Practice and reflection of "Rain Classroom + QQ live teaching" in the teaching of obstetrics and gynecology / 中华医学教育探索杂志

Taking the Department of Obstetrics and Gynecology as an example, this paper expounds a series of practices of online education, in the process from pre-course training, platform selection, curriculum design, to student evaluation, etc. From that, we can provide a reference for carrying out online teaching in response to the epidemic for clinical medical colleges which have not been exposed to the online course. Furthermore, it is a new attempt to explore a way to make a change of the traditional teaching method and deepen the reform of clinical teaching in our hospital after the epidemic, not only in professional medical education, but also in the popularization of medical knowledge.

Resistance detection and macrolide antibiotic-resistant mechanism of Streptococcus pneumoniae isolates / 中国人兽共患病学报

In order to understand the resistance against common antibiotics in clinic and macrolide antibiotic-resistant mechanism of Streptococcus pneumoniae (S.pneumoniae) isolates in Zhejiang area,both K-B slip method and E-test were applied to determine the sensitivity of 138 S.pneumoniae isolates to nine antibiotics,and the ermB and mefE genes in those isolates which associated with macrolide antibiotics-resistance closely were detected by PCR.Subsequently,correlation among ermB and mefE genes and the erythromycin resistance were analyzed.For these 138 S.pneumoniae isolates,93.5% (129/138) of the strains were resistant to erythromycin,but only 2.9%～4.3% strains were resistant to cefotaxim,cefuroxime,amoxicillin and levofloxacin.The positive rate of ermB gene in the isolates (91.3%,126/138) was significantly higher than that of mefE gene (33.3%,46/138) (P<0.05).Both of these two genes existed in 27.5 % (38/138) of the strains and all of the strains without ermB and mefE genes were sensitive to erythromycin.The erythromycin resistance rate (62.5%) of mefE gene positive strains was remarkably lower than that of the mefE&ermB gene positive strains (100%) and the ermB gene positive strains (97.7%) (P<0.05).All the data mentioned above demonstrated that erythromycin is not an appropriate antibiotic to treat the infectious diseases caused by S.pneumoniae.Moreover,ermB is the predominant erythromycin resistance gene in S.pneumoniae isolates and ermB gene could inspire stronger erythromycin resistance than mefE gene.