Tanaka Nobuyuki, Imai Keiji, Okimoto Kazuto, Ueda Satoshi, Tokunaga Yuji, Ibuki Rinta, Higaki Kazutaka, Kimura Toshikiro
Astellas Pharma Inc., Pharmaceutical Technology Laboratories, 1-6 Kashima 2-chome, Yodogawa-ku, Osaka 532-8514, Japan.
J Control Release. 2006 May 1;112(1):51-6. doi: 10.1016/j.jconrel.2006.01.020. Epub 2006 Mar 20.
A novel sustained-release (SR) system, disintegration-controlled matrix tablet (DCMT), was developed for poorly water-soluble drugs. DCMT, consisting of wax and solid dispersion (SD) granules containing a disintegrant, could control the release of nilvadipine (NiD), a model compound, by its disintegration. In the present study, two DCMTs (DCMT-1 and DCMT-2) with different release rates of NiD were orally administered to beagle dogs, and in vivo absorption of NiD from DCMTs was compared with that from immediate-release (IR) tablets. DCMTs successfully sustained the absorption of NiD longer than IR tablets, while they did not decrease the bioavailability of NiD. DCMT-2, providing the slower release of NiD than DCMT-1, prolonged the absorption longer than DCMT-1. In vivo absorption profiles of NiD from DCMTs were significantly correlated with in vitro release profiles, suggesting that the release property from DCMTs would maintain regardless of the change in physiological condition through the gastrointestinal tract. Furthermore, the food intake did not affect the absorption of NiD after oral administration of DCMT-2. The present results strongly indicate that the DCMT system would be a promising SR system, which could improve the solubility and sustain the absorption of poorly water-soluble drugs.
一种新型的缓释(SR)系统——崩解控制型骨架片(DCMT),被开发用于难溶性药物。DCMT由蜡和含有崩解剂的固体分散体(SD)颗粒组成,可通过其崩解来控制模型化合物尼伐地平(NiD)的释放。在本研究中,将两种尼伐地平释放速率不同的DCMT(DCMT - 1和DCMT - 2)口服给予比格犬,并比较了DCMT中尼伐地平的体内吸收情况与速释(IR)片的吸收情况。DCMT成功地使尼伐地平的吸收时间比IR片更长,同时并未降低尼伐地平的生物利用度。与DCMT - 1相比,DCMT - 2中尼伐地平的释放较慢,其吸收时间延长得比DCMT - 1更长。DCMT中尼伐地平的体内吸收曲线与体外释放曲线显著相关,这表明无论胃肠道生理状况如何变化,DCMT的释放特性都能保持。此外,摄入食物对口服DCMT - 2后尼伐地平的吸收没有影响。目前的结果有力地表明,DCMT系统将是一种有前景的缓释系统,它可以提高难溶性药物的溶解度并维持其吸收。
