胎鼠气管闭塞：一种用于研究加速肺生长的新实验模型。

Tracheal occlusion in the fetal rat: a new experimental model for the study of accelerated lung growth.

作者信息

Kitano Y, Yang E Y, von Allmen D, Quinn T M, Adzick N S, Flake A W

机构信息

Children's Institute for Surgical Science and the Center for Fetal Diagnosis and Treatment, The Children's Hospital of Philadelphia, PA 19104, USA.

出版信息

J Pediatr Surg. 1998 Dec;33(12):1741-4. doi: 10.1016/s0022-3468(98)90275-5.

DOI:10.1016/s0022-3468(98)90275-5

PMID:9869041

Abstract

BACKGROUND

Prenatal tracheal occlusion accelerates fetal lung growth, but the mechanism of this phenomenon is unknown. Previous animal models have been limited by expense, lack of species-specific molecular probes, or the stage of lung development when studies could be performed. To provide a model that is more amenable to systematic analysis, we have developed an in vivo rat model of prenatal tracheal occlusion.

METHODS

Time-dated pregnant rats underwent laparotomy at 19 days' gestational age (term, 22 days). The fetal head and neck were exteriorized through a hysterotomy, and the trachea was ligated under a dissecting microscope. The fetus was returned to the amniotic cavity, and the uterine and maternal abdominal incisions were closed. The dam and the fetuses were killed at 21.5 days' gestational age, and the fetal lungs were assessed for lung growth and compared with nonoperated littermate controls.

RESULTS

Thirty-two of 50 manipulated fetuses survived. Of the 32 survivors, successful tracheal ligation was confirmed in 20, and these 20 fetuses were compared with 33 littermate controls. Fetal body weight (4.81+/-0.26 g v 4.87+/-0.41 g) and heart weight (0.05+/-0.01 g v 0.05+/-0.01 g) were not significantly different between ligated fetuses and littermate controls, whereas the wet lung weight (0.30+/-0.06 g v 0.13+/-0.02 g, P<.01), lung-to-body-weight ratio (6.34+/-1.16% v 2.64+/-0.41%, P<.01), dry lung weight (17.4+/-2.45 mg v 12.1+/-1.87 mg, P<.01), total lung DNA (1210+/-371 microg v 828+/-208 microg, P<.01), and total lung protein (14.3+/-5.3 mg v 8.7+/-1.7 mg, P<.01) were increased significantly in the ligated fetuses. The enlarged lung demonstrated normal histology findings after inflation fixation.

CONCLUSIONS

Prenatal tracheal occlusion during the canalicular stage of lung development accelerates lung growth in the rat. In comparison with other large animal models, this relatively inexpensive small animal model has the distinct advantages of a short gestation, a large number of fetuses per litter, the availability of a developmental model of congenital diaphragmatic hernia, and the availability of well-defined molecular probes to investigate the mechanism of tracheal occlusion-induced lung growth.

摘要

背景

产前气管阻塞可加速胎儿肺生长，但其机制尚不清楚。以往的动物模型受费用、缺乏物种特异性分子探针或研究可进行时肺发育阶段的限制。为提供一个更适合系统分析的模型，我们建立了一种产前气管阻塞的体内大鼠模型。

方法

孕龄19天（足月为22天）的定时怀孕大鼠接受剖腹手术。通过子宫切开术将胎儿头部和颈部引出，在解剖显微镜下结扎气管。将胎儿放回羊膜腔，关闭子宫和母体腹部切口。在孕龄21.5天时处死母鼠和胎儿，评估胎儿肺的生长情况，并与未手术的同窝对照进行比较。

结果

50只接受操作的胎儿中有32只存活。在这32只存活者中，20只确认气管结扎成功，将这20只胎儿与33只同窝对照进行比较。结扎胎儿与同窝对照的胎儿体重（4.81±0.26 g对4.87±0.41 g）和心脏重量（0.05±0.01 g对0.05±0.01 g）无显著差异，而结扎胎儿的湿肺重量（0.30±0.06 g对0.13±0.02 g，P<0.01）、肺与体重比（6.34±1.16%对2.64±0.41%，P<0.01）、干肺重量（17.4±2.45 mg对12.1±1.87 mg，P<0.01）、总肺DNA（1210±371 μg对828±208 μg，P<0.01）和总肺蛋白（14.3±5.3 mg对8.7±1.7 mg，P<0.01）均显著增加。充气固定后，增大的肺显示出正常的组织学表现。