| 摘要: |
| 目的 研究水下冲击波对水下比格犬肺和颅脑的损伤程度。方法 取标准比格犬18只,根据爆炸距离随机分为6组:对照组和5个实验组(距离爆源5 m、7 m、9 m、11 m、13 m组)。利用自制的水下爆炸装置对比格犬进行爆炸致伤,采用水下高速摄像观察爆炸致伤的动态过程。爆炸后6 h对比格犬行头颅和胸部计算机断层扫描(CT)平扫检查。爆炸后24 h取脑和肺标本,观察并记录颅脑和胸肺损伤的情况,对海马组织和肺组织进行H-E染色。采用免疫组织化学染色方法检测海马组织中炎性因子白细胞介素(IL)-6、IL-1β、IL-10、肿瘤坏死因子α(TNF-α)和转化生长因子β(TGF-β)的表达水平。结果 高速摄影观察到爆炸对比格犬的毁伤包括冲击波和气泡脉动2个过程。实验组比格犬总死亡率为40.0%(6/15)。CT检查示实验组比格犬颅脑无大体损伤,肺部有胸腔积液、气胸等表现。H-E染色结果示实验组比格犬海马组织炎症细胞浸润,肺泡腔红细胞淤积。免疫组织化学染色结果示各实验组比格犬海马组织中IL-6、IL-1β、IL-10、TNF-α和TGF-β的表达水平与对照组相比均升高,差异均有统计学意义(P均<0.05)。结论 脑、肺部等重要脏器受水下冲击波作用后会发生严重病变,是致动物死亡的主要原因;进一步探索水下冲击波致颅脑损伤的机制对于水下冲击伤的防护有重要意义。 |
| 关键词: 水下爆炸 水下冲击波 颅脑损伤 肺损伤 水下高速摄像机 |
| DOI:10.16781/j.0258-879x.2019.07.0763 |
| 投稿时间:2019-05-24修订日期:2019-06-11 |
| 基金项目: |
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| Underwater shock wave induced lung and brain injuries in canines |
| CHEN Ji-gang△,ZHANG Dan-feng△,WANG Chun-hui,LI Zhen-xing,DONG Yan,HOU Li-jun* |
(Department of Neurosurgery, Changzheng Hospital, Naval Medical University(Second Military Medical University), Shanghai 200003, China
△Co-first authors.
* Corresponding author) |
| Abstract: |
| Objective To explore underwater shock wave-induced injuries of the lung and brain in canines. Methods Eighteen Beagle dogs were randomly divided into six groups according to the distances to the explosion source:control group and 5 experimental groups (5 m, 7 m, 9 m, 11 m and 13 m groups). The animals were exposed to underwater shock wave via a self-designed underwater explosive instrument. The dynamic explosive process was recorded by the underwater high-speed camera. Computed tomography (CT) scans of brain and chest were performed 6 h after injury. Pathological examination and H-E staining for hippocampus and lung were conducted 24 h after injury. The expression levels of interleukin (IL)-6, IL-1β, IL-10, tumor necrosis factor α (TNF-α) and transforming growth factor β (TGF-β) in the hippocampus were measured by immunohistochemical staining. Results The underwater high-speed camera showed that the injury process included blast wave and bubble pulsation. The total mortality of the animals was 40.0% (6/15) in the experimental groups. CT examination revealed no major alterations in the brain of the animals, while there were pleural effusion and pneumothorax in the chest of animals in the experimental groups. H-E staining showed inflammatory cells infiltration in the hippocampal tissue and erythrocyte deposition in the alveoli of animals in the experimental groups. The expression levels of IL-6, IL-1β, IL-10, TNF-α, and TGF-β in the hippocampus of animals in the experimental groups were significantly elevated compared with those in control group (all P<0.05). Conclusion Brain and chest are damaged significantly after underwater explosion, which may be the main causes for the death of animals. It is important to elucidate the underlying mechanisms of brain injury caused by underwater explosive wave for the protection of underwater blast injuries. |
| Key words: underwater explosion underwater explosive wave craniocerebral trauma lung injuries underwater high-speed camera |
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