Objective To explore the therapeutic effect of traditional Chinese medicine(TCM)on subsolid nodule(SSN).Methods A practical randomized controlled study method,including 254 SSN patients was adopted.The patients were divided into the TCM(102 cases)and follow-up(152 cases)groups.The follow-up group received regular check-ups in accordance with the guidelines,and the TCM group received TCM syndrome differentiation treatment for 24 weeks.The two groups were compared in terms of the changes in their SSN diameter,SSN number,TCM symptom score,and overall therapeutic effect before and after treatment.Adverse reactions and safety indicators were also recorded.Results The TCM group showed a significantly higher effective rate of treatment(16.7%)than the follow-up group(2.6%)(P<0.01).Compared with their condition before treatment,the TCM group showed no significant changes in their SSN diameter and number but presented considerably reduced fatigue,yellow and red urine symptoms,and overall TCM symptom score(P<0.05).The follow-up group exhibited significantly increased diameter and number of SSN(P<0.01).The follow-up group showed the significantly higher increase in SSN diameter after treatment than the TCM group(P<0.05).Moreover,the follow-up group showed significantly higher fatigue,depression,yellow and red urine symptom scores,and overall TCM symptom score than the TCM group(P<0.05 or P<0.01).Conclusion TCM treatment for SSN has a distinct clinical efficacy,reduces the malignant risk of SSN and improves clinical symptoms of SSN patients,and is safe and feasible.

Natural endogenous materials (NEMs), such as cell and cell derivatives, polysaccharide, protein and peptide, and nucleic acid-derived vectors, often exhibit biocompatibility, biodegradability and natural homing ability, which can minimize adverse reactions in vivo and have the potential to improve drug delivery efficacy. Currently, a variety of drug delivery systems (DDSs) based on NEMs have been constructed for macromolecules to address the challenges posed by their inherent large size, intricate structure, low permeability, and susceptibility to harsh environments. The aim of this article is to provide a comprehensive overview of various delivery strategies that predominantly utilize NEMs as carriers for macromolecular delivery. By thoroughly discussing the pros and cons of NEM-based DDSs, we hope to provide valuable insights into future innovations in pharmaceutical science, with a focus on improving therapeutic outcomes through advanced drug formulations.
Animals ; Humans ; Biological Products/chemistry* ; Drug Carriers/chemistry* ; Drug Delivery Systems ; Macromolecular Substances/chemistry*