Seawater immersion will exacerbate the injury of wounded tissue.
创伤组织被海水浸泡后可导致伤情加重。
Objective To observe the traumatic reaction of explosion injury of limb joints after seawater immersion.
目的观察肢体关节爆炸伤并海水浸泡后的肢体创伤反应。
Objective to observe the histological characteristics of the rabbit patellar ligaments repaired after blast injury and seawater immersion.
目的观察海水浸泡的兔髌韧带爆炸伤修复的组织学变化。
Objective To find a selectable therapy of treating open craniocerebral injury combined with seawater immersion.
目的为提高开放性颅脑伤伴海水浸泡患者的疗效,选择一种好的治疗方法。
Conclusion Seawater immersion is one of the main factors leading to the disturbance in hemodynamic and pathological changes after perforating injury of the intestine.
结论海水浸泡是导致犬肠管破裂伤合并海水浸泡后血流动力学紊乱的主要因素。
Objective To evaluate the effect of seawater immersion on hemodynamics and pathological changes in dogs with perforating injury of the intestine.
目的分析犬肠管破裂伤合并海水浸泡后血流动力学及病理学变化的特点,为海战肠管破裂伤的早期救治提供理论依据。
Objective To study the early injury mechanism and characteristic of burn and seawater immersion with rat model.
目的用动物模型方法研究烧伤合并海水浸泡早期损伤机理和特点。
Conclusion the firearm wounds with seawater immersion could aggravate the secondary injury of the tissue.
结论火器伤合并海水浸泡可加重组织继发损伤。
Conclusion Indomethacin focally applied to firearm wound during 24 hours after seawater immersion inhibits hyperinflammation and decrease secondary injury.
结论吲哚美辛应用于浸泡火器伤伤口能在浸泡后24小时内抑制伤口过度炎症反应,减轻继发损伤。
These results showed that seawater immersion could disturb the hemodynamic status in rats subjected to fire-arm injury combined with hemorrhagic shock.
结果提示:海水浸泡可严重影响火器伤合并失血性休克血流动力学,长时间海水浸泡可降低心肌的兴奋性、收缩性和顺应性。
These results showed that seawater immersion could disturb the hemodynamic status in rats subjected to fire-arm injury combined with hemorrhagic shock.
结果提示:海水浸泡可严重影响火器伤合并失血性休克血流动力学,长时间海水浸泡可降低心肌的兴奋性、收缩性和顺应性。
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