重组瘦素给药改善全层皮瓣早期血管生成：一项实验研究。

Liapakis I E, Anagnostoulis S, Karayiannakis A J, Korkolis D P, Lambropoulou M, Arnaud E, Simopoulos C E

Department of Plastic and Reconstructive Surgery, Hellenic Anticancer Institute, Aghios Savvas Hospital, Athens, Greece.

In Vivo. 2008 Mar-Apr;22(2):247-52.

BACKGROUND

Leptin is a potent direct angiogenic factor that stimulates endothelial cell migration and activation in vitro, and angiogenesis in vivo. In addition, leptin seems to play an important role in angiogenesis as it promotes the formation of new blood vessels.

OBJECTIVE

To determine the effect of local application of exogenous leptin on the survival of full thickness skin flaps in an experimental animal model.

MATERIALS AND METHODS

Ninety Sprague-Dawley rats were used in this study. A full thickness dorsal flap (10 cm x 2 cm) with the pedicle located at the level of the iliac crest was designed. Animals were divided into ten groups of nine animals each. In the distal two thirds of the flap and by means of subdermal injection at 8 different locations, rats were injected with 100 ng/ml leptin, 250 ng/ml leptin, 500 ng/ml leptin, 1000 ng/ml leptin (groups A, B, C and D), 1 microg/ml VEGF (group E), or 1 ml saline (control group), respectively. For each of the four leptin doses used, another animal group was injected with a combination of leptin/antileptin: 100 ng/ml leptin with 150 ng/ml antileptin, 250 ng/ml leptin with 375 ng/ml antileptin, 500 ng/ml leptin with 750 ng/ml antileptin or 1000 ng/ml leptin with 1500 ng/ml antileptin (groups A1, B1, C1 and D1, respectively), in order to study the inhibition of the leptin factor. Nine rats served as controls and were injected with 1 ml saline solution. Rats were sacrificed 3, 7 and 9 days postoperatively. After sacrifice of the animals, the skin was grossly arranged on its appearance, colour and texture. Full thickness skin flaps were dissected for histological examination. A qualitative analysis of angiogenesis in the flap was conducted following a standard hematoxylin and eosin stain. The wound tissue samples from each experimental group underwent immunohistochemical evaluation of microvessel density by endothelial cell staining with mouse anti-rat CD 34 monoclonal antibody.

RESULTS

Immunohistochemical staining revealed that more granulation tissue and improved angiogenesis were observed in group D (1000 ng/ml leptin) flaps compared to those in the VEGF, leptin/antileptin and saline groups. In addition, skin flap survival rate in group D (1000 ng/ml leptin) and group E (1 microg/ml VEGF) were significantly better than those of the other groups. The most impressive formation of new blood vessels was noted in the groups with the higher leptin doses. Surgical wounds in the control, as well as in the leptin/antileptin groups, did not demonstrate any new vessels.

CONCLUSION

Exogenous administration of recombinant leptin increases early skin flap angiogenesis in an experimental animal model. Local application of leptin could efficiently improve survival of ischemic skin flaps.

背景

瘦素是一种有效的直接血管生成因子，在体外可刺激内皮细胞迁移和活化，在体内可促进血管生成。此外，瘦素似乎在血管生成中起重要作用，因为它能促进新血管的形成。

目的

在实验动物模型中确定局部应用外源性瘦素对全层皮瓣存活的影响。

材料与方法

本研究使用了90只Sprague-Dawley大鼠。设计了一个全层背部皮瓣（10 cm×2 cm），蒂位于髂嵴水平。将动物分为十组，每组九只。在皮瓣的远端三分之二处，通过在8个不同位置进行皮下注射，分别给大鼠注射100 ng/ml瘦素、250 ng/ml瘦素、500 ng/ml瘦素、1000 ng/ml瘦素（A、B、C和D组）、1 μg/ml血管内皮生长因子（VEGF，E组）或1 ml生理盐水（对照组）。对于所使用的四种瘦素剂量中的每一种，另一个动物组注射瘦素/抗瘦素组合：100 ng/ml瘦素与150 ng/ml抗瘦素、250 ng/ml瘦素与375 ng/ml抗瘦素、500 ng/ml瘦素与750 ng/ml抗瘦素或1000 ng/ml瘦素与1500 ng/ml抗瘦素（分别为A1、B1、C1和D1组），以研究瘦素因子的抑制作用。九只大鼠作为对照，注射1 ml生理盐水溶液。术后3天、7天和9天处死大鼠。处死动物后，对皮肤的外观、颜色和质地进行大体观察。解剖全层皮瓣进行组织学检查。在苏木精-伊红染色后，对皮瓣中的血管生成进行定性分析。每个实验组的伤口组织样本用小鼠抗大鼠CD 34单克隆抗体进行内皮细胞染色，以进行微血管密度的免疫组织化学评估。

结果

免疫组织化学染色显示，与VEGF组、瘦素/抗瘦素组和生理盐水组相比，D组（1000 ng/ml瘦素）皮瓣中观察到更多的肉芽组织和更好的血管生成。此外，D组（1000 ng/ml瘦素）和E组（1 μg/ml VEGF）的皮瓣存活率明显高于其他组。在瘦素剂量较高的组中，新血管形成最为显著。对照组以及瘦素/抗瘦素组的手术伤口未显示任何新血管。