DEVELOPMENT AND CHARACTERIZATION OF ORO-DISPERSIBLE TABLETS OF METFORMIN HYDROCHLORIDE USING CAJANUS CAJAN STARCH AS A NATURAL SUPERDISINTEGRANT

Objective: The aim of the research work was to explore the use of Cajanus cajan (Pigeon pea) polysaccharide as a superdisintegrant. The novel superdisintegrant has been evaluated for its action by incorporating it into orodispersible tablets of Metformin Hydrochloride. Methods: Cajanus cajan starch was extracted from its seeds and superdisintegrant was developed by microwave modification of the extract. Various characterization tests such as gelatinization temperature, water absorption index, pH, and viscosity were used to identify the microwave-modified polysaccharide. The orodispersible tablets were made using a direct compression process employing varying concentrations of modified Cajanus cajan starch. Prepared tablets were tested for several pre and post-compression parameters and compared with a well-established synthetic superdisintegrant, sodium starch glycolate. The stability studies were conducted on an optimized formulation. Results: Fourier transform infrared spectroscopy study showed that the drug had no interactions with the microwave-modified Cajanus cajan starch. SEM confirmed that Cajanus cajan starch granules exhibited intact granular structure in oval shapes and smooth surfaces. After microwave modification, the Cajanus cajan starch component lost its granular structure, which further led to the generation of surface pores and internal channels, causing overall swelling responsible for superdisintegrant activity. The optimized formulation (ODF5) containing 15 % modified Cajanus cajan starch performed better in terms of wetting time (22.21 s), disintegration time (53.3 s), and in vitro drug release (92%), as compared to formulation prepared by synthetic superdisintegrant (ODF1). Conclusion: The present investigation concluded that modified Cajanus cajan starch has good potential as a superdisintegrant for formulating oro-dispersible tablets. Furthermore, modified Cajanus cajan starch is inexpensive, non-toxic and compatible in comparison with available synthetic superdisintegrants.

Fused Deposition Modeling as a Possible Approach for the Preparation of Orodispersible Tablets

Additive manufacturing technologies are considered as a potential way to support individualized pharmacotherapy due to the possibility of the production of small batches of customized tablets characterized by complex structures. We designed five different shapes and analyzed the effect of the surface/mass ratio, the influence of excipients, and storage conditions on the disintegration time of tablets printed using the fused deposition modeling method. As model pharmaceutical active ingredients (APIs), we used paracetamol and domperidone, characterized by different thermal properties, classified into the various Biopharmaceutical Classification System groups. We found that the high surface/mass ratio of the designed tablet shapes together with the addition of mannitol and controlled humidity storage conditions turned out to be crucial for fast tablet’s disintegration. As a result, mean disintegration time was reduced from 5 min 46 s to 2 min 22 s, and from 11 min 43 s to 2 min 25 s for paracetamol- and domperidone-loaded tablets, respectively, fulfilling the European Pharmacopeia requirement for orodispersible tablets (ODTs). The tablet’s immediate release characteristics were confirmed during the dissolution study: over 80% of APIs were released from printlets within 15 min. Thus, this study proved the possibility of using fused deposition modeling for the preparation of ODTs.

Natural Superdisintegrants for the Formulation of Orally Disintegrating Tablets

Oral route is the most favoured and preferred route for the administration for most of the dosage forms because it offers so many advantages over other routes of administration. Sometimes the oral route is associated with a problem called dysphagia. This condition can be seen in a population of paediatric, geriatric, patients with neurological problems, bedridden patients and so on. In order to overcome such a problem orodispersible tablets will be a better choice, because it will disintegrate within seconds when comes in contact with saliva. Natural agents offers so many advantages like nontoxic, easy availability, low cost, biocompatible and biodegradable in nature over synthetic agents. This superdisintegrants will cause the increase in drug release and decrease the disintegration time. This natural superdisintegrants will be a good option for the preparation of ODTs. Keywords: orodispersible tablets, natural superdisintegrants, advantages, dysphagia .

Budesonide (Jorveza)

CADTH reimbursement reviews are comprehensive assessments of the clinical effectiveness and cost-effectiveness, as well as patient and clinician perspectives, of a drug or drug class. The assessments inform non-binding recommendations that help guide the reimbursement decisions of Canada's federal, provincial, and territorial governments, with the exception of Quebec. This review assesses budesonide orodispersible tablets (Jorveza), 0.5 mg and 1 mg, oral. Indication: Induction and maintenance of clinico-pathological remission in adults with eosinophilic esophagitis (EoE).

Formulation and Evaluation of Orodispersible Tablets Containing Taste Masked Mirabegron Resinate

The objective of present work was to develop taste masked orodispersible tablets of mirabegron. Mirabegron is beta 3 adrenoceptor agonist used to treat overactive bladder. Overactive bladder (OAB) is defined as a symptom syndrome showing feeling of urgency to urinate, typically accompanied by frequent daytime and nocturnal urination, in the absence of proven infection or other obvious pathology. Over active bladders are generally common in geriatrics. Moreover, this drug has a very strong bitter taste. Frequent dosing requires frequent water intake, which further aggregates the condition of over active bladder and bitter taste of drug affects patient compliance. Hence a need arises to mask the bitter taste for development of an ODT which does not require consuming water with every dosage. In this work, the bitter taste of mirabegron was masked by forming a complex with an ion exchange resin tulsion 344. The drug resin complexation process was optimized for resin activation, drug: resin ratio, soaking time and stirring time. In –vitro release studies revealed complete drug elution from the complex within 10 minutes in pH 1.2 buffer. The taste-masked complex was then formulated into palatable orodispersible tablets using a direct compression approach by use of superdisintegrants to achieve a rapid disintegration. The tablets were evaluated for weight variation, hardness, friability, drug content, wetting time, In- vivo disintegration time and in-vitro dissolution time.

Optimization and Evaluation of Orodispersible Solid Dispersion Tablet of Ketotifen Fumarate

The present study was aimed to integrate the developed and optimized ketotifen fumarate dispersion into Orodispersible tablets formulations, to enhance the dissolution rate and bioavailability aspects of the drug. Ketotifen fumarate solid dispersion was prepared using different concentrations of poloxamer 407via solvent evaporation and fusion method. Solubility study, x-ray diffraction (XRD), scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FTIR) and other investigations were done. Ten formulations of the optimum dispersed ketotifen fumarate Orodispersible tablets were prepared with various superdisintegrants, the results of in vitro - in vivo tests revealed that, the dispersion of the drug in the polymer considerably enhanced the solubility, the batch (Fsd 3) prepared by fusion method showed increased the solubility as ~2-fold compared with a pure drug. FTIR spectra, SEM and XRD data, showed amorphrization of ketotifen fumarate, which explains the better dissolution rate of the drug from its solid dispersions. Formulation F1 containing 15%w/w of crospovidone was showed in vitro- in vivo disintegration time (17 sec., 15 sec. respectively) and percent of drug dissolved in 2 min. was 90.04%, proved to be the optimum formulation, which is required for obtaining rapidly disintegrating tablets. The solubility of the drug had increased, and the resultant orodispersible tablets can be considered as a promising dosage form to achieve better patient compliance.

Orodispersible Tablets: A New Trend in Drug Delivery

The oral route is the most popular and favoured method of drug administration. Orodispersible tablets are becoming more common among novel oral drug delivery systems because they increase patient compliance and provide some additional benefits over other oral formulations. They are also strong unit dosage types that, in the presence of saliva, disintegrate in the mouth within a minute due to super disintegrants in the formulation. As a result, this method of drug delivery aids in proper peroral administration of paediatric and geriatric patients who have difficulty swallowing. Various scientists have used various methods to create orodispersible tablets. The compression process is, however, the most popular method of preparation. Molding, melt granulation, phase-transition technique, sublimation, freeze-drying, spray-drying, and the effervescent method are some of the other unique processes. The flavour of these tablets is significant since they dissolve immediately in the mouth. To mask the drug's acidic flavour, a variety of techniques have been used. In this area, a number of scientists have looked at a variety of drugs. They are tested in the fields of stiffness, friability, wetting time, moisture absorption, disintegration test, and dissolution test, much as any other solid dosage types.