ALLERGIC RHINITIS AND IMPORTANCE OF FEXOFENADINE HCL SUSTAINED RELEASE MICROSPHERE AS ITS TREATMENT APPROACH

The current treatment approaches for allergic rhinitis are practiced over decades, but the patient quality of life has not yet changed so much. The reasons are research gaps in pathophysiology of the disease, proper management of the disease. Fexofenadine HCl is a second-generation antihistamine drug which has a half-life of about 14.4 h. It is useful in the management of common symptoms like sneezing, itchy throat, and red eyes in individuals suffering from allergic rhinitis. Fexofenadine immediate release or sustained release formulations are available in the market as suspension, tablet and capsule. In this research paper, we have discussed the symptoms associated with allergic rhinitis and treatment approaches. Fexofenadine HCl is being used for the treatment of this disease. But as it has a long half-life, we have discussed the importance of the introduction of sustained-release microsphere formulation of Fexofenadine HCl in the market.

FORMULATION AND EVALUATION OF THYROID HORMONE (T4) IMMEDIATE RELEASE TABLETS

The aim of this research work is to formulate and evaluate Levothroxine sodium immediate release tablets prepared by direct compression method . Five formulations were evaluated for different pre and post compression parameter and in vitro drug release studies.The results of pre compression parameters of formluation 1 to 5 were compared with prescribed limits. It showed that formulation 1 to 5 powder blend exhibit good flow property and compressibility property. The disintegration time of all formulation was found to be in the range 2mins 09 secsto 4mins 03 secs.Thus, based on evaluation of different parameters it was concluded that formulation of immediate release tablet Levothyroxine sodium was successfully done and F-5 showed almost 93% drug release at 45 mins in Alkaline borate buffer( pH 10). Keywords: Thyroid hormone (T4), Immediate release tablets, Direct compression, Dissolution.

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.

Development of a Once-Daily Modified-Release Formulation for the Short Half-Life RIPK1 Inhibitor GSK2982772 using DiffCORE Technology

Purpose GSK2982772 is a selective inhibitor of receptor-interacting protein kinase-1 (RIPK1) with a short 2- to 3-h half-life. In a previous modified-release (MR) study, a matrix monolithic formulation (80% GSK2982772 released over 12 h) provided a once-daily (QD) pharmacokinetic (PK) profile in the fasted state; however, it was susceptible to food effects. The current study evaluated the safety and PK of MR formulations using GSK proprietary DiffCORE™ technology. Methods Part A evaluated PK following single-dose (240 mg) fasted and fed (high-fat meal) administration of three DiffCORE MR formulations within pre-defined in vitro extremes of 80% GSK2982772 released over 12 h (MR-12 h) to 80% GSK2982772 released over 18 h (MR-18 h) versus an immediate-release formulation. Part B evaluated MR-16 h (120–960 mg) in different prandial states. Results Pharmacokinetic profiles for all MR formulations and doses tested in the fasted and fed states were consistent with QD dosing. Conclusions The DiffCORE technology overcame the food effect vulnerability observed with the matrix monolithic formulation. The MR-16 h formulation was selected for further clinical development as a QD dosing regimen (NCT03649412 September 26, 2018).

Development of Immediate Release Tablets Containing Calcium Lactate Synthetized from Black Sea Mussel Shells

Nowadays, the use of marine by-products as precursor materials has gained great interest in the extraction and production of chemical compounds with suitable properties and possible pharmaceutical applications. The present paper presents the development of a new immediate release tablet containing calcium lactate obtained from Black Sea mussel shells. Compared with other calcium salts, calcium lactate has good solubility and bioavailability. In the pharmaceutical preparations, calcium lactate was extensively utilized as a calcium source for preventing and treating calcium deficiencies. The physical and chemical characteristics of synthesized calcium lactate were evaluated using Fourier Transform Infrared Spectroscopy, X-ray diffraction analysis and thermal analysis. Further, the various pharmacotechnical properties of the calcium lactate obtained from mussel shells were determined in comparison with an industrial used direct compressible Calcium lactate DC (PURACAL®). The obtained results suggest that mussel shell by-products are suitable for the development of chemical compounds with potential applications in the pharmaceutical domain.

Prescription Dose Analysis of Quetiapine in the Elderly and Insomnia

Objective: The purpose of this study is to investigate the appropriate dose of quetiapine in clinical psychiatric diseases by examining the drug prescription dose in the elderly and insomnia group through an analysis of the tendency of quetiapine dose prescribed by psychiatric diagnosis.Methods: Among the patients who had been taking outpatient treatment to the mental health department for about 7 years and 8 months from May 1, 2010 to December 31, 2017, 2,794 patients who were continuously taking quetiapine immediate-release form drugs were retrospectively tested. In addition, all subjects were classified into a total of four groups according to their maintenance dose, four mental diseases that most commonly prescribe quetiapine were selected and grouped, and further analyzed whether there was a difference in prescription capacity by age and comorbidities for the insomnia group.Results: Prescription dose of quetiapine was found to be less than 50 mg in depressive disorders and insomnia, which is a relatively low dose prescribed compared to schizophrenia and bipolar disorder. In the case of insomnia, quetiapine prescribed in the elderly patient group was 30.03±9.14 mg, which was relatively high compared to the non-elderly group. And in the case of insomnia accompanied by depressive disorder, 50.28±11.41 mg was prescribed, more than 60% higher doses than that of primary insomnia.Conclusion: In the case of primary insomnia, quetiapine dose prescribed in the elderly patient group is higher than that in the non-elderly patient group.

FORMULATION AND EVALUATION OF THYROID HORMONE(T3) IMMEDIATE RELEASE TABLETS

The study was aimed to formulate and evaluate Thyroid hormone (T3) immediate release tablets of a model Reference Listed Drug (RLD). The objective was to develop a cost effective immediate release tablet formulation and to optimize the formula in product development same that of the reference product. The ingredients used were API (thyroid hormone), lactose monohydrate (diluent), acacia (binder), maize starch (disintegrant), sodium chloride (alkalinizing agent) and magnesium stearate (lubricant). The concentration of maize starch and magnesium stearate were altered to reach the objective. Totally five formulations (F1 - F5) were prepared by direct compression method. The plan of work involved involved in the study was1 Selection of drug and excipients, 2Physico–chemical characterization and drug identification, 3Preformulation parameters of the drug, 4Pre–compression parameters for the tablet blend, 5Formulation and development of the tablet dosage form, 6Post compression parameters of the tablet and 7Stability study. The stability studies were performed as per ICH guidelines. Among all the formulations F5 was found to be the best as it showed better results than the other formulations. In vitro disintegration time and percentage drug release results shown satisfactory results. Stability study results showed no significant changes in the formulation. Keywords: Thyroid hormone (T3), Immediate release tablets, Direct compression, Dissolution.

Formulation and Quality Control of Orally Disintegrating Tablets (ODTs): Recent Advances and Perspectives

Orally disintegrating tablets (ODTs) rapidly disintegrate or dissolve in the oral cavity without using water. Demand for ODTs has increased, and the field has overgrown in the pharmaceutical industry and academia. It is reported that ODTs have several advantages over other conventional tablets. Since some of them are absorbed from the mouth, pharynx, and esophagus as the saliva passes down into the stomach, in such cases, the bioavailability of the drug improves meaningfully. Furthermore, the immediate release property of ODTs makes them a popular oral dosage form in patients with swallowing challenges, children, and for cases with a need for rapid onset of action. The current review article explains the features of active ingredients and excipients used in the formulation of ODTs, discusses multiple ODT formulation and preparation techniques with their merits and demerits, and also, offers remedies for problems associated with ODTs. Moreover, quality control steps and required considerations are presented.