结论应重视药物配伍后不溶性微粒增多与输液不良反应间的关系。
ConclusionIt should be paid great attention to the increase of insoluble particles after mixed, as well as the relationship between the insoluble particles and adverse reactions.
结论临床静脉输液不良反应处理情景模拟演练可帮助训练护士的综合应急能力。
Conclusion Simulation treatment drilling in mimic scene of adverse reaction of intravenous transfusion could improve the general treatment ability of nurse.
我们在慢速输液(没有前驱给药)的情况下还没有看到剂量限制性毒性,只看到两例患者出现头痛,是中等不良反应。
While we have not seen dose-limiting toxicity at this level with the slower infusion (without pre-medication), we have seen headache in two patients, which is a moderate adverse effect.
如果延长输液时间,头痛会减少。或许它是和所研究药合用的其它药的不良反应呢?我们正在进一步研究。
This seems to be reduced if we increase the infusion time, and it may respond to other medication given with the study drug? We are investigating this further.
目的探讨不同输液速度对静脉滴注乳酸左氧氟沙星注射液发生皮肤血管不良反应的影响。
Objective To explore the effect of intravenous drip infusion of Levofloxacin at different speeds on dermato-allergic reaction.
目的探讨警示性标志在门、急诊输液患者实施药物不良反应(adr)监测中的作用。
Objective to explore the role of warning mark in monitoring of adverse drug reaction (ADR) in fluid infusion in outpatient clinic and emergency department.
目的分析静脉输液引起的不良反应及相应对策。
Objective Analyze the untoward effect caused by intravenous transfusion.
热原反应、微粒污染、细菌病毒污染、药物不良反应是引起静脉输液发热反应的主要原因。
The main causes of fever reaction due to intravenous transfusion include pyrogen reaction, particulate contamination, bacteria and virus contamination, and side effect of drugs.
毒副反应均可耐受,主要是骨髓抑制和输液相关的不良反应。
The major toxic effects were bone marrow suppression and infusion related reaction that all patients could tolerate.
结论:在门诊输液室建立医、护、药合作的药品不良反应监测体系,为门诊输液安全提供了有利条件。
Conclusion: Establishing the drug adverse reaction monitor system in the outpatient transfusion room can improve transfusion safety.
结论:在门诊输液室建立医、护、药合作的药品不良反应监测体系,为门诊输液安全提供了有利条件。
Conclusion: Establishing the drug adverse reaction monitor system in the outpatient transfusion room can improve transfusion safety.
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