Objective To offer reference for the rational drug use of Benzylpenicillin.
目的为临床合理使用青霉素提供参考。
Methods Analyze the clinical use of Benzylpenicillin combining with the reference materials.
方法根据有关文献资料,结合我院在青霉素使用上遇到的情况进行分析。
In this paper, the benzylpenicillin content in procaine benzylpenicillin injection was determined by HPLC.
采用HPLC法测定了普鲁卡因青霉素注射液中青霉素的含量。
Objective to discuss the methods of reducing the pain of injecting Benzathine Benzylpenicillin, and to improve the quality of intramuscular injection.
目的探讨减轻肌注长效青霉素给病人带来痛苦的方法,提高肌注治疗品质。
The feasibility of concentration of benzylpenicillin sodium solution and the effect of operation condition on concentration process by membrane distillation were studied.
采用直接接触式膜蒸馏方法研究了热敏性物质青霉素水溶液浓缩过程的可行性及操作条件对浓缩过程的影响。
Objective To increase the one-time successful injection rate of Benzathine Benzylpenicillin injection, lighten the pain caused by injection and decrease partial sclerosis.
目的提高长效青霉素的一次性注射成功率,减轻注射时疼痛,减少局部产生硬结。
The mathematical model was established. By analyzing and quantifying the components of uncertainty, the expanded uncertainty of 2.7% with 96.6% of the content of benzylpenicillin sodium was derived.
建立测量不确定度的数学模型,通过对整个测定过程中所产生的各不确定度分量的分析和计算,求得当青霉素钠的含量为96.6%时,扩展不确定度为2.7%。
The mathematical model was established. By analyzing and quantifying the components of uncertainty, the expanded uncertainty of 2.7% with 96.6% of the content of benzylpenicillin sodium was derived.
建立测量不确定度的数学模型,通过对整个测定过程中所产生的各不确定度分量的分析和计算,求得当青霉素钠的含量为96.6%时,扩展不确定度为2.7%。
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