【摘 要】
:
Drug metabolism as a discipline plays an important role in drug discovery and development and the effects of drug metabolism on pharacokinetics (PK),pharmacodyn
【机 构】
:
Department of Pharmacokinetics, Pharmacodynamics and Drug Metabolism, Merck Sharp & Dohme Corp., Wes
论文部分内容阅读
Drug metabolism as a discipline plays an important role in drug discovery and development and the effects of drug metabolism on pharacokinetics (PK),pharmacodynamics (PD),and safety should be carefully considered.This communication provides an overview of common strategies in the area of drug metabolism for improving PK/PD and safety profiles of drug candidates;these include,but are not limited to,collaboration with medicinal chemists on structure-activity relationships (SAR) to overcome high clearance,using deuterium replacement to further optimize a lead,prodrug approaches to circumvent formulation and delivery difficulties,and addressing issues such as species differences in metabolism,drug-drug interactions (DDI) and formation of reactive metabolites.
其他文献
Ricin is a highly toxic type 2 ribosome-inactivating protein (RIP) which is extracted from the seeds of castor beans.Ricin is considered a potential bioterror a
经初步研究发现,石栗树果实的果仁其油脂含量可高达60%以上,具有兼产“油”和“煤”的优质生物柴油树种。石栗树的果实产量、油脂含量以及生产生物柴油潜力均比麻风树高,且结
Liquiritigenin (LG),isoliquiritigenin (Iso-LG),together with their respective glycoside derivatives liquiritin (LN) and isoliquiritin (Iso-LN),are the main acti
Chimeric antigen receptor T cell (CAR-T cell) therapy is a novel adoptive immunotherapy where T lymphocytes are engineered with synthetic receptors known as chi
油菜的白花性状是一个重要标志性状,目测极易鉴别,在测定品种的异交率及其纯度、检测性状转移等方面有着广阔的应用前景。对油菜白花性状基因进行分析研究,得到与花色性状紧密连锁的分子标记、控制花色性状的QTL位点以及非等位基因之间的互作位点,不仅有利于提高油菜育种效率、丰富油菜分子标记位点,而且可为进一步揭示花色性状的分子遗传机理和相关基因克隆奠定基础。本研究以普通黄花甘蓝型油菜HZ21-1与人工合成甘蓝
The safety of nanomaterials,a crucial consideration for clinical translation,is enhanced by using building blocks that are biologically nontoxic.Here,we used po
Although progress has been indeed made by nanomedicines,their efficacies for cancer treatment remain low,consequently leading to failures in translation to clin
我国水稻生产存在资源利用效率低、环境压力大、生产成本和劳动力投入高等问题,针对上述问题,张启发院士提出了绿色超级稻(Green Super Rice,GSR)的理念,其目标是使水稻生产“少打农药、少施化肥、节水抗旱、优质高产”。GSR和超级稻(Super Rice,SR)在理念上存在差异,GSR不过分追求单季超高产,旨在减少生产投入,提高资源利用效率,保护生态环境。然而,目前关于GSR和SR品种在
Multidrug resistance(MDR) remains a major clinical obstacle to successful cancer treatment.Although diverse mechanisms of MDR have been well elucidated, such as
Exploiting cells as vehicles combined with nanoparticles combined with therapy has attracted increasing attention in the world recently.Red blood cells,leukocyt