Investigation of water mobility and diffusivity in hydrating micronized low-substituted hydroxypropyl cellulose,hydroxypropylmethyl cellulose,and hydroxypropyl cellulose matrix tablets by magnetic resonance imaging (MRI) |
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Authors: | Kojima Masazumi Nakagami Hiroaki |
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Institution: | Tokyo Pharmaceutical Research Center, Pharmaceutical Technology Research Laboratories, Daiichi Pharmaceutical Co, Ltd, Edogaea-ku, Japan. kojimsnr@daiichipharm.co.jp |
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Abstract: | The water mobility and diffusivity in the gel-layer of hydrating low-substituted hydroxypropyl cellulose (LH41) tablets with or without a drug were investigated by magnetic resonance imaging (MRI) and compared with those properties in the gel-layer of hydroxypropylmethyl cellulose (HPMC) and hydroxypropyl cellulose (HPC) tablets. For this purpose, a localized image-analysis method was newly developed, and the spin-spin relaxation time (T(2)) and apparent self-diffusion coefficient (ADC) of water in the gel-layer were visualized in one-dimensional maps. Those maps showed that the extent of gel-layer growth in the tablets was in the order of HPC>HPMC>LH41, and there was a water mobility gradient across the gel-layers of all three tablet formulations. The T(2) and ADC in the outer parts of the gel-layers were close to those of free water. In contrast, these values in the inner parts of the gel-layer decreased progressively; suggesting that the water mobility and diffusivity around the core interface were highly restricted. Furthermore, the correlation between the T(2) of (1)H proton in the gel-layer of the tablets and the drug release rate from the tablets was observed. |
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