1) EDR/ADR(Environmental Deterioration Rating/Accidental Damage Rating)
EDR/ADR
2) Alternative Dispute Resolution
ADR
1.
The Necessity and Suggestion of the Application of Alternative Dispute Resolution in the Construetion Industry;
论ADR在我国建筑业中应用的必要性和建议
2.
The Research on Alternative Dispute Resolution of Environmental Dispute;
环境纠纷ADR模式研究
3.
When applying alternative dispute resolution(hereinafter referred to as ADR) to administrative disputes,great attention and review have been attracted over the constitutionality of it.
ADR应用于行政纠纷解决领域,不但关涉公共资源配置和公民利用司法的权利问题,更涉及行政权、司法权和立法权之间的分权关系以及法治原则等重要宪法原则,必然会引发关于合宪性的关注与审视。
3) adr subtype
adr亚型
1.
Methods Using molecular subclone technique,pcDNA3-3HBV was constructed by insertion of 9?600?bp fragment of HBV adr subtype genome into the EcoRI and HindIII sites of pcDNA3.
方法利用分子亚克隆技术,将9600bp的adr亚型HBV全基因克隆至pcDNA3的EcoRI和HindIII位点构建pcDNA3-3HBV,通过脂质体介导的方法转染HepG2细胞,G418筛选。
4) K562/ADR cell
K562/ADR细胞
1.
The cytotoxicity and the reversal effect of sodium selenite on K562/ADR cells were assayed by MTT method; the apoptosis rate of K562 and K562/ADR cells were detected by flow cytometery, the mRNA expressions of mdr1 and bcl-2 were measured by semi-quantitative reverse transcriptase polymerase chain reaction (RT-PCR).
本研究探讨亚硒酸钠对白血病耐药细胞株K562/ADR细胞的多药耐药性的逆转作用及其逆转机制。
5) ADR cell
ADR细胞
1.
In order to investigate the effects of Na2SeO3 on expression of VEGF in K562/ADR cells,K562 and K562/ADR cells were treated with Na2SeO3 at dose of 5 and 10 μmol/L.
为了探讨亚硒酸钠对K562/ADR细胞VEGF表达的影响,分别以5、10μmol/L的亚硒酸钠对培养的K562及K562/ADR细胞进行处理,应用ELISA法检测亚硒酸钠处理前和处理后不同时间的K562及K562/ADR细胞上清液中VEGF含量,用MTT法检测逆转耐药倍数。
6) ADR monitoring
ADR监测
补充资料:ADR type A
分子式:
CAS号:
性质:指由药物的药理作用增强引起的不良反应。其特点是可以预测的,通常与剂量有关,发生率高,但死亡率低。副作用、毒性反应、后遗效应和药物依赖性等均属A类药物不良反应。产生该类不良反应因素。包括:(1)影响药物的吸收、分布、与大分子结合、代谢、排泄等因素;(2)靶器官敏感性增强。如强心甙中毒时,其中毒症状与用药剂量或血药浓度密切相关,随着剂量增加其不良反应程度加重,低剂量常表现为胃肠道反应,较大剂量时可出现心脏毒性和中枢神经系统毒性。
CAS号:
性质:指由药物的药理作用增强引起的不良反应。其特点是可以预测的,通常与剂量有关,发生率高,但死亡率低。副作用、毒性反应、后遗效应和药物依赖性等均属A类药物不良反应。产生该类不良反应因素。包括:(1)影响药物的吸收、分布、与大分子结合、代谢、排泄等因素;(2)靶器官敏感性增强。如强心甙中毒时,其中毒症状与用药剂量或血药浓度密切相关,随着剂量增加其不良反应程度加重,低剂量常表现为胃肠道反应,较大剂量时可出现心脏毒性和中枢神经系统毒性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条