生物利用度用于阿司匹林新制剂的评价

以12个健康受试者(9男3女)评价了铝盐、缓冲及非缓冲三种阿司匹林片的生物利用度。从一次单剂量口服的实验数据中,作统计分析,结果表明这三种片剂的差别是显著的,其中缓冲片较其它两种片剂好些。缓冲片有较快的溶解速度,它的血浓度高峰时间快些,高峰浓度高些。同时体外溶出速率T_50%与体内高峰浓度及血药浓度时间曲线下面积相关。     

Comparison of the dissolution and pharmacokinetic profiles of two galenical formulations of the endothelin receptor antagonist macitentan

Macitentan (ACT-064992) is an orally active endothelin receptor antagonist. We first compared the in vitro dissolution characteristics of uncoated and film-coated tablets with hard gelatin capsules containing 10 mg ACT-064992. Subsequently, we compared the oral pharmacokinetics of ACT-064992 and its active metabolite ACT-132577 of the coated tablet and the gelatin capsule formulation in 11 male volunteers.The dissolution profile showed a rapid disintegration of all formulations with >90% dissolution of ACT-064992 within 45 min. The pharmacokinetics of ACT-064992 and its metabolite ACT-132577 were comparable for the two formulations. ACT-064992 revealed a slow absorption (median t_max 8 h) and a terminal half-life of approximately 13 h. Bioequivalence criteria were met for AUC_0−t and AUC_0−∞. Mean C_max was 19% lower after ingestion of the tablet compared to capsules with its lower 90% confidence limit below the accepted bioequivalence range. The pharmacokinetics of the metabolite ACT-132577, characterized by a t_max of approximately 48 h and a terminal half-life of approximately 45 h, was not different between the two formulations.We conclude that the absorption profile of the tablet differs from the capsule in peak but not in total exposure, which is not expected to be of clinical significance.     

In vitro/in vivo correlation of prolonged release dosage forms containing diltiazem HCl

Six preparations were considered: three multiple unit dosage forms (micropellets in capsules) (D, E and G) and one matrix tablet (B) were experimental prolonged release formulations, two non-disintegrating tablets (A and C) were commercial products. The in vitro dissolution behaviour of the differing formulations was investigated using the USP XXII paddle apparatus. The in vivo study was effected on a panel of 12 healthy volunteers. The two commercial tablets (A and C) showed mean dissolution time (MDT) of 1.34 and 1.44 h and t_d of 91 and 92 min, respectively; for prolonged release formulations (B, E, D, and G) MDT ranged between 2.28 and 4.23 h and t_d between 149 and 291 min. The mean residence time (MRT) was 8.68 and 6.47 h for tablets A and C, respectively; it ranged between 9.62 and 10.24 h for the multiple unit formulations E, D, and G and was 11.27 h for matrix B. Formulation B also showed the higher apparent elimination half-life t_1/2 (7.12 h), while apparent t_1/2 for all the other formulations were very similar, ranging between 5.04 and 5.28 h. High variability between the various formulations was found for C_max and AUC values, and no relationships could be established with the type of formulation. An in vitro/in vivo correlation was found for all the formulations examined on the basis of analogous parameters (MDT and MRT); (r = 0.83, p <0.05). In a few cases the Wagner-Nelson deconvolution method was applied to individual plasma level versus time curves and the corresponding absorption curves were obtained. In these cases the in vitro/in vivo correlation was tested on the basis of the comparison of the in vivo absorption curves with the in vitro dissolution profiles. This was accomplished using the ‘Levy's plot’ (per cent released versus per cent absorbed) approach and provided further support for the correlation found.     

消炎痛缓释胶囊的生物利用度研究

消炎痛普通制剂口服吸收迅速,可出现不必要的高血药浓度,导致不良反应。为此我们对三种消炎痛缓释胶囊(A,B,C)和一种常用片剂(D)作了体外溶出试验和体内生物利用度比较。胶囊制剂由丙烯酸类树脂材料E₃₀D包衣的药物小丸制成,其体外溶出行为显示缓慢释放图象。在8名成年男性交叉实验中,不同胶囊制剂和普通片剂之间的Tmax,Cmax和AUC_0～12h经方差分析无统计学差异,但是在给药后4至12小时的血清浓度—时间曲线,均比普通片剂高而平滑。在第12小时,三种胶囊产生的血清浓度显著高于普通片剂(P<0.1)。根据体外溶出行为和体内生物利用度发现T₅₀或Tmax和包衣厚度呈良好线性关系。     

明目蒺藜丸联合聚乙烯醇滴眼液治疗干眼症的临床研究

目的 制备他达拉非片并考察其体内外释药特性。方法 以溶出度为评价指标,筛选他达拉非片各辅料用量及包衣增重。用相似因子（f₂）法比较自制制剂与参比制剂在0.5% SDS溶液、含0.5% SDS的0.1 mol/L的盐酸溶液、含0.5% SDS的pH 4.5醋酸钠缓冲液、含0.5% SDS的pH 6.8磷酸盐缓冲液中溶出曲线的相似性。比较二者在Beagle犬体内的药动学特征。结果 他达拉非片处方为他达拉非20 mg、乳糖50M 227.625 mg、羟丙基纤维素L 10.5 mg、交联羧甲基纤维素钠19.6 mg、SDS 0.525 mg、微晶纤维素M102 70 mg、硬脂酸镁1.75 mg,包衣增质量范围2%～4%。自制与参比制剂在4种溶出介质中的f₂均大于65,二者体外溶出行为相似。2种制剂在Beagle体内的药动学参数AUC_0~t、C_max、t_max均无显著性差异,自制他达拉非片的相对生物利用度为（101.67±8.99）%。结论 成功制备他达拉非片,其体外溶出和体内药动学行为与参比制剂相似。     

Comparative bioavailability of josamycin,a macrolide antibiotic,from a tablet and solution and the influence of dissolution on in vivo release

The bioavailability of josamycin from a tablet formulation (2 × Josacine® 500 mg tablets) was investigated and compared with the bioavailability of a solution (containing 1 g drug and buffered at pH 4.0) following administration to six healthy human volunteers. Bioavailability profiles for the solution indicated that the drug was inherently rapidly absorbed with a mean C_max of 1.64±0.67 mg L⁻¹ attained at a mean t_max of 0.39±0.08 h. The AUC_0–last was 1.510±0.687 mg h L⁻¹. Bioavailability was significantly lower from the tablets than from the solution. Highly variable serum concentration–time profiles were obtained from the tablets and C_max values ranged from 0.05 to 0.71 mg L⁻¹ with a t_max range of 0.33–2.0 h. AUC_0–last values ranged from 0.03 to 0.95 mg h L⁻¹. Dissolution of josamycin from the tablets was generally unaffected at low pH (pH 1.2–5.0), but, rather, limited predominantly by tablet disintegration. However, dissolution was increasingly limited as the pH increased from 5.0 to 9.0. Besides poor disintegration, the particularly low intrinsic dissolution rate and solubility of josamycin at these pH values is likely to further reduce the dissolution rate. Comparison of the solution and tablet serum concentration–time profiles suggests that the absorption of josamycin from the tablets was dissolution rate limited. This is supported by the in vitro dissolution–pH topogram, which suggests that dissolution will be particularly rate limiting if dissolution of whole or parts of tablets occurs in gastro-intestinal fluid above pH 5.0. © 1998 John Wiley & Sons, Ltd.     

IN VIVO/IN VITRO CORRELATIONS FOR FOUR DIFFERENTLY DISSOLVING KETOROLAC TABLETS

This study assesses whether in vitro immediate release ketorolac tablet dissolution profiles (utilizing the recently proposed USP dissolution test for ketorolac tablets) can be correlated with in vivo plasma pharmacokinetic parameters. Four batches of ketorolac tablets were utilized: a ketorolac tablet batch that demonstrated a rapid dissolution rate during USP in vitro dissolution testing, two tablet batches that were manufactured such that they dissolved at moderate rates, and a tablet batch that was manufactured such that it dissolved at a distinctly slow rate. The single-dose mean pharmacokinetic characteristics and relative bioavailability of the four different 10 mg ketorolac tromethamine tablets were evaluated in 12 healthy volunteers in a randomized study of Latin square design. The amount dissolved of the various tablets at 10, 20, and 30 min was in the order of fast-dissolving tablets > medium-1-dissolving tablets=medium-2-dissolving tablets > slow-dissolving tablets. In general, the profiles of the average plasma concentrations for ketorolac were similar for the fast- and the two medium-dissolving tablet batches (even though a statistically significant difference was found between the t_max of the fast-dissolving tablet and one of the medium-dissolving tablet batches). The mean plasma concentrations for the slow-dissolving tablet, however, reached peak levels much later, with the peak also being significantly smaller. There were no statistically significant differences in the total AUC or in the mean plasma half-lives among the four formulations. Good correlations were obtained for mean t_max versus the percentage dissolved at 20, 30, and 45 min. Correlations were generally weaker for percentage dissolved versus C_max or percentage bioavailability. This indicates that in vitro dissolution testing for immediate release ketorolac tablets can be a useful indicator of in vivo time to maximum plasma concentration when comparing similarly formulated tablets. Further, the proposed USP dissolution test and specification would have appropriately failed the slow-dissolving tablet batch, which demonstrated a significantly slower rate of absorption as per t_max and C_max.     

Investigating a Modified Apparatus to Discriminate the Dissolution Capacity In Vitro and Establish an IVIVC of Mycophenolate Mofetil Tablets in the Fed State

In this study, a modified dissolution apparatus was developed by equipping a USP apparatus Ⅰ with an open-loop system to discriminate the dissolution capacity in vitro and establish an in vitro and in vivo correlation (IVIVC) for mycophenolate mofetil (MMF) tablets. MMF had strong pH-dependent solubility that could influence the dissolution rate in vivo after the meal. Dissolution tests involving reference (Cellcept®) and test formulations (F1 and F2) were conducted using pH 4.5 acetate buffer to simulate gastric fluids in the fed state. The dissolution profiles of the reference and test formulations were distinguished by using the modified dissolution apparatus and compared with those determined using the USP apparatuses Ⅱ and Ⅳ, and the dissolution capacities of the formulations were discriminated at different sampling time-points. The results of human bioequivalence (BE) studies in the fed state were consistent with in vitro evaluations that the maximum concentrations (C_{max, in vivo}) of both F1 and F2 fell below the acceptable range (80.00%). A level A IVIVC between the absorption fraction in vivo and dissolution in vitro, and a level C correlation between C_{max, in vivo} and C_{max, in vitro}, were established to guide the optimization of the tablet formulation containing MMF.     

Development of gastroretentive drug delivery system for cefuroxime axetil: In vitro and in vivo evaluation in human volunteers

The objective of this investigation was to develop the cefuroxime axetil sustained-release floating tablets to prolong the gastric residence time and compare their pharmacokinetic behavior with marketed conventional tablets (Zocef). The floating tablets were developed using polymers like HPMC K4M and HPMC K100M alone, and polymer combination of HPMC K4M and Polyox WSR 303 by effervescent technique. Tablets were prepared by slugging method and evaluated for their physical characteristics, in vitro drug release, and buoyancy lag time. The best formulation (F10) was selected based on in vitro characteristics and used in vivo radiographic and bioavailability studies in healthy human volunteers. All the formulations could sustain drug release for 12 h. The dissolution profiles were subjected to various kinetic release models and it was found that the mechanism of drug release followed Peppas model. The in vivo radiographic studies revealed that the tablets remained in stomach for 225±30 min. Based on in vivo performance, the developed floating tablets showed superior bioavailability than Zocef tablet. Based on in vivo performance significant difference was observed between C_max, t_max, t_1/2, AUC_0–∞, and mean residence time of test and reference (p<0.05). The increase in relative bioavailability of test was 1.61 fold when compared to reference.     

Urinary pH and plasma levels of salicylate after administration of different buffered acetylsalicylic acid formulations

In a controlled cross-over study comprising eight healthy subjects of effervescent acetylsalicylic acid (ASA) and an experimental ASA formulation were compared with unbuffered ASA and placebo concerning effects on the urinary pH within a dosage interval after 2 days' medication with 3 g ASA daily. The effects on the urinary pH were related to the morning plasma salicylate concentrations observed. Both the buffered formulations significantly increased the median pH of the period studied compared to unbuffered ASA, the effervescent by 1·5 units and the experimental by 0·6 units. Unbuffered ASA significantly decreased the median pH compared to placebo. Those subjects with the most acidic urine during placebo treatment showed the most pronounced pH elevations due to effervescent ASA. The plasma salicylate concentration was significantly lower with the effervescent formulation compared with unbuffered ASA, but there was no statistical difference between the experimental tablet and unbuffered ASA. The variable effects on the urinary pH and the plasma salicylate concentrations induced by the two buffered preparations are explained by the different absorbabilities of the buffering agents included. The results presented are consistent with recommendations not to use bicarbonate-containing ASA formulations continuously when high plasma levels are desirable.     

Generic sustained release tablets of trimetazidine hydrochloride: Preparation and in vitro–in vivo correlation studies

The aim of the current work was to develop generic sustained-release tablets containing 35 mg trimetazidine dihydrochloride and to establish an in vitro–in vivo correlation that could predict the bioavailability. The marketed sustained release tablet (Vastarel MR) used as reference, a sustained-release matrix tablet was prepared using hydroxypropyl methylcellulose (HPMC) as matrix by wet granulation and the in vitro dissolution profiles of the self-made tablets were determined in four different dissolution media (0.1 M HCl, pH 4.5 PBS, pH 6.8 PBS and water). A higher similarity between prepared tablets and Vastarel MR was established, with similarity factor (f₂) ranging from 60 to 75 in the four media. The in vivo pharmacokinetics was studied in six healthy beagles. Compared with Vastarel MR, the C_max of self-made tablets was slightly decreased, while the T_max and MRT_0–t were slightly prolonged, but with no significant difference (P > 0.05). The average of relative bioavailability (F) was 102.52% based on AUC_0–t. For log-transformed AUC_0–t and C_max, the upper confidence limit on the appropriate criterion is <0, indicating these two formulations were population bioequivalent. The in vivo–in vitro correlation coefficient obtained from point-to-point analysis of self-made tablets was 0.9720. In conclusion, the prepared tablets were bioequivalent to the marketed tablets, according to both the in vitro release rate and extent of absorption, and a good in vivo–in vitro correlation was established for the self-made tablets that indicated in vitro dissolution tests could be used as a surrogate for bioavailability studies.     

格列齐特片的制备工艺和溶出一致性评价

目的 制备格列齐特片,进行体外溶出一致性评价。方法 通过单因素实验考察黏合剂的浓度、外加崩解剂的量、外加润滑剂和助流剂的量、颗粒的大小和片剂的硬度几个因素对溶出的影响,进行处方工艺的筛选。放大制备3批格列齐特片,考察在4种不同溶出介质中自制片和参比制剂的溶出一致性。结果 3批自制片在磷酸盐缓冲液（pH7.4）中15 min内溶出大于85%,在水、pH1.2盐酸溶液、pH6.0磷酸盐溶液中的f₂均大于50。结论 在4种不同的溶出介质中,自制片与参比制剂体外溶出一致。     

Zero-Order Release Formulation of Oxprenolol Hydrochloride with Swelling and Erosion Control

Zero-order release of oxprenolol hydrochloride was obtained by controlling the swelling and erosion of the matrix. This formulation involves only mixing of drug, hydroxypropylmethylcellulose (HPMC), and sodium carboxymethylcellulose (Na CMC) at the ratio of 1:0.4:1.6, respectively, and compressing the mixture directly into tablets. The in vitro release pattern from this optimized matrix tablet was reproducible. Accelerated stability studies revealed that the optimized formulation remains stable for an approximately 2-year shelf life. This sustained-release (SR) tablet was evaluated in dogs, and for comparison a conventional (CV) formulation was also given at the same dose level. Plasma oxprenolol levels were monitored by a sensitive and specific high-performance liquid chromatographic (HPLC) method. Significant differences in the pharmacokinetic parameters, i.e., lower C _max, higher values of t _max, MRT, AUC, and plasma concentration at 24 hr, and nearly constant plasma levels over 12 hr, indicated that the SR matrix tablet is superior to the CV rapid-releasing formulation. The in vitro release parameters and in vivo pharmacokinetics correlated well.     

Single-dose bioavailability of oral and intramuscular thiocolchicoside in healthy volunteers

A single dose of 8 mg of thiocolchicoside was administered to 12 healthy volunteers according to a Latin square design, either as tablets (reference), oral solution, or intramuscular injection. Serum thiocolchicoside concentrations showed an absorption phase followed by a biexponential decay with a terminal half-life (t_1/2β) of approximately 5 h, similar for the three formulations. The relative bioavailability of both oral formulations was approximately 25%, compared to the intramuscular formulation. There was a trend for the oral solution to have a slightly larger AUC and C_max, as well as a slightly shorter T_max, than the tablet formulation. However, the comparison of the two oral forms did not show statistically significant differences in the pharmacokinetic parameters C_max, T_max, and AUC, suggesting that the Coltramyl^® tablets have an adequate in vivo dissolution profile.     

Evaluation of Various Dissolution Media for Predicting In Vivo Performance of Class I and II Drugs

Purpose. In this paper we seek to verify the differences in dissolution behavior between class I and class II drugs and to evaluate the suitability of two new physiologically based media, of Simulated Gastric Fluid (SGF) and of milk for their ability to forecast trends in the in vivo performance of class II compounds and their formulations. Methods. Dissolution behavior of two class I drugs, i,e, acetaminophen and metoprolol, and of three class II drugs, i.e. danazol, mefenamic acid and ketoconazole, was studied with USP Apparatus 2 in water, SGF, milk, Simulated Intestinal Fluid without pancreatin (SIF_sp) and in two media simulating the small intestinal contents in the fed (FeSSIF) and fasted (FaSSIF) states, respectively. Results. Class I powders dissolved rapidly in all media tested. Acetaminophen dissolution in milk was slow from one tablet formulation, in all other cases dissolution was more than 85% complete in 15 minutes. The dissolution rate of metoprolol was shown to be dependent on formulation and manufacturing method, and one of the three tablet formulations did not meet compendial specifications (80%/30 minutes). Dissolution behavior of class II drugs was greatly affected by choice of medium. Dissolution from a capsule formulation of danazol proved to be dependent on the concentration of solubilizing agents, with a the 30-fold increase in percentage dissolved within 90 minutes upon changing from aqueous media without surfactants to FaSSIF. Use of FeSSIF or milk as the dissolution medium resulted in an even greater increase in percentage dissolved, 100 and 180-fold respectively. Dissolution of the weak acid mefenamic acid from a capsule formulation is dependent on both pH and bile salt concentration, which leads to an offset between increased bile salt concentration and lower pH in the fed state compared to the fasted state medium. The weak base ketoconazole showed complete dissolution from a tablet formulation in Simulated Gastric Fluid without pepsin (SGF_sp) within 30 minutes, 70% dissolution in 2 hours under fed state simulated upper jejunal conditions but only 6% dissolution in 2 hours under fasted state conditions. Conclusions. As predicted, dissolution of class II drugs proved to be in general much more dependent on the medium than class I drugs. With the array of compendial and physiological media available, it should be possible to design a suitable set of tests to predict the in vivo dissolution of both class I and II drugs from immediate release formulations.     

Formulation Design of Fast Disintegrating Tablets Using Disintegrant Blends

In the present work, fast disintegrating tablets of prochlorperazine maleate were designed with a view to enhance patient compliance by direct compression method. In this method, crospovidone (up to 3% w/w) and croscarmellose sodium (up to 5% w/w) in combination were used as superdisintegrants. Since disintegrants complement each other, accelerating the disintegration process when used together. Estimation of prochlorperazine maleate in the prepared tablet formulations was carried out by extracting the drug with methanol and measuring the absorbance at 254.5nm. The prepared formulations were further evaluated for hardness, friability, drug content uniformity, in vitro dispersion time, wetting time and water absorption ratio. Based on in vitro dispersion time (approximately 12 s), one promising formulation was tested for in vitro drug release pattern in phosphate buffer pH 6.8 and short-term stability (at 40°/70% RH for 3 mo), drug-excipient interaction (IR spectroscopy) were studied. Among the formulations tested, formulation DCPC₄ containing 5% w/w of croscarmellose sodium and 3% w/w of crospovidone as superdisintegrant emerged as the overall best (t_50% 7.0 min) based on drug release characteristics in pH 6.8 phosphate buffer compared to commercial conventional tablet formulation (t_50% 17.4 min). Short-term stability studies on the promising formulation indicated that there were no significant changes in drug content and in vitro dispersion time (p<0.05).     

Excipient Interaction with Cetylpyridinium Chloride Activity in Tablet Based Lozenges

Purpose. The purpose of the investigation was to determine the effect of tablet excipients on the activity of cetylpyridinium chloride (CPC) and the relative interaction between excipients and CPC. Methods. An analytical assay was developed to evaluate the interaction between CPC and the excipients. In vivo activity was investigated using six volunteers by determining the reduction in colony forming units recoverable from the oropharynx after sucking each proprietary lozenge separately on different days. In vitro determinations investigated the relative antimicrobial activity of aqueous solutions of the lozenges and, the effect of pH and tablet base excipients on that activity against Staphylococcus aureus, Streptococcus pyogenes and Candida albicans. Results. Both in vivo and in vitro results showed that the tablet based lozenges had markedly reduced antimicrobial activities compared with previous results with a candy based lozenge (in vivo and in vitro) or the same concentration of aqueous CPC (in vitro}. Magnesium stearate suspensions in CPC 250 µg/ml indicated that magnesium stearate adsorbed CPC and at 0.4% lozenge weight and above significantly reduced the antimicrobial activity of CPC 250 µg/ml. Conclusions. The reduced activity of CPC in tablet based lozenges resulted from a decreased availability of CPC in solution due to an adsorption of CPC on magnesium stearate. To avoid this reduction in activity tablet based lozenges containing CPC 250 µg/ml, or similar concentrations, plus magnesium stearate should contain not more than 0.3% w/w lozenge weight of the lubricant.     

Comparison of dissolution profiles and serum concentrations of two lamotrigine tablet formulations

Objective: The aim of this study was to investigate the extent of variations in lamotrigine serum concentrations between two immediate-release tablet formulations. Data were compared with in vitro difference and similarity tests on dissolution profiles of the two formulations.Methods: Dissolution characteristics of formulations A (reference) and B (test) were evaluated at three points spanning the physiologic pH range (pH 1.2, pH 4.5, pH 6.8). A model-independent approach of difference (f1) and similarity (f2) tests were applied to dissolution data. A clinical study was performed with 16 patients who were divided into two groups — one group received formulation A (n=9) and the other received formulation B (n=7). Lamotrigine steady-state concentrations were determined by high-performance liquid chromatography on a reverse-phase column.Results: There were no statistically significant differences in lamotrigine serum concentrations between the two groups, although formulation B had slightly higher mean concentration values (formulation A: 3.97±4.1 μg/mL; formulation B: 5.78±2.7 μg/mL). Dissolution profiles of the two formulations were similar in the pH 1.2 dissolution medium; however, the dissolution profiles of formulation B were outside the dissolution limit (≥85% at 15 minutes) in the pH 4.5 and 6.8 dissolution media.Conclusions: No significant changes in the serum concentrations of lamotrigine were seen between the two investigated formulations. There is no evidence to suggest that the differences in dissolution profiles at pH 4.5 and pH 6.8 affect the therapeutic efficacy of the formulations. It is evident that the doses of test formulation given to the patients were higher as a consequence of common assumption that generic products have a lower absorption rate, which is proven unnecessary in this study. This investigation was a pilot study and thus further investigations with a larger sample size are necessary to determine if there is a connection between dissolution profiles and the therapeutic effect of investigated formulations.     

The dissolution of aspirin and aspirin tablets

An attempt has been made to standardize the “beaker” method of measuring in vitro dissolution rates of tablets against published data for aspirin. An unexpected problem arose when it was found that samples of commercial aspirin have different intrinsic dissolution rates. The form of aspirin used in tablet manufacture is likely therefore to be of significance from the viewpoint of in vivo dissolution and drug availability.     

An in Vitro/in Vivo Correlation for the Disintegration and Onset of Drug Release from Enteric-Coated Pellets

An empirical mass-transfer model for enteric-coating dissolution that uses in vitro dissolution data to characterize the pH-dependent solubility properties of the polymer film and a mass-transfer coefficient determined from in vivo dissolution or disintegration studies is developed. Once the in vivo mass- transfer coefficient has been evaluated, it can be used in conjunction with in vitro dissolution data from other formulations to predict the in vivo time to disintegration and onset of drug release. Results of in vitro dissolution experiments using the USP basket dissolution apparatus and in vivo disintegration experiments using gamma scintigraphy with four enteric-coated pellet formulations are presented. The good agreement among the in vivo mass-transfer coefficients that were determined supports the validity of the model.