Design of Mucoadhesive Strips for Buccal Fast Release of Tramadol.

Tramadol hydrochloride is a synthetic analogue of codeine and shows activity on the central nervous system as an opioid agonist and inhibitor of serotonin and norepinephrine reuptake. It has been used for controlling moderate to severe pain. Mucoadhesive fast-dissolving films can present greater drug availability and patient acceptance when compared to the systems of peroral administration. The films were prepared using the solvent casting method with ethylcellulose, polyvinylpyrrolidone and poly(vinyl alcohol). The effect of each polymer concentration was investigated using a 2³ factorial design with repetition at the central point. The formulations were subjected to physicochemical, mechanical, ex vivo mucoadhesive and in vitro drug release profile analysis. These properties were dependent on the polymeric composition (independent factors) of each system. The optimized formulations showed good macroscopic characteristics, improved resistance to bending, rigidity, rapid swelling up to 60 s, improved mechanical and mucoadhesive characteristics, and also fast dissolving and tramadol release. The optimized formulations constitute platforms and strategies to improve the therapy of tramadol with regard to availability at the site of application, considering the necessity of rapid pain relief, and show potential for in vivo evaluation.

A review on orally disintegrating films (ODFs) made from natural polymers such as pullulan, maltodextrin, starch, and others.

In recent years, orally disintegrating films (ODFs) have been studied as alternative ways for drug administration. They can easily be applied into the mouth and quickly disintegrate, releasing the drug with no need of water ingestion and enabling absorption through the oral mucosa. The ODFs matrices are typically composed of hydrophilic polymers, in which the natural polymers are highlighted since they are polymers extracted from natural sources, non-toxic, biocompatible, biodegradable, and have favorable properties for this application. Besides that, natural polymers such as polysaccharides and proteins can be applied either alone or blended with other synthetic, semi-synthetic, or natural polymers to achieve better mechanical and mucoadhesive properties and fast disintegration. In this review, we analyzed ODFs developed using natural polymers or blends involving natural polymers, such as maltodextrin, pullulan, starch, gelatin, collagen, alginate, chitosan, pectin, and others, to overview the recent publications and discuss how natural polymers can influence ODFs properties.

Mucoadhesive polymeric films comprising polyvinyl alcohol, polyvinylpyrrolidone, and poloxamer 407 for pharmaceutical applications.

Polyvinyl alcohol (PVA) and polyvinylpyrrolidone (PVP) have been extensively studied for their use in film formation. Poloxamer 407 (P407) is a block copolymer that has thermo-responsive and surfactant properties when used in pharmaceutical systems. These polymers are already used in liquid or semi-solid systems for ocular and parenteral drug delivery. However, the effect of P407 presence in solid pharmaceutical films composed of different PVA:PVP ratios have not been investigated yet. Therefore, this work investigated the influence of P407 added to the binary polymer mixture of PVA and PVP for the development of solid films aiming for pharmaceutical applications. The rheological properties of dispersions were investigated, and films were prepared by solvent casting method using different P407:PVA:PVP ratios according to a factorial design 23 (plus center point). The mechanical and in vitro mucoadhesive properties of films, as well as the disintegration time were investigated. Systems presented high mechanical resistance, mucoadhesion, and disintegration timeless than 180 s. It was found that higher concentrations of PVA increase mechanical properties and decrease disintegration time, and higher proportions of PVP and P407 increased mucoadhesion. The films could be classified as fast disintegrating films and represent a promising alternative for modifying drug delivery and pharmaceutical applications.

Development of fast dissolving tablets of flurbiprofen by sublimation method and its in vitro evaluation

Flurbiprofen belongs to Biopharmaceutical Classification System (BCS) class II drugs which are poorly soluble in water. The objective of present research work was to prepare fast dissolving tablets of Flurbiprofen using varying concentrations of three different sublimating agents to improve the dissolution rate. Seven formulations were prepared containing different concentrations of camphor, ammonium bicarbonate and thymol as sublimating agent along with primogel as a superdisintegrant. Tablets were manufactured by direct compression method. The prepared tablets were evaluated for pre-compression and post-compression parameters result, For all formulations result was within official limits. FTIR studies revealed that there were no interactions between the drug and the excipients used. From in vitro drug release studies it was concluded that the formulations F6 and F7 containing 10% and 15% of thymol showed fast drug release of 100.00% and 100.84% respectively in 30 minutes. Formulations containing camphor (F2 & F3) and ammonium bicarbonate (F4 & F5) as sublimating agents showed a drug release of less than 80%, while the control formulation F1 having no sublimating agent showed 49.14% of drug release in 30 minutes. Thus thymol can successfully be used to formulate fast dissolving tablets of flurbiprofen by sublimation method with much better dissolution profile

Formulation and in vitro evaluation of fast dissolving tablets of metoprolol tartrate

The demand for fast dissolving tablets has been growing during the last decade, especially for elderly and children who have swallowing difficulties. In the present work, fast dissolving tablets of metoprolol tartrate, were prepared using sodium starch glycolate, sodium croscarmellose and crospovidone as superdisintegrants, by the direct compression method. The tablets prepared were evaluated for various parameters including weight variation, hardness, friability, in vitro dispersion time, drug-polymer interaction, drug content water absorption ratio, wetting time, in vitro drug release, FTIR and DSC studies. The tablets prepared by the direct compression method had a weight variation in the range of 145 mg to 152 mg, which is below ± 7.5%, a hardness of 3.6 kg/cm² to 4.5 kg/cm², percentage friability of 0.46% to 0.73%, in vitro dispersion time of 18 s to 125 s, drug content uniformity of between 98.12% and 100.03%, a water absorption ratio of 67% to 87%, wetting time of 32 sec. to 64 sec., and an in vitro drug release of 53.92% - 98.82% within 15 min. The IR spectral analysis and DSC study showed no drug interaction with formulation additives of the tablet, and the formulations indicated no significant changes in hardness, friability, drug content or in vitro drug release. Fast dissolving tablets of metoprolol tartrate have enhanced dissolution and will lead to improved bioavailability and more effective therapy.

A exigência por comprimidos de dissolução rápida aumentou durante a última década, especialmente para idosos e crianças, com dificuldades de deglutição . No presente trabalho prepararam-se, pelo método de compressão direta, comprimidos de tartarato de metoprolol de rápida dissolução, utilizando glicolato sódico de amido, croscarmellose sódica e crospovidona como superdisintegrantes. Os comprimidos preparados foram avaliados em relação a diferentes parâmetros, como variação de peso, dureza, friabilidade, tempo de dispersão in vitro, interação fármaco-polímero, taxa de absorção de água pelo fármaco, tempo de umedecimento, liberação do fármaco in vitro,, FTIR e estudos de DSC. Os comprimidos preparados por compressão direta apresentaram variação de peso de 145 mg a 152 mg, abaixo de ±7,5%, dureza de 3,6 kg/cm² a 4,5 kg/cm² , porcentagem de friabilidade de 0,46% a 0,73%, tempo de dispersão in vitro de 18 s a 125 s, uniformidade de conteúdo de fármaco entre 98,12% e 100,03%, taxa de absorção de água de 67% a 87%, tempo de umidificaçãode 32 s a 64 s liberação do fármaco in vitro entre 53,92% e 98,82%, em 15 min. A análise no IV e de DSC mostrou que não houve interação de fármacos com os aditivos de formulação do comprimido e as formulações indicaram que não houve mudança significativa na dureza, friabilidade, s uniformidade de conteúdo de fármaco e na liberação do fármaco in vitro. Os comprimidos de liberação rápida apresentaram aumento na dissolução de tartarato metoprolol e conduzem à melhoria dabiodisponibilidade e à terapia eficaz.

Solubility enhancement, physicochemical characterization and formulation of fast-dissolving tablet of nifedipine-betacyclodextrin complexes

The main objective of the study was to enhance the dissolution of nifedipine, a poorly water soluble drug by betacyclodextrin complexation and to study the effect of the preparation method on the in vitro dissolution profile. The stoichiometric ratio determined by phase solubility analysis for inclusion complexation of nifedipine with β-cyclodextrin was 1:1. Binary complex was prepared by different methods and was further characterized using XRD, DSC and FT-IR. A saturation solubility study was carried out to evaluate the increase in solubility of nifedipine. The optimized complex was formulated into fast-dissolving tablets by using the superdisintegrants Doshion P544, pregelatinized starch, crospovidone, sodium starch glycolate and croscarmellose sodium by direct compression. Tablets were evaluated for friability, hardness, weight variation, disintegration and in vitro dissolution. Tablets showed an enhanced dissolution rate compared to pure nifedipine.

Este estudo teve por objetivo principal incrementar a dissolução do nifedipino, fármaco pouco solúvel em água, por meio de sua complexação com β-ciclodextrina e estudar o efeito do método de preparação sobre o perfil de dissolução in vitro. A razão estequiométrica, determinada por ensaio de solubilidade de fase, para a complexação de nifedipino por inclusão em β-ciclodextrina foi 1:1. O complexo binário foi preparado por diferentes métodos, sendo caracterizado utilizando-se difratometria de raios X (XRD), calorimetria diferencial de varredura (DSC) e espectroscopia no infravermelho com transformada de Fourier (FT-IR). Realizou-se estudo de solubilidade de saturação para avaliar o incremento da solubilidade do nifedipino. O complexo otimizado foi formulado em comprimidos de dissolução rápida preparados por compressão direta, nos quais se utilizaram os superdesintegrantes Doshion P544, amido pré-gelatinizado, crospovidona, amidoglicolato de sódio e croscarmelose sódica. Os comprimidos, que foram avaliados quanto à friabilidade, dureza, variação de peso, desintegração e dissolução in vitro, apresentaram taxa de dissolução superior à do nifedipino pura.