Testing of Drug Release from Bioadhesive Vaginal Tablets

To establish en in vitro test method that can predict the drug release and dissolution behaviour of vaginal bioadhesive controlled release tablets, a system was developed and its appropriateness to the in situ conditions was examined. For this purpose, the dissolution rates of vaginal bioadhesive tablets were measured by three different methods. These were, USP dissolution apparatus two and a new vaginal dissolution tester (NVDT) which was developed by us with some modification of the vaginal tablet desentegration apparatus of BP 1988 and, testing in cow vaginas in situ. Four different bioadhesive tablet formulations were used being composed of the drug and the anionic polymer, polyacrylic acid (PAA) and the nonionic polymers, hydroxypropylmethyl cellulose (HPMC) and ethyIcellulose (EC). The release profiles of the in vitro and in situ methods were investigated and evaluated kinetically.

It was found that NVDT could be used to investigate the drug release from vaginal tablets.     

Testing of drug release from bioadhesive vaginal tablets

To establish an in vitro test method that can predict the drug release and dissolution behaviour of vaginal bioadhesive controlled release tablets, a system was developed and its appropriateness to the in situ conditions was examined. For this purpose, the dissolution rates of vaginal bioadhesive tablets were measured by three different methods. These were, USF dissolution tester apparatus two and a new vaginal dissolution tester (NVDT) which was developed by us with some modification of the vaginal tablet desentegration apparatus of BP 1988 and, testing in cow vaginas in situ. Four different bioadhesive tablet formulations were used being composed of the drug and the anionic polymer, polyacrylic acid (PAA) and the nonionic polymers, hydroxypropylmethyl cellulose (HPMC) and ethycellulose (EC). The release profiles of the in vitro and in situ methods were ivestigated and evaluated kinetically     

Development of Sustained-Release Tablets Containing Sodium Valproate: In Vitro and In Vivo Correlation

ABSTRACT

We have developed a 200 mg and 400 mg sustained-release sodium valproate tablet that allows effective blood concentration of the active drug with once-a-day dosing. The controlled dissolution or sustained release of the drug was attained by a membrane-controlled system. A single-coating system did not adequately control the dissolution rate, and therefore double-coated tablets were prepared and a human pharmacokinetic study was conducted. With the 200 mg VPA-Na tablets, the nonfasting C_max was only 20% higher than the fasting C_max. An in vitro dissolution test was conducted to predict the effects of food on drug dissolution after administration of this tablet. A relatively good correlation was observed between the absorption profiles and the dissolution profiles of the drug.     

Development of a Formulation of Sustained Release Potassium Chloride

Abstract

The purpose of this work has been the designing and “in vitro” evaluation of a potassium chloride tablet using a wax matrix.

Camauba wax, stearyl alcohol and stearic acid ware employed to prepare granulates at different drug/wax ratios. Fran dissolution kinetic studies and technological performances a 75/25 – KCl/camauba wax granulates was selected. The rheolqgical properties of granulates were characterized and tablets were manufactured employing ccrrmun tablets excipients. Also a coating procedure was developed. The coated tablet formulation selected release the potassium chloride according to the USP requirements.

The dissolution kinetics of the potassium chloride from both coated and uncoated tablets fit the Higuchi diffusion model, giving a straight line when the amount dissolved is plotted against the square root of time.     

Optimization of Sotalol Floating and Bioadhesive Extended Release Tablet Formulations

Abstract

A novel extended release sotalol HC1 tablet formulation which possesses a unique combination of floatation and bioadhesion for prolonged residence in the stomach has been developed. Tablets were produced by direct compression. A two-factor factorial, central, composite Box-Wilson experimental design was employed to develop and optimize the tablet formulation containing 240 mg sotalol HC1. The ratio of two major bioadhesive agents, sodium carboxymethylcellulose (NaCMC) to hydroxypropylmethylcellulose (HPMC), and the ratio of two direct compressible diluents, ethylcellulose (EC) to crosspovidone, were used as formulation variables (independent variables) for optimizing tablets response parameters, such as dissolution bioadhesive capability, tablet density and required compression force for producing 6 Kg hardness tablets. The data were also analyzed by means of quadratic response surface model. Response surfaces were generated as a function of formulation variables. An optimum direct compression, bioadhesive and floating tablet formulation of sotalol HCl was achieved by considering the dissolution characteristic as primary objective and using required compression force, bioadhesive capability as constraints within the experimental region. The surface model was validated for accurate prediction of response characteristics.     

Design and Evaluation In Vitro of Controlled Release Mucoadhesive Tablets Containing Chlorhexidine

ABSTRACT

This investigation deals with the development of buccal tablets containing chlorhexidine (CHX), a bis-bis-guanide with antimicrobial and antiseptic effects in the oral cavity, and able to adhere to the buccal mucosa to give local controlled release of drug. A mucoadhesive formulation was designed to swell and form a gel adhering to the mucosa and controlling the drug release into the oral cavity.

Some batches of tablets were developed by direct compression, containing different amounts of hydroxypropylmethylcellulose (HPMC) and carbomer; changing the amount ratio of these excipients in formulations, it is possible easily modulate the mucoadhesive effect and release of drug. The in vitro tests were performed using the USP 26/NF paddle apparatus, a specifically developed apparatus, and a modified Franz diffusion cells apparatus. This last method allows a simultaneous study of drug release rate from the tablets and drug permeation through the buccal mucosa.

Similar tests have also been carried out on a commercial product, Corsodyl gel^®, in order to compare the drug release control of gel with respect to that of the mucoadhesive tablet, as a formulation for buccal delivery of CHX. While the commercial formulation does not appear to control the release, the formulation containing 15% w/w methocel behaves the best, ensuring the most rapid and complete release of the drug, together with a negligible absorption of the active agent as required for a local antiseptic action in the oral cavity.     

Clinical pharmacokinetic study for the effect of glimepiride matrix tablets developed by quality by design concept

Objective: Implementation of a new pharmaceutical technique to improve aqueous solubility and thus dissolution, enhancement of drug permeation, and finally formulation of a controlled release tablet loaded with glimepiride (GLMP).

Significance: Improve GLMP bioavailability and pharmacokinetics in type II diabetic patients.

Methods: Different polymers were used to enhance aqueous GLMP solubility of which a saturated polymeric drug solution was prepared and physically adsorbed onto silica. An experimental design was employed to optimize the formulation parameters affecting the preparation of GLMP matrix tablets. A compatibility study was conducted to study components interactions. Scanning electron microscope (SEM) was performed before and after the tablets were placed in the dissolution medium. An in vivo study in human volunteers was performed with the optimized GLMP tablets, which were compared to pure and marketed drug products.

Results: Enhancement of GLMP aqueous solubility, using the polymeric drug solution technique, by more than 6–7 times when compared with the binary system. All the studied formulation factors significantly affected the studied variables. No significant interaction was detected among components. SEM illustrated the surface and inner tablet structure, and confirmed the drug release which was attributed to diffusion mechanism. The volunteer group administered the optimized GLMP tablet exhibited higher drug plasma concentration (147.4?ng/mL), longer time to reach maximum plasma concentration (4?h) and longer t_1/2 (7.236?h) compared to other groups.

Conclusions: Matrix tablet loaded with a physically modified drug form could represent a key solution for drugs with inconsistent dissolution and absorption profiles.     

Development and Characterization of a Buccoadhesive Dosage Form of Oxycodone Hydrochloride

Abstract

A buccoadhesive system for the delivery of oxycodone hydrochloride to the oral mucosa was prepared from a colloidal solution of gelatin used as a bioadhesive agent. An in vitro method for measuring the adhesion of release system to a substrate was developed by employing a modified balance. The eflects of thickness and of the presence of the drug on swelling and mucoadhesion properties were evaluated. The in vitro release of the buccoadhesive formulation was studied by a USP paddle dissolution apparatus and the results were fitted to an empirical equation. In vivo compliance and permanence time in 10 healthy volunteers were estimated.     

High-Throughput Evaluation of Non-Swellable Controlled Release Matrix Tablets

Abstract

Drug release from controlled-release (CR) matrix tablets involves the permeation and diffusion of water through the system. In this study, a new methodology is proposed for the measurement of water permeation and simultaneous drug release from the inert, non-swellable CR matrix tablet of diltiazem (DLT) and a correlation is made between these two processes. Cylindrical matrices were readily prepared by direct compression of pellets obtained by extrusion-spheronization. Water transport was studied using tritiated water (HTO) as a permeant in a Franz-diffusion cell and simultaneously drug release was measured. Further, dissolution was performed on USP XXI/XXII dissolution apparatus I using demineralized water. Matrices showed a steady water-uptake up to 6 h and the steady state for HTO permeation lasting from 6-h to 24-h Flux of water permeated and flux of drug released correlated well. Thus, HTO permeation through the matrix tablet and the proposed methodology can be used as a tool and/or surrogate marker for evaluation of controlled release matrix tablets. This methodology can be coined as “high-throughput” in terms of amount of labor and resources required in comparison to that of dissolution.     

Drug release from directly compressed tablets containing zein

Abstract

The tablets prepared by the direct compression of spray-dried particles of a drug and zein were evaluated in vitro. The release of drug from the tablets was retarded compared with drug powder alone and tablets prepared from the physical mixtures. Drug release from the tablets was controlled by changing drug content and tablet, weight.     

Design and in vitro characterization of buccoadhesive tablets of timolol maleate

Objective: The purpose of this work was to develop and evaluate buccoadhesive tablets of timolol maleate (TM) due to its potential to circumvent the first-pass metabolism and to improve its bioavailability.

Methods: The tablets were prepared by direct compression using two release modifying polymers, Carbopol 974P (Cp-974p) and sodium alginate (SA). A 3² full factorial design was employed to study the effect of independent variables, Cp-974p and SA, in various proportions in percent w/w, which influences the in vitro drug release and bioadhesive strengths. Physicochemical properties of the drug were evaluated by ultraviolet, Fourier transform infrared spectroscopy (FTIR), differential scanning calorimetry (DSC) and powder X-ray diffraction (P-XRD). Tablets were evaluated for hardness, thickness, weight variation, drug content, surface pH, swelling index, bioadhesive force and in vitro drug release.

Results: The FTIR and DSC studies showed no evidence of interactions between drug, polymers and excipients. The P-XRD study revealed that crystallinity of TM remain unchanged in optimized formulation tablet. Formulation F9 achieves an in vitro drug release of 98.967%?±?0.28 at 8?h and a bioadhesive force of 0.088 N?±?0.01211.

Conclusion: We successfully developed buccal tablet formulations of TM and describe a non-Fickian-type anomalous transport as the release mechanism.     

Some Factors Influencing the Release of Drdg from Nondisintegrating Slow Release Tablets

Abstract

The purpose of this study was to investigate some factors that control the drug release from non disintegrating cylindrical slow release tablets using sodium salicylate as a model drug. The in vitro release of sodium salicylate was described adequately by a previously published cubic equation. It was found that the release of the drug from a nondisintegrating tablet is controlled by the factors such as porosity (e) of the tablet and the mass of drug present (A) per unit tablet volume. On the other hand, pH of the dissolution fluid had no influence on the release of sodium salicylate.     

Mucoadhesive tablets for the vaginal delivery of progesterone: in vitro evaluation and pharmacokinetics/pharmacodynamics in female rabbits

Objective: To develop mucoadhesive tablets for the vaginal delivery of progesterone (P4) to overcome its low oral bioavailability resulting from drug hydrophobicity and extensive hepatic metabolism.

Methods: The tablets were prepared using mixtures of P4/Pluronic^® F-127 solid dispersion and different mucoadhesive polymers. The tablets physical properties, swelling index, mucoadhesion and drug release kinetics were evaluated. P4 pharmacokinetic and pharmacodynamic properties were evaluated in female rabbits and compared with vaginal micronized P4 tablets and intramuscular (IM) P4 injection, respectively.

Results: The tablets had satisfactory physical properties and their swelling, in vitro mucoadhesion force and ex vivo mucoadhesion time were dependent on tablet composition. Highest swelling index and mucoadhesion time were detected for tablets containing 20% chitosan-10% alginate mixture. Most tablets exhibited burst release (～25%) during the first 2?h but sustained the drug release for ～48?h. In vivo study showed that chitosan-alginate mucoadhesive tablets had ～2-fold higher P4 mean residence time (MRT) in the blood and 5-fold higher bioavailability compared with oral P4. Further, same tablets showed 2-fold higher myometrium thickness in rabbit uterus compared with IM P4 injection.

Conclusion: These results confirm the potential of these mucoadhesive vaginal tablets to enhance P4 efficacy and avoid the side effects associated with IM injection.     

Optimization of Slow-Release Tablet Formulations Containing Montmorillonite II. Factors Affecting Drug Release

Abstract

The influence of electrolytes, surfactants in the dissolution medium, and particle size of drug and montmorillonite on the in vitro release of the soluble model drug sodium sulfathiazole from directly compressed slow-release tablets containing 20% drug and 30% magnesium aluminum silicate was investigated. The presence of electrolytes in the dissolution media decreased the release from the tablets. A decrease in release was also observed in deionized water when sodium chloride was included in the tablet formulation. The surface tension of the media appeared to have little influence on the dissolution rate of the drug. Varying the particle size of the drug had a greater effect on release rates than varying the particle size of the montmorillonite clay.     

Role of Surfactant on Drug Release from Tablets

Abstract

The addition of a surfactanat into a tablet formulation appears to be attractive method of improve the drug release rate. The improved release rate is often associated with the effect of surfactant increasing the hydrophilicity of the dosage form thereby promoting drug dissolution. The findings of this investigation showed tha the presence of surfactant infulenced the tablet disintegration rate, producing a finer dispersion of disintergrated particles. It follows that the action of surfactant improving drug dissolution from tablets may be attributed ot the aciton of surfactnat producing fine disintegrated particles with correspondingly larger surface area for drug dissolution. It was also demonstrated that upon tablet disintergration the disinstegrated particles have a tri-moal frequency distribution.     

Optimization of piribedil mucoadhesive tablets for efficient therapy of Parkinson’s disease: physical characterization and ex vivo drug permeation through buccal mucosa

Objective: The aim of this study was optimization of buccal piribedil (PR) mucoadhesive tablets to improve its low bioavailability and provide controlled release for the treatment of Parkinson’s disease.

Methods: Buccal tablets were prepared by direct compression method using carbomer (CP), carboxymethyl cellulose (CMC), and hydroxypropyl methylcellulose (HPMC) as mucoadhesive polymers. Physical properties of powder mixtures and buccal tablets were evaluated. Physicochemical compatibility between ingredients was investigated with infrared spectroscopy and differential scanning calorimetry analysis. In vitro dissolution profiles and drug release kinetics of buccal tablets were investigated. Mucoadhesion and ex vivo permeation studies were performed using sheep buccal mucosa.

Results: Powder mixtures demonstrated sufficient flow properties and physical characteristics of all tablet formulations were within compendia limits. Tablet ingredients were absent of any chemical interactions. CP tablets displayed slower drug release compared to HPMC tablets with zero order release, while CMC tablets lost their integrity and released entire drug after 6?h following Higuchi model. All formulations displayed adequate mucoadhesion and steady state flux of PR through buccal mucosa were higher with HPMC compared to CP-containing tablets.

Conclusion: Overall, HPMC was found to combine desired controlled release and mucoadhesion characteristics with sufficient pharmaceutical quality for optimization of buccal tablets. Piribedil mucoadhesive buccal tablets designed for the first time may introduce a new alternative for the treatment of Parkinson’s disease.     

Effect of Dissolution Rate and Food on Oral Bioavailability of Bropirimine Tablets in Dogs

Abstract

Three different tablet formulations of bropirimine were evaluated in an in vitro dissolution study. Further, the effect of dissolution rate of bropirimine and food on the bioavailability after oral administration of the tablets was investigated in dogs. A tablet formulation with lower bropirimine content percent and smaller tablet size showed faster in vitro dissolution rate due to the larger tablet surface area per unit mass of bropirimine and the higher ratio of hydrophilic excipients in a tablet. In the fasted state, the bioavailability of bropirimine after oral administration of tablets tended to reflect the in vitro dissolution characteristics. The bioavailability after administration of tablets with slow in vitro dissolution rate was increased by food intake due to the in vivo dissolution increased in the fed state, while the postprandial effect on the bioavailability of tablets with fast in vitro dissolution rate was not clearly observed. In the fed state, there were no differences in the plasma concentration profile and pharmacokinetic parameters of bropirimine between the tablets with a slow and a fast in vitro dissolution rate. This suggests that the postprandial administration of bropirimine tablets may maximize the bioavailability without distinction of the in vitro dissolution rate.     

Some Pharmaceutical Studies on Sustained Release Coprbcipitates of Ampicillin Trihydrat with Acrylic Resin (Eudragit)(R)-RS)

Abstract

Coprecipitates of Ampicillin trihy drate with acrylic resin (Eudragit(R)-RS) were prepared. Comparative dissolution rate studies of the coprecipittes and pure ampicillin showed that, the coprecipitates slowed down the release rate of t h e drug. Bioavailability studies in human subjects using urinary excretion method indicated a lower rate and extent of drug absorption from the tablet for-ulation containing coprecipitated drug, as compared to the tablets formulated from the pure drug. 50th the in - vitro and the in - vitroresults suggest that the embeddment of ampicillin trihydratein Eudragit-RS by the coprecipitation technique, show agreat promise in sustaining the drug's release in a matrix controlled drug delivery system.     

Buccoadhesive Tablets of Nifedipine: Standardization of A Novel Buccoadhesive-Erodible Carrier

Abstract

Buccoadhesive tablets of nifedipine were obtained by incorporation of nifedipine in suitable carrier systems standardised based on bioadhesion and dissolution. The carrier systems were formulated using sodium alginate as the bioadhesive. Mannitol, lactose, polyethylene glycol 6000 and polyethylene glycol 4000 were incorporated as solubilisers, singly or in combination. Carrier systems having a diameter of 11 mm and weighing about 200 mg were obtained by standard tabletting techniques using polyvinylpyrolidone as the binder. The systems were evaluated for bioadhesion and dissolution, 'in vitro' and 'in vivo' in seven normal healthy human volunteers. Based on these studies, nifedipine (5 mg) was incorporated in selected carrier systems to obtain buccoadhesive tablets of nifedipine. These tablets exhibited rapid 'in vitro' drug release.     

Bioadhesive Tablets Influence of the Testing Medium Composition on Bioadhesion

Abstract

A bioadhesive tablet of metronidazole has been developed for oral or vaginal administration. The bioadhesive component is poly(acrylic acid) (Carbopol 934), and the matrix component is hydroxypropyl methylcellulose (HPMC K4M). The influence of the test medium was investigated in order to determine the adhesion of the tablet during routine use by the various routes. The parameter retained to evaluate adhesion was the adhesion work on a biological tissue. The factors whose influence was investigated were pH, ionic force and nature of cations, and type of biological substrate