Doose D R, Minn F L, Stellar S, Nayak R K
R. W. Johnson Pharmaceutical Research Institute, Spring House, Pennsylvania 19477-0776.
J Clin Pharmacol. 1992 Dec;32(12):1089-95.
The effects of meals and meal composition on the bioavailability of fenretinide, N-(4-hydroxyphenyl) retinamide, a synthetic retinoid undergoing clinical trials, were examined in two separate studies using an open, randomized, crossover design. In the first study, 13 healthy male volunteers received 300-mg doses of fenretinide (1) while fasting and (2) after a high-fat breakfast. In a subsequent study, 15 subjects received 300 mg fenretinide after each of three different test meals (high-fat, high-protein, and high-carbohydrate) separated by a 1-week washout period. Plasma specimens obtained over a 72-hour period after each treatment were assayed by high-pressure liquid chromatography to characterize the effects of a meal and meal composition on the bioavailability of fenretinide. Results from the initial study demonstrated a significant increase in the bioavailability of fenretinide after a high-fat meal. In the follow-up study, the bioavailability of fenretinide, as assessed by total area under the plasma concentration curve, was three times greater after the high-fat meal than after the high-carbohydrate meal. This supported the findings of the first study. Although to a lesser extent, the high-protein meal also produced a greater area under the curve than the high-carbohydrate meal. These combined findings demonstrate that the bioavailability of fenretinide is markedly influenced not only by administration with meals but also by the specific composition of such meals.
在两项独立研究中,采用开放、随机、交叉设计,研究了进餐及膳食成分对芬维A胺(N-(4-羟苯基)视黄酰胺)生物利用度的影响。芬维A胺是一种正在进行临床试验的合成类视黄醇。在第一项研究中,13名健康男性志愿者(1)在禁食时、(2)在高脂早餐后接受300毫克剂量的芬维A胺。在随后的研究中,15名受试者在三种不同测试餐(高脂、高蛋白和高碳水化合物)中的每一种之后接受300毫克芬维A胺,每次测试餐之间间隔1周的洗脱期。在每次治疗后72小时内采集的血浆样本通过高压液相色谱法进行分析,以确定进餐及膳食成分对芬维A胺生物利用度的影响。初步研究结果表明,高脂餐后芬维A胺的生物利用度显著增加。在后续研究中,以血浆浓度曲线下总面积评估,高脂餐后芬维A胺的生物利用度比高碳水化合物餐后高两倍。这支持了第一项研究的结果。虽然程度较轻,但高蛋白餐也比高碳水化合物餐产生更大的曲线下面积。这些综合研究结果表明,芬维A胺的生物利用度不仅受到进餐的影响,还受到此类膳食具体成分的显著影响。