorescence microscope. Saphenous retrograde island fasciocutaneous flap and antegrade island fasciocutaneous flap (4.0 cm x 3.0 cm in size with vascular pedicle length of 3.0 cm) were successfully established in hind limbs of 20 New Zealand white rabbits. One hind limb of each rabbit was randomly assigned as the experimental group and the contralateral side was assigned as the control. The same flap was established in the control group without any fluorescence tracer. According to retrograde or antegrade flaps, the experimental group was divided into 2 groups with 10 rabbits in each group. And then, according to different pathways of tracer-giving, each group was divided into 2 subgroups of artery and vein, with 5 rabbits in each subgroup. The labeled erythrocytes (5 microL) were injected into artery or vein and then flaps were cut down 5 seconds later. The flaps were immediately frozen and chipped (5-7 microm). Consecutive three frozen sections were made and two of them were stained with HE and GENMED, respectively, but the third one was squashed without staining. All frozen sections were observed under the microscope.
Positive rate of FITC-labeled RBC was beyond 99% and fluorescence intensity was more than or equal to 10(3). FITC-labeled RBC showed steady green fluorescence under the inverted fluorescence microscope. Fluorescence appeared in all experimental groups, but none was found in the control groups. In antegrade island flap group, fluorescence appeared mainly in lumen of vein, wall of vein and inner membrane and outer membrane of artery. In retrograde island flap group, fluorescence distributed principally in inner membrane and outer membrane of artery and wall of vein.
The fluorescence tracing is applicable to the research of venous drainage. Venous drainage in the antegrade island flaps is mainly through lumen of vein, wall of vein and inner membrane and outer membrane of artery. While, venous drainage in retrograde island flaps is principally through inner membrane and outer membrane of artery and wall of vein.
采用荧光示踪技术研究逆行岛状皮瓣的静脉回流情况,观察静脉回流途径。
分别从20只家兔的耳缘静脉取0.1 mL静脉血,经离心分离出红细胞,然后用异硫氰酸荧光素(FITC)标记。采用流式细胞仪检测FITC标记红细胞的阳性率和荧光强度。在倒置荧光显微镜下观察红细胞形态。在20只新西兰白兔后肢成功制作隐静脉逆行岛状筋膜皮瓣和顺行岛状筋膜皮瓣(大小为4.0 cm×3.0 cm,血管蒂长3.0 cm)。每只家兔的一侧后肢随机作为实验组,对侧作为对照组。对照组制作相同皮瓣但不注入任何荧光示踪剂。根据皮瓣为逆行或顺行,将实验组分为2组,每组10只。然后,根据示踪剂注入途径不同,每组再分为动脉和静脉2个亚组,每个亚组5只。将标记的红细胞(5 μL)注入动脉或静脉,5秒后切取皮瓣。将皮瓣立即冷冻切片(5~7 μm)。连续制作3张冷冻切片,其中2张分别进行苏木精-伊红(HE)染色和通用医学染色,但第3张不染色直接压片。所有冷冻切片均在显微镜下观察。
FITC标记红细胞的阳性率超过99%,荧光强度≥10³。FITC标记红细胞在倒置荧光显微镜下呈现稳定的绿色荧光。荧光出现在所有实验组,但对照组未发现。在顺行岛状皮瓣组,荧光主要出现在静脉管腔、静脉壁以及动脉内膜和外膜。在逆行岛状皮瓣组,荧光主要分布在动脉内膜和外膜以及静脉壁。
荧光示踪技术适用于静脉回流的研究。顺行岛状皮瓣的静脉回流主要通过静脉管腔、静脉壁以及动脉内膜和外膜。而逆行岛状皮瓣的静脉回流主要通过动脉内膜和外膜以及静脉壁。