OBJECTIVE To develop a mobile intelligent pharmacy management assistant system （abbreviated as “assistant system”）， thus providing convenient support for the daily operational management of pharmacies. METHODS The system was developed using the WeChat developer tools with WXML， WXSS， and JavaScript based on the platform as a service （PaaS）. Test users were recruited， and in five different scenarios， namely pharmaceutical knowledge inquiry， drug damage registration， medication error data analysis， drug expiration date registration， and duty handover， the task execution time was recorded for both the new （assistant system） and old （paper-based records and fixed computer records） modes. Additionally， users’ opinions on the advantages of the new mode were collected. RESULTS The assistant system comprised six modules: shift handover， pharmaceutical knowledge database， medication error registration， drug expiry management， drug damage registration， and medication consultation records. Among 10 test users， in all scenarios except for the shift handover record， the task execution time under the new mode was shorter than that under the old mode （P＜0.05）. Most test pharmacists highlighted that the primary advantages of the new mode lie in its iterative flexibility， and ease of use among other benefits. CONCLUSIONS The assistant system based on PaaS cloud model WeChat mini program developed in this study can significantly improve the daily management efficiency of the pharmacy and optimize the task execution experience for pharmacists.

In the mammalian central nervous system (CNS), astrocytes are the ubiquitous glial cells that have complex morphological and molecular characteristics. These fascinating cells play essential neurosupportive and homeostatic roles in the healthy CNS and undergo morphological, molecular, and functional changes to adopt so-called 'reactive' states in response to CNS injury or disease. In recent years, interest in astrocyte research has increased dramatically and some new biological features and roles of astrocytes in physiological and pathological conditions have been discovered thanks to technological advances. Here, we will review and discuss the well-established and emerging astroglial biology and functions, with emphasis on their potential as therapeutic targets for CNS injury, including traumatic and ischemic injury. This review article will highlight the importance of astrocytes in the neuropathological process and repair of CNS injury.
Astrocytes/drug effects* ; Humans ; Animals ; Central Nervous System/pathology* ; Central Nervous System Diseases/physiopathology*