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Food-induced changes in theophylline absorption from controlled-release formulations. Part II. Importance of meal composition and dosing time relative to meal intake in assessing changes in absorption.食物对控释制剂中茶碱吸收的影响。第二部分。进餐成分和给药时间相对于进餐摄入时间在评估吸收变化中的重要性。
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Food-induced changes in theophylline absorption from controlled-release formulations. Part I. Substantial increased and decreased absorption with Uniphyl tablets and Theo-Dur Sprinkle.食物对控释制剂中茶碱吸收的影响。第一部分。优喘平片和茶喘平胶囊吸收的显著增加和减少。
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Gastric emptying of indigestible tablets in relation to composition and time of ingestion of meals studied by metal detector.通过金属探测器研究难消化片剂的胃排空与进餐成分和进餐时间的关系。
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食物对两种缓释制剂中硝苯地平药代动力学的影响:高脂早餐后出现明显的滞后时间。

The effect of food on the pharmacokinetics of nifedipine in two slow release formulations: pronounced lag-time after a high fat breakfast.

作者信息

Schug B S, Brendel E, Chantraine E, Wolf D, Martin W, Schall R, Blume H H

机构信息

SocraTec R&D, Oberursel, Germany.

出版信息

Br J Clin Pharmacol. 2002 Jun;53(6):582-8. doi: 10.1046/j.1365-2125.2002.01599.x.

DOI:10.1046/j.1365-2125.2002.01599.x
PMID:12047482
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1874338/
Abstract

AIMS

The aim of this study was to investigate the effect of concomitant food intake on the bioavailability of two nifedipine containing modified release dosage forms for once daily administration. The clinical study was performed to investigate the in vivo relevance of pH-dependent differences in the in vitro release properties of the two dosage forms.

METHODS

This was a randomized, open, 4-way crossover study in 24 healthy, male subjects. Following an overnight fast of 12 h single doses of Adalat OROS or Slofedipine XL were administered either in the fasted state or immediately after a high fat American breakfast. Nifedipine plasma concentrations in samples obtained until 48 h after drug administration were determined using a validated LC-MS/MS method. Calculation of pharmacokinetic parameters was conducted model-independently. The two dosage forms as well as the two administration conditions were compared by calculating point estimates and 90% confidence intervals for the relevant pharmacokinetic parameters. In vitro dissolution tests were performed using a paddle apparatus 3 acc. USP, a pharmacopoeial dissolution system consisting of reciprocating cylinders in flat-bottomed glass vessels, with various buffer systems covering the entire physiological pH-range of the gastrointestinal tract.

RESULTS

After fasted administration the extent of bioavailability of nifedipine as characterized by AUC(0,infinity) was slightly lower for Slofedipine XL compared with Adalat OROS with a point estimate of 82.3% primarily resulting from pronounced differences in nifedipine concentrations during the first 15 h after administration. Accordingly, maximum plasma concentrations were lower after administration of Slofedipine XL compared with Adalat OROS (point estimate: 84.3%). Under fed conditions the differences in bioavailability between the two products as characterized by the pharmacokinetic parameters AUC(0,tn) and Cmax were greater than after fasting conditions with point estimates of 69.6% and 81.0%, respectively. However, most striking was a pronounced delay in nifedipine absorption observed under fed conditions after administration of Slofedipine XL which resulted in lag-times of more than 15 h in 15 out of 24 subjects. Owing to this lag-time under fed conditions the relative bioavailability of nifedipine from Slofedipine XL compared with Adalat OROS was only 28% over the intended dosing interval of 24 h.

CONCLUSIONS

In this study a dosage form-dependent food interaction was observed which, under fed conditions, resulted in pronounced differences in the relative bioavailability of nifedipine between Slofedipine XL and Adalat OROS over the intended dosing interval of 24 h. The delay in nifedipine absorption when Slofedipine XL is administered after a high-fat breakfast may be explained by the formulation properties. Slofedipine XL is an erosive tablet with an acid resistant coating whereas Adalat OROS is designed with an osmotic push-pull system. Under fed conditions drug from the single unit enteric coated dosage form exhibits a delayed absorption probably due to an extensively prolonged gastric residence time which does not allow drug release, on the other hand the osmotically driven push-pull system is not sensitive to concomitant food intake. The observed phenomenon might be of therapeutic relevance. For example a change from taking Slofedipine XL in the fed to the fasted state might result in increased systemic concentrations of nifedipine.

摘要

目的

本研究旨在探讨同时进食对两种每日一次给药的硝苯地平缓释剂型生物利用度的影响。进行临床研究以考察两种剂型体外释放特性中pH依赖性差异的体内相关性。

方法

这是一项针对24名健康男性受试者的随机、开放、四交叉研究。在禁食12小时后,单剂量的拜新同控释片(Adalat OROS)或硝苯地平缓释片(Slofedipine XL)在禁食状态下或高脂美式早餐后立即给药。使用经过验证的液相色谱-串联质谱(LC-MS/MS)方法测定给药后48小时内采集的样本中硝苯地平的血浆浓度。药代动力学参数的计算采用非模型依赖方法。通过计算相关药代动力学参数的点估计值和90%置信区间,对两种剂型以及两种给药条件进行比较。体外溶出试验使用桨法装置3(符合美国药典(USP)),这是一种药典溶出系统,由平底玻璃容器中的往复圆筒组成,采用各种覆盖胃肠道整个生理pH范围的缓冲系统。

结果

禁食给药后,以AUC(0,∞)表征的硝苯地平生物利用度程度,硝苯地平缓释片相较于拜新同控释片略低,点估计值为82.3%,主要是由于给药后前15小时硝苯地平浓度存在显著差异。相应地,硝苯地平缓释片给药后的最大血浆浓度低于拜新同控释片(点估计值:84.3%)。在进食条件下,以药代动力学参数AUC(0,t)和Cmax表征的两种产品之间的生物利用度差异大于禁食条件下,点估计值分别为69.6%和81.0%。然而,最显著的是在进食条件下服用硝苯地平缓释片后观察到硝苯地平吸收明显延迟,24名受试者中有15名出现超过15小时的滞后时间。由于进食条件下的这种滞后时间,在24小时的预期给药间隔内,硝苯地平缓释片相对于拜新同控释片的硝苯地平相对生物利用度仅为28%。

结论

在本研究中观察到剂型依赖性的食物相互作用,在进食条件下,在24小时的预期给药间隔内,硝苯地平缓释片和拜新同控释片之间硝苯地平的相对生物利用度存在显著差异。高脂早餐后服用硝苯地平缓释片时硝苯地平吸收延迟可能由制剂特性解释。硝苯地平缓释片是一种有耐酸包衣的侵蚀性片剂,而拜新同控释片采用渗透推拉系统设计。在进食条件下,来自单单位肠溶包衣剂型的药物吸收延迟,可能是由于胃停留时间大幅延长,不允许药物释放,另一方面,渗透驱动的推拉系统对同时进食不敏感。观察到的现象可能具有治疗相关性。例如,从进食状态改为禁食状态服用硝苯地平缓释片可能导致硝苯地平全身浓度增加。