PURPOSE: Investigation of the conformational and molecular dynamic properties of the acidic and sodium salt forms of Flurbiprofen and their solid dispersions with Eudragit RL100, obtained by two different preparation methods (physical mixtures and coevaporates), and of the mixing degree between the two components in the dispersions. MATERIALS AND METHODS: 1H and 13C high-resolution solid state NMR techniques, including Single Pulse Excitation-MAS, CP-MAS, FSLG-HETCOR; low-resolution 1H FID analysis; 1H spin-lattice relaxation time measurements. RESULTS: Conformational, molecular packing and dynamic differences were observed between the two pure forms of flurbiprofen, as well as between the pure drugs and the corresponding coevaporates. In the coevaporates of the two flurbiprofen forms, drug and polymer appear intimately mixed; their chemical interactions were detected and characterized. CONCLUSIONS: A combined analysis of several 13C and 1H high- and low-resolution solid state NMR experiments allowed the investigation of the conformational and dynamic properties of the pure drugs and of the solid dispersions with the polymer, as well as of the degree of mixing between drug and polymer and of the chemical nature of their interaction. Such information could be compared to the in vitro drug release profiles given by these solid dispersions.
PURPOSE: Investigation of the conformational and molecular dynamic properties of the acidic and sodium salt forms of Flurbiprofen and their solid dispersions with Eudragit RL100, obtained by two different preparation methods (physical mixtures and coevaporates), and of the mixing degree between the two components in the dispersions. MATERIALS AND METHODS:1H and 13C high-resolution solid state NMR techniques, including Single Pulse Excitation-MAS, CP-MAS, FSLG-HETCOR; low-resolution 1H FID analysis; 1H spin-lattice relaxation time measurements. RESULTS: Conformational, molecular packing and dynamic differences were observed between the two pure forms of flurbiprofen, as well as between the pure drugs and the corresponding coevaporates. In the coevaporates of the two flurbiprofen forms, drug and polymer appear intimately mixed; their chemical interactions were detected and characterized. CONCLUSIONS: A combined analysis of several 13C and 1H high- and low-resolution solid state NMR experiments allowed the investigation of the conformational and dynamic properties of the pure drugs and of the solid dispersions with the polymer, as well as of the degree of mixing between drug and polymer and of the chemical nature of their interaction. Such information could be compared to the in vitro drug release profiles given by these solid dispersions.
Authors: R Pignatello; M Ferro; G De Guidi; G Salemi; M A Vandelli; S Guccione; M Geppi; C Forte; G Puglisi Journal: Int J Pharm Date: 2001-05-07 Impact factor: 5.875
Authors: Jonathan R Yates; Sara E Dobbins; Chris J Pickard; Francesco Mauri; Phuong Y Ghi; Robin K Harris Journal: Phys Chem Chem Phys Date: 2005-04-07 Impact factor: 3.676
Authors: Rosario Pignatello; Daniela Spadaro; Maria Angela Vandelli; Flavio Forni; Giovanni Puglisi Journal: Drug Dev Ind Pharm Date: 2004-03 Impact factor: 3.225
Authors: Ta-Chung Ong; Melody L Mak-Jurkauskas; Joseph J Walish; Vladimir K Michaelis; Björn Corzilius; Albert A Smith; Andrew M Clausen; Janet C Cheetham; Timothy M Swager; Robert G Griffin Journal: J Phys Chem B Date: 2013-03-04 Impact factor: 2.991