Compounding and Characterization of Oral Disintegrating Films Containing Memantine Hydrochloride for Geriatrics.

Memantine hydrochloride is commonly prescribed for Alzheimer's disease and vascular dementia. However, the drug is only available in tablet form, a dosage form which is difficult for geriatrics to swallow. This problem is especially difficult for those patients diagnosed with Alzheimer's. This study was therefore aimed to develop and characterize an oral disintegrating film containing memantine hydrochloride using different types and concentrations of polymers. Using the solvent casting method, twelve formulations were developed, which involved manipulations on the type and concentration of the polymer. Afterwards, six formulations were selected to undergo characterization tests. These tests evaluated the films' tensile strength, Young's Modulus, percent elongation, folding endurance, disintegration and dissolution time, content uniformity, moisture loss, and moisture uptake. Polymers such as polyvinyl alcohol, hydroxypropyl methylcellulose, polyvinyl pyrrolidone, and pullulan gum were respectively incorporated at different concentrations. The study found that only hydroxypropyl methylcellulose and polyvinyl alcohol formulations developed into acceptable oral disintegrating films. Formulation E (hydroxypropyl methylcellulose 50-mg/film), which exhibited optimal mechanical strength, fast disintegration and dissolution, and excellent content uniformity, was identified as the best formula. Although polyvinyl alcohol showed higher mechanical strength, hydroxypropyl methylcellulose films were better at fulfilling the optimal characteristics of an oral disintegrating film. The study showed that the mechanical strength increased proportionally to the polymer concentration in the polyvinyl alcohol film. However, for the hydroxypropyl methylcellulose film, the mechanical strength increased only when hydroxypropyl methylcellulose's concentration was increased from a 40-mg/film to a 50-mg/film but decreased with a 60-mg/film. To summarize, orally disintegrating films containing memantine hydrochloride was developed, characterized, and reasoned to have high potential to be marketed and to increase medication compliance among geriatrics suffering from Alzheimer's disease.

Development of a Novel Co-processed Excipitient Comprising of Xylitol, Mannitol, Microcrystalline Cellulose, and Crospovidone for the Compounding of Memantine Hydrochloride Orally Disintegrating Tablet.

Orally disintegrating tablets, which were originally developed in the pharmaceutical field to improve the compliance of patients who had difficulty swallowing tablets, have become a preferable choice in solid dosage forms since it brings advantages to the patients and consumers in the healthcare system. Among the advantages of this novel dosage form are a faster onset of action, improved bioavailability, and the ease of administration as it can be taken without water. However, there are still some limitations of orally disintegrating tablets that need to be overcome, including a lack of mechanical strength, an unpleasant taste of the drug in the mouth, and a stability issue due to its hygroscopicity nature. This objective of this study was to identify the composition of co-processed excipients comprising of mannitol, microcrystalline cellulose, xylitol, and crospovidone or croscarmellose sodium in order to formulate orally disintegrating tablets containing memantine hydrochloride. This study was carried out in two stages. Firstly, orally disintegrating tablets containing memantine hydrochloride with 6 different formulations, which differed in the percentage of crospovidone or croscarmellose sodium, were formulated and manufactured. Secondly, the orally disintegrating tablets obtained were evaluated through pre- and post-compression tests based on the standard for orally disintegrating tablets. Formulation 3, which consisted of 10% xylitol, 10% mannitol, 72% microcrystalline cellulose, and 8% crospovidone, was chosen as the optimum formulation for the co-processed excipient since it was the fastest disintegration process among all the formulations in the study. In addition, Formulation 3 also showed the acceptable and satisfying results in other evaluation tests such as - weight variation test, hardness test, and friability test. The co-processed excipient comprising of 10% xylitol, 10% mannitol, 72% microcrystalline cellulose, and 8% crospovidone, which is characterized by improved functionalities such as a fast disintegration process, plays a crucial role in the application of orally disintegrating tablets.

Application of Co-processed Excipient as a Novel Method to Compound Orally Disintegrating Tablets.

Co-processed excipients were prepared by incorporating one excipient into the particle structure of another and a combination of two or more compendia or noncompendia excipients to physically modify their properties, which cannot be achievable by simple physical mixing. The co-processed multicomponent-based excipients were introduced to achieve better characteristics and tableting properties. This objective of this study was to develop and evaluate a co-processed excipient for amlodipine orally disintegrating tablets to simplify the compounding process. The co-processed excipients were prepared by wet granulation with 5% of polyvinylpyrrolidone and croscarmellose sodium, five different percentages of microcrystalline cellulose, and lactose monohydrate. After sieving and drying, the co-processed excipients were evaluated for flowability and compressibility. The co-processed excipients were mixed with the amlodipine powder and magnesium stearate and compressed into tablets. The amlodipine tablets were evaluated for weight variation, content uniformity, thickness, hardness, friability, disintegration, and dissolution tests. Formulation 4 was chosen as the optimum formulation because the results showed this formulation had the excellent flowability and compressibility of a co-processed excipient. It showed uniformity of weight, content, thickness, and hardness, weight loss less than 1%, fast disintegration time, and dissolution results. The developed co-processed excipient can be used by the pharmaceutical industry in the future to compound amlodipine orally disintegrating tablets in a fast and economical way.

Comparison of Solvent Casting and Spray Casting Method on Compounding of an Orally Disintegrating Film Containing Amlodipine Besylate.

The amlodipine besylate tablet is one of the most highly prescribed medicines to manage hypertension in the geriatric population. However, the difficulty of swallowing tablets due to problems like dysphagia, fear of choking, and odynophagia has been identified as one of the contributing factors to non-compliance among geriatrics. Due to the swallowing factor among geriatrics, this study was conducted to compare two compounding methods of orally disintegrating films, namely solvent casting and spray casting, to produce an orally disintegrating film containing amlodipine besylate. Different polymers were used to develop the orally disintegrating films, and the formulations were subjected to validation tests such as thickness, folding endurance, tensile strength, percentage of elongation, Young's modulus, disintegration, and dissolution. Chemicals like hydroxypropyl methylcellulose, carboxymethyl cellulose, glycerin, mannitol, sodium lauryl sulfate, citric acid, peppermint oil, and a coloring agent were used to formulate the orally disintegrating films. In addition, orally disintegrating films were prepared using the solvent casting and the spraying method. An increase in the polymer's concentration resulted in the formation of a greater mechanical strength. After a comparison between the hydroxypropyl methylcellulose and the carboxymethyl cellulose as film-forming agents, it was discovered that hydroxypropyl methylcellulose had greater mechanical film properties than carboxymethyl cellulose, except for the folding endurance. Moreover, hydroxypropyl methylcellulose was shown to have a better disintegration time, which was in the range of 30 minutes to 90 minutes, with a drug release of 95% to 100%, while carboxymethyl cellulose disintegrated at 6 minutes to 15 minutes with a drug release of 60% to 75%. On the other hand, both the solvent casting and spraying methods produced an evenly matched orally disintegrating film quality. Orally disintegrating films containing amlodipine besylate were developed and characterized. It was concluded that these orally disintegrating films have a great potential in the market and a profound ability in the reduction of geriatric non-compliance to antihypertensive drugs.

Investigation of Filler Effects on the Compounding of Freeze-dried Orodispersible Tablets Containing Annona muricata Extract.

Orally disintegrating tablets are a solid dosage form that will disintegrate rapidly within 3 minutes upon contact with saliva. Fillers or diluents are excipients that are used to make up the volume of orally disintegrating tablets, and some might act as a disintegrant or binder that will affect the physical properties of orally disintegrating tablets. The objective of this study was to formulate and evaluate physical properties of orally disintegrating tablets containing Annona muricata leaves extract by a freeze-drying method using different fillers at different concentrations. In this study, fifteen formulations of orally disintegrating tablets were prepared by a freeze-drying method with different fillers such as starch, lactose, microcrystalline cellulose, StarLac, and CombiLac at 5%, 10%, and 15%. The orally disintegrating tablets were evaluated for hardness, thickness, weight variation, friability, and disintegration time test. The optimum formulation was chosen and incorporated with Annona muricata leaves extract. The results obtained in this work indicated that Formulation 3, with 15% starch, was the most optimum formulation due to the shortest disintegration time (21.08 seconds ± 4.24 seconds), and all the physical tests were within the acceptable range. The orally disintegrating tablets containing Annona muricata leaves extract possessed antioxidant activity and stable at least for 3 months under 60°C and 75% relative humidity.

Comparison of Disintegrant-addition Methods on the Compounding of Orodispersible Tablets.

Orodispersible tablets disintegrate rapidly (within 3 minutes) in the oral cavity and release the medicament before swallowing. The mode of disintegrant addition might affect the properties of orodispersible tablets. The objective of this study was to formulate and evaluate orodispersible tablets by studying different modes of disintegration addition with varying concentrations of disintegrants. The wet granulation method was used to produce the orodispersible tablets. Two methods of disintegration addition were compared (i.e., intragranular, extragranular). Three disintegrants (i.e., cornstarch, sodium starch glycolate, crospovidone) were used at three levels (5%, 10%, and 15%) in the study. The formulations were tested for the powder flowability (angle of repose) and characterized physically (hardness, weight, thickness, friability, disintegration time). The mangosteen pericarp extract was used as a model active pharmaceutical ingredient to be incorporated into the optimum formulation. It was observed that the extragranular method produced granules with better flowability compared to that of the intragranular method. Crospovidone was found as the most efficient disintegrant among the three. The optimum formulation selected was one with the highest concentration of crospovidone (15%), which showed the fastest disintegration time. The mode of disintegrant addition into the orodispersible tablets formulation was found to show a marked difference in the disintegration, as well as other physical characteristics of the orodispersible tablets where the extragranular mode of addition showed better property, which caused the orodispersible tablets to disintegrate the fastest.