Crohn's disease is a type of inflammatory bowel disease that frequently affects the ileo-cecal region of the gastrointestinal tract. For effective treatment of this disease, a site-targeting drug in the ileo-cecal region is essential. Budesonide (BD) is a synthetic, non-halogenated glucocorticoid and is the drug of choice for the treatment of Crohn's disease. The present study is an attempt to develop the dosage form of a BD tablet to achieve targeted drug release in the ileo-cecal region. The BD tablets are coated with Eudragit FS 30 D, which is a polymer that specifically dissolves at and above pH 6.8. The in vitro drug release and in vivo tablet disintegration (using X-ray radiography) were carried out. The coating process was optimized successfully. The in vitro performance of the tablet with coating thickness showed that the tablet did not disintegrate till 4.5 hours, which represents the transit time to the ileo-cecal region. In vivo studies also established that the tablet lasted till 4.5 hours. The tablet containing 0.5% superdisintegrant and 10% coating thickness was able to deliver BD effectively to the ileo-cecal region, thus making it a promising drug delivery system for the treatment of Crohn's disease.
Objective: The present study aimed to develop a new SR metformin hydrochloride (MH) gastroretentive formulation with novel excipient (NE), which has better floatation and can be prepared with more simple pharmaceutical techniques for the treatment of diabetes Mellitus. Methods: A gastro-retentive floating matrix tablet (GFT) formulation of MH was prepared using various concentrations of PEO (Polyox WSR-303) and hydroxypropyl methylcellulose K100M (HPMC K100 M) and Floating agent (novel excipient) to achieve desirable TFT, FLT and drug release. The wet granulation method was selected using isopropyl alcohol as a binder for the preparation of tablets. D-optimal non-simplex mixture design was used for the selection of suitable polymer concentrations and floating agents. Release kinetics was used to determine the mechanism of drug release. Results: It was observed that GFT with optimum quantities of PEO, HPMC K100M, and the floating agent showed 100 % of drug release in 24h with FT up to 24h and minimum FLT of less than 2 min. Formulation with an in vitro release profile slower to the marketed sample was prepared. Conclusion: A sustained-release (GFT) of MH tablets using PEO-, HPMC K100M, and an effervescent system was successfully prepared. AGFT formulation with an in vitro release profile slower to the marketed sample that releases MH for 24h may suitable for once-daily dosing can be prepared.
Aim: This research work was aimed to evaluate Metformin hydrochloride (MH) floating dosage form by In vitro evaluation/In vivo prediction and to evaluate it’s predictability through it’s application during the R&D using Insilico technique in WINONLIN Software. MH was examined as a model drug, which is a biguanide and is an hypoglycemic agent administered orally. The study was aimed to determine the the systemic concentrations of MH using In-vivo prediction. Study Design: Fabrication and assessment of Metformin hydrochloride floating drug delivery system: In Vitro evaluation /In Vivo prediction. Biorelevant media was selected for dissolution profile of 12 units of dosage form. Software assisted program used for data feeding and results output. Methodology: The absorption window for MH is the upper portion of the small gut in which the GI absorption is complete after 6 h. Hence gastroretentive formulation was developed and validity of dissolution study was extended by In vivo pharmacokinetic prediction using WinNonlin Software. A mechanistic oral absorption model was built in Phoenix WinNonlin® software. In the presented work, significant yet crucial, gastrointestinal (GI) variables are considered for biopredictive dissolution testing to account for a valuable input for physiologically-based pharmacokinetic (PBPK) platform programs. While simulations are performed and mechanistic insights are gained from such simulations from the WinNonlin program. Results: These floating tablets were observed for In vitro release and studied for In vivo pharmacokinetic prediction. From the obtained values, a meaningful In vivo prediction was done. interestingly from the results attained floating tablets showed sustained drug release and extended drug absorbed in 24h. Fascinatingly, from the data it was proved that drug formulation resides for desired time. The absorption of MH from the developed CR tablet was 1.4 fold higher than its marketed tablet and it had higher AUC0–t values than the marketed product which indicates superior bioavailability of test product compared to marketed tablet with similar dose in Invivo pharmacokinetic prediction. The mean value of biological half-life (t1/2) and Tmax of MH from test formulation is two times more, Test product has shown higher MRT, showing that the drug is maintained longer in the body in comparison to marketed product indicates controlled absorption. Conclusion: Here we concluded that, a comparative prediction pharmacokinetic evaluation of the fabricated controlled release tablets and the marketed formulation indicates that the fabricated controlled release tablets are well absorbed and the degree of absorption is greater than that of the marketed ER formulation with larger gastric residence time.
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