ABSTRACT
As intelligent production of traditional Chinese medicine (TCM) has been inevitable, informatization and automation of the production process have become the precondition for realizing intelligent manufacturing of TCM, of which the accumulation of critical material attribute and the critical quality attribute are the basis. The study of material properties is of great significance to achieve the quality control of the final product in the process, but there is a lack of systematic induction and summary of the research on the attribute of TCM pills. Therefore, the authors analyzed and summarized the attributes of raw materials, excipients and intermediates in the pill unit process according to the classification of powder properties, rheological properties and texture properties. What’s more, the impact of material attributes on the quality of the final product was summarized. Besides, this review summarized the attribute characterization techniques involved in the pill process and provided some suggestions for the characterization of product quality attributes. Finally, based on the concept of quality by design (QbD), the authors proposed that the study of material attribute should be combined with process analytical technology (PAT), and the focus of drug quality control should be moved forward to guide equipment upgrading, so as to realize intelligent continuous manufacturing of TCM pills.
ABSTRACT
Inflammation is one of the important risk factors of rheumatic diseases. Aconiti Radix is widely used for the treatment of rheumatism, which has significant anti-inflammatory effects. However, its anti-inflammatory mechanism on molecular level is still not clear. The purpose of this study is to illuminate the anti-inflammatory mechanism of Aconiti Radix based on the protein interaction network (PIN) analysis on molecular network level. The main anti-inflammatory components (aconitine, hypaconitine and mesaconitine) were chosen in this study to obtain the targets of the components and protein-protein information though databases retrieval and construct the PIN of Aconiti Radix. By a graph theoretic clustering algorithm molecular complex detection(MCODE), 13 modules were identified and analyzed by gene ontology(GO) enrichment. The results showed that the anti-inflammatory mechanism of Aconiti Radix was mainly associated with prostanoid metabolic process and leukocyte chemotaxis mediated by chemokines. In this study, the anti-inflammatory mechanism of Aconiti Radix was elucidated systematically from molecular network level, which provided the scientific basis for the treatment of rheumatic diseases.