Objective:To establish a method for evaluating the material attributes and skeletal performance of 2208 hydroxypropyl methylcellulose(HPMC),to clarify the influence of different material attributes on the skeletal per-formance of HPMC,to compare the differences between the products of different manufacturers,and to analyze the factors affecting the process.Methods:In this study,the material attributes such as powder chemical properties,viscosity,gelation temperature,thermodynamic properties,weight-average molecular weight,methoxy and hydroxypropoxy contents of different manufacturers were firstly investigated.Then,the water absorption,swelling,and dissolution properties of HPMC blank skeleton tablets were determined using the weighing method.Finally,Principal Component Analysis(PCA)and Orthogonal Partial Least-Squares Discrimination Analysis(OPLS-DA)were used to systematically evaluate the material attributes and skeleton performance of HPMC.The systematic evaluation of each material attribute and skeleton performance of HPMC was carried out to elucidate the intrinsic relationship between each material attribute and skeleton performance of HPMC.Results:The results showed that there were obvious differences in the material attributes of HPMC from different manufacturers,such as the proper-ties of powder,viscosity,and weight-average molecular weight,and that there were differences in the corrosion performance,water absorption,and swelling performance of the skeleton tablets prepared from different manufactur-ers,with the most obvious differences between K4Mand K100M.The results of the PCA and OPLS-DA analyses indicated that these 19 variables showed some correlation with each other.Both mathematical models showed better differentiation and classification effects on HPMC samples,and the OPLS-DA model had better classification effects than the PCA model.Conclusion:Based on the PCA and OPLS-DA models,this study conducted systematical research on HPMC,clarified the degree of influence of different material attributes on the skeletal performance of HPMC,and suggested the addition of HPMC particle size and size distribution,and weight-average molecular weight as the quality standards,which provide a basis for the quality control of the related excipients,the screening of formulation prescriptions,and the improvement of performance.

Objective:To establish a method for evaluating the material attributes and skeletal performance of 2208 hydroxypropyl methylcellulose(HPMC),to clarify the influence of different material attributes on the skeletal per-formance of HPMC,to compare the differences between the products of different manufacturers,and to analyze the factors affecting the process.Methods:In this study,the material attributes such as powder chemical properties,viscosity,gelation temperature,thermodynamic properties,weight-average molecular weight,methoxy and hydroxypropoxy contents of different manufacturers were firstly investigated.Then,the water absorption,swelling,and dissolution properties of HPMC blank skeleton tablets were determined using the weighing method.Finally,Principal Component Analysis(PCA)and Orthogonal Partial Least-Squares Discrimination Analysis(OPLS-DA)were used to systematically evaluate the material attributes and skeleton performance of HPMC.The systematic evaluation of each material attribute and skeleton performance of HPMC was carried out to elucidate the intrinsic relationship between each material attribute and skeleton performance of HPMC.Results:The results showed that there were obvious differences in the material attributes of HPMC from different manufacturers,such as the proper-ties of powder,viscosity,and weight-average molecular weight,and that there were differences in the corrosion performance,water absorption,and swelling performance of the skeleton tablets prepared from different manufactur-ers,with the most obvious differences between K4Mand K100M.The results of the PCA and OPLS-DA analyses indicated that these 19 variables showed some correlation with each other.Both mathematical models showed better differentiation and classification effects on HPMC samples,and the OPLS-DA model had better classification effects than the PCA model.Conclusion:Based on the PCA and OPLS-DA models,this study conducted systematical research on HPMC,clarified the degree of influence of different material attributes on the skeletal performance of HPMC,and suggested the addition of HPMC particle size and size distribution,and weight-average molecular weight as the quality standards,which provide a basis for the quality control of the related excipients,the screening of formulation prescriptions,and the improvement of performance.

To better promote the development of film-coated formulations and membrane agents, the present study was carried out to investigate the critical material attributes (CMAs) of different sources and models of HPMC in terms of film-coating performance and the correlation between each of the CMAs and the film-coating-related properties, using 2910 HPMC as the research target. Firstly, various analytical techniques were used to characterize the CMAs and film coating-related properties of HPMC. Secondly, the CMAs and film coating-related properties of HPMC were systematically evaluated by principal component analysis (PCA) and orthogonal partial least-squares discrimination analysis (OPLS-DA). The CMAs and film-coating-related properties of HPMC were systematically evaluated to elucidate the intrinsic relationship between the CMAs and film-coating-related properties of HPMC. The results showed that there were significant differences in viscosity, weight-average molecular weight, film tensile strength, elongation, elastic modulus, dissolution time, and flexibility of HPMCs from different manufacturers. The results of PCA and OPLS-DA analyses indicated that these 11 variables showed some correlations with each other. Both mathematical models showed better differentiation and classification of HPMC samples, and the OPLS-DA model had a better classification effect than the PCA model. Therefore, in this study, the physicochemical properties and the film-forming characteristic of HPMC were comprehensively evaluated, and the correlation between them was further established using PCA and OPLS-DA. The impact degree of different CMAs on the film coating performance of HPMC was clarified, which can be used as an important reference for the selection of excipient quality control programs in excipient production and formulation research and development.