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- Methods The animals achieved hypercapnic acidosis with mechanical hypoventilation before ischemia-reperfusion. 方法 在缺血再灌注前,用低潮气量,低频率的机械通气方法造成动物的呼吸性酸中毒。
- Hypercapnic acidosis has a multitude of effects at the pathologic and physiopathologic characteristic,immunologic function,cellular and molecular level of ALI/ARDS. 高CO_2血症可在多个方面影响ALI/ARDS的病理生理,免疫功能及细胞分子水平的变化。
- Model of diaphragmatic fatigue in vitro induced by hypoxic, hypercapnic acidosis 低氧高碳酸性离体膈肌疲劳模型的建立
- Neonatal hypercapnic acidosis 新生儿高碳酸血性酸中毒
- hypercapnic acidosis 血碳酸过多性酸中毒:即呼吸性酸中毒
- CRRT can also correct various forms of acidosis. CRRT也可以纠正不同类型的酸中毒。
- Shock, sepsis, acidosis, hypoxia, and so forth, are treated. 对休克,感染,酸中毒,缺氧等应加以治疗。
- A number of intoxicants are associated with metabolic acidosis. 许多毒性物质可引起代谢性酸中毒。
- We trained them how to troubleshoot to avoid ketone acidosis. 我们会训练患者如何解决问题并避免酮症酸中毒。
- The chief type of acid base unbalance is respiratory acidosis. 酸碱失衡类型中 ,呼吸性酸中毒占首位 ;
- Results CVVH, HDF and HD showed definite effects on severe lactic acidosis. 结果 CVVH、hdF和hd治疗乳酸酸中毒疗效明确;
- Grave acidosis after severe anaphylactic bronchospasm: friend or foe? 重症过敏性支气管痉挛后严重的酸中毒:朋友还是敌人?
- A build-up of carbon dioxide occurs which leads to a respiratory acidosis. 二氧化炭蓄积导致呼吸性酸中毒。
- Status suggests a mixed metabolic acidosis and respiratory alkalosis. 病人的酸碱平衡状态提示混合性代谢性酸中毒和呼吸性碱中毒。
- High concentrations can cause asphyxiation and / or acidosis (CO2 poisoning). 高浓度的CO2会造成窒息以及/或者酸中毒(CO2中毒)。
- Metabolic acidosis had the same occurrence with metabolic alkalosis. 呼酸型>呼碱型,代酸与代碱基本相当;
- Fatal lactic acidosis has been reported to patients who received didanosine and other antiretroviral agents. 有报道同时应用核苷类似物的患者可能发生乳酸酸中毒,有时是致命的。
- However, the patient expired after a few days due to persistent metabolic acidosis and multiple organ failure. 然而,这位病人几天后因持续的代谢性酸中毒及多发性器官衰竭逝世。
- Hypercalciuria was considered as a secondary condition when (It was) associated with familial renal tubular acidosis. 高钙尿如伴有家族性肾小管性酸中毒,就可以认为是继发病。
- Aim: To study the effect of chimonin on chronic hypoxia and hypercapnic pulmonary hypertention and to explore its mechanism. 目的:研究知母宁对慢性低氧高二氧化碳性肺动脉高压的抑制作用及其作用机制。
