目的尽量减少阿奇霉素的不良反应。
阿奇霉素和交沙霉素为首选药物。
目的:制备阿奇霉素滴耳液。
阿奇霉素可作为治疗DPB首选药物。
Azithromycin could be used as the first drug for the treatment of DPB.
目的选择适合的注射用阿奇霉素成盐剂。
Objective To select the appropriate salt being used for azithromycin for injection.
目的建立阿奇霉素颗粒的溶出度测定方法。
Objective To establish a dissolution method of Azithromycin Granules.
目的探讨阿奇霉素对不稳定型心绞痛的影响。
Objective to investigate the influence of azithromycin on unstable angina pectoris.
前言:目的:改进阿奇霉素颗粒的制备工艺。
Objective: To improve the produce technology of azithromycin granules.
目的介绍阿奇霉素乳膏的制备及质量控制方法。
Objective To introduce the preparation and quality control method of Azithromycin Cream.
目的建立阿奇霉素分散片的微生物限度检查方法。
Objective To establish the microbial limit test method for azithromycin dispersible tablets.
结果阿奇霉素氯化钠注射液与鲎试剂反应无干扰。
RESULTS Azithromycin sodium chloride injection could be directly test by TAL.
方法对104例阿奇霉素不良反应报告进行分析。
Methods an analysis was conducted on 104 reports of adverse drug reactions related with Azithromycin.
结论谷氨酸、天冬氨酸均为合适的阿奇霉素成盐剂。
Conclusion Glutamic acid and aspartic acid are the appropriate acid for the preparation for azithromycin for injection.
方法:用卡波姆940作凝胶基质制备阿奇霉素凝胶。
Mothod: the carbopol 940 was served as the gel stroma to prepare the azithromycin gel.
治疗药物是多西环素联合阿齐霉素优于单一阿奇霉素。
Combination therapy with doxycycline and azithromycin was better than single treatment of azithromycin.
目的建立阿奇霉素氯化钠注射液细菌内毒素的检查方法。
OBJECTIVE To establish a method of bacterial test for Azithromycin sodium chloride injection and substitute for the pyrogen test.
采用逆相蒸发法,利用大豆粉状磷脂制备阿奇霉素脂质体。
Azithromycin liposome was prepared with the granular soya lecithin by reverse evaporation method.
目的探讨阿奇霉素治疗小儿呼吸道感染的临床疗效及安全性。
Objective to observe the clinical efficacy and safety of azithromycin treatment of children with respiratory tract infection.
目的建立以微生物比浊法测定口服阿奇霉素效价含量的方法。
OBJECTIVE To establish a method for determining the microbial assays of oral azithromycin by turbidimetric method.
如果对青霉素过敏,医师们应该考虑阿奇霉素或呼吸喹诺酮。
If there is an allergy to penicillin, physicians should consider azithromycin or a respiratory quinolone.
目的建立以微生物比浊法测定口服阿奇霉素效价含量的方法。
METHODS To determine the microbiological assay of oral azithromycin by turbidimetric method, and compare the result of turbidimetric method with the result of cyclinder-plate method.
结果:阿奇霉素粉针剂血管及肌肉刺激性反应均符合试验要求。
Results:The local responses accorded with the requirements of the test.
前言:目的:建立枸橼酸阿奇霉素注射液细菌内毒素的检测方法。
Objective: to establish a detecting method for the bacterial endotoxin in the azithromycin citrate injection.
方法用不同厂家的鲎试剂对阿奇霉素氯化钠注射液分别进行干扰实验。
Methods: Kinetic turbidimetric technique was used to investigate the interference of ofloxacin injection to limulus reagent reaction.
结论红霉素联合阿奇霉素短程治疗与常规治疗疗效无差异,安全性相同。
Conclusion Short period treatment of erythromycin combined with azithromycin has no difference with common treatment.
目的:评价阿奇霉素注射剂治疗急性细菌性下呼吸道感染的有效性和安全性。
Objective: to evaluate the efficacy and safety of azithromycin injection in the treatment of acute bacterial infections of lower respiratory tract.
目的采用高效液相色谱法(HPLC法)测定阿奇霉素葡萄糖注射液的含量。
Objective To develop a HPLC method for determining azithromycin and glucose injection.
结论阿奇霉素联合头孢曲松钠治疗重症社区获得性肺炎优于上述单种抗生素。
Conclusion There is a better efficacy of combining azithromycin with ceftriaxone sodium for treating severity community acquired pneumonia than azithromycin or ceftriaxone sodium used individually.
阿奇霉素也可使带病组培苗转健但对植株毒害作用较大,成活率和转健率低。
Azithromycin could also cure plantlet thoroughly, but it poison plantlet seriously, survival rate and cured rate were low.
阿奇霉素也可使带病组培苗转健但对植株毒害作用较大,成活率和转健率低。
Azithromycin could also cure plantlet thoroughly, but it poison plantlet seriously, survival rate and cured rate were low.
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