兔实验性胸腔积脓模型：为何、如何构建以及后续步骤是什么。

Cvijanović Vlado, Vojvodić Danilo, Djurdjević Dragan, Jović Milena, Stanić Vojkan, Sekulović Leposava, Perić Tijana

Vojnosanit Pregl. 2014 May;71(5):491-8.

BACKGROUND/AIM: The use of new therapeutic methods to prevent development of fibrothorax as the final complication of the human pleural infections requires research with experimental animals. The aim of this study was to standardize the procedures for the establishment of our own experimental model of empyema in rabbits, since it should be able to offer similar conditions found in human pleural infections.

METHODS

This experiment included 15 chinchilla rabbits, weighing from 2.3 to 2.8 kg. There were 12 rabbits in the experimental group, while 3 rabbits formed the control group. On the first day, we administered 0.4-0.5 mL of turpentine in the right pleural space of the rabbits from the experimental group in order to provoke sterile exudative pleurisy. After 24 h we injected 1 mL of Staphylococcus aureus and 1 mL of Escherichia coli bacteria in the same concentration of 4.5 x 10(8) bacteria/mL. Thoracocentesis for the pleural fluid analysis was performed 24, 48, 72, and 96 h after bacteria instillation. In these pleural samples we estimated the number of leucocytes and the values of lactate dehydrogenase (LDH), glucose and pH in pleural fluid, as well as the presence of bacteria. We did not protect the animals with antibiotics, and on the day 7 of the experiment they were sacrificed with the lethal dose of barbiturate (iv). The lung from the empyemic side of all experimental animals and the lung of one control animal were histopathologically examined.

RESULTS

A total of 4 animals had a small amount of clear pleural fluids or there was no fluid obtained with thoracocentesis 24 and 48 h after the bacteria instillation. after the bacteria instillation. In the remaining 8 rabbits 24 h after bacteria administration the mean values (± SD) of the parameters monitored were as follows: Le 34.75 ± 6.13 x 109/L, LDH 17,000 ± 4,69 U/L, glucose 1.23 ± 0.45 mmol/L, and pH 6.975 ± 0.15. The obtained values met the criteria for the evaluation of effusion as pleural empyema or complex and complicated pleural effusion (LDH > 1000 U/L, glucose < 2.31 mmol/L and pH < 7.20). Bacterial cultures were positive in 5 out of 8 first pleural samples and in only 2 samples after 48 h of bacteria administration. There was a positive correlation between the number of leukocytes and the LDH value (r = 0.071, p < 0.001), and a negative correlation between the number of leukocytes and the glucose level (r = 0.864, p < 0.001), and the leukocytes number and pH of the pleural fluid (r = 0.894, p < 0.001). The mean glucose value increased after 48 h (3.23 ± 0.44 mmol/L), and the pH value rose after 72 h (7.22 ± 0.03) which was beyond the empyema level.

CONCLUSION

The creation of the experimental empyema model is a very delicate work with uncertain success. Its value and importance are crucial for pleural pathology research. With the intention to obtain a more empyemic pleural reaction we created a model with two different human pathogen bacteria. We generated the satisfactory results, but not as good as those contained in some of the reference literature data.

背景/目的：采用新的治疗方法预防纤维胸作为人类胸膜感染的最终并发症，这需要在实验动物身上进行研究。本研究的目的是规范建立我们自己的兔脓胸实验模型的程序，因为该模型应能够提供与人类胸膜感染相似的条件。

方法

本实验包括15只体重在2.3至2.8千克之间的龙猫兔。实验组有12只兔子，3只兔子作为对照组。第一天，我们向实验组兔子的右侧胸膜腔内注入0.4 - 0.5毫升松节油，以引发无菌性渗出性胸膜炎。24小时后，我们在相同浓度（4.5×10⁸个细菌/毫升）下注入1毫升金黄色葡萄球菌和1毫升大肠杆菌。在注入细菌后24、48、72和96小时进行胸腔穿刺以分析胸水。在这些胸水样本中，我们估计白细胞数量、胸水乳酸脱氢酶（LDH）、葡萄糖和pH值，以及细菌的存在情况。我们未用抗生素保护动物，在实验第7天，用致死剂量的巴比妥酸盐（静脉注射）处死它们。对所有实验动物脓胸侧的肺以及一只对照动物的肺进行组织病理学检查。

结果

共有4只动物在注入细菌后24和48小时有少量清亮胸水，或胸腔穿刺未获取到胸水。在其余8只兔子中，注入细菌24小时后，所监测参数的平均值（±标准差）如下：白细胞34.75±6.13×10⁹/L，LDH 17000±469 U/L，葡萄糖1.23±0.45 mmol/L，pH 6.975±0.15。所获数值符合将胸水评估为胸膜脓胸或复杂性和复杂性胸腔积液的标准（LDH>1000 U/L，葡萄糖<2.31 mmol/L，pH<7.20）。8份首次胸水样本中有5份细菌培养呈阳性，注入细菌48小时后仅2份样本呈阳性。白细胞数量与LDH值呈正相关（r = 0.071，p<0.001），白细胞数量与葡萄糖水平呈负相关（r = 0.864，p<0.001），白细胞数量与胸水pH值呈负相关（r = 0.894，p<0.001）。48小时后平均葡萄糖值升高（3.23±0.44 mmol/L），72小时后pH值升高（7.22±0.03），超出脓胸水平。