RT Journal Article SR Electronic T1 Overview of Current Herb-Drug Interaction Databases JF Drug Metabolism and Disposition JO Drug Metab Dispos FD American Society for Pharmacology and Experimental Therapeutics SP DMD-MR-2021-000420 DO 10.1124/dmd.121.000420 A1 Yufeng Zhang A1 Chung Man Ip A1 Yuen Sze Lai A1 Zhong Zuo YR 2021 UL http://dmd.aspetjournals.org/content/early/2021/10/25/dmd.121.000420.abstract AB An HERB-Drug Interaction (HDI) database is a structured data collection about HDI information extracted from scattered literatures for quick retrieving purpose. Our review summarized the currently available ten HDI databases, including those databases comprising HDI, on the market. Not only a detailed comparison on the scope of monographs included, nature of content extracted from the original literature, and user interfaces of these databases was performed, but also the number of references of fifty popular herbs in each HDI database was counted and presented in a heatmap to give users an intuitive understanding of the focuses of different HDI databases. Since it is well known that the development and maintenance of databases need continuous investment of capital and manpower, the sustainability of these databases is also reviewed and compared. Recently, artificial intelligence (AI) technologies, especially Natural Language Processing (NLP), have been applied to screen specific topics from massive articles and automatically identify the names of drugs and herbs in the literature. However, its application on the labour-intensive extraction and evaluation of HDI-related experimental conditions and results from literature remains limited due to the scarcity of these HDI data and the lack of well-established annotated datasets for these specific NLP recognition tasks. In view of the difficulties faced by current HDI databases and potential expansion of AI application in HDI database development, we propose a standardized format for data reporting and use of Concept Unique Identifier (CUI) for medical terms in the literature so as to accelerate the structured data collection. Significance Statement The worldwide popularity of botanical and/or traditional medicine products raised safety concerns due to potential HDI. However, the publicly available HDI databases are mostly outdated or incomplete. Through our review of the currently available HDI databases, a clear understanding of the key issues could be obtained and possible solutions to overcome the labour-intensive extraction as well as professional evaluation of information in HDI database development are proposed.