Reena Varshi scite author profile

Reena Varshi

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Formulation and Evaluation of Extended Release Gastroretentive Tablets of Metroprolol Succinate

Varshi¹,

Jain²,

Pal³

et al. 2022

J. Drug Delivery Ther.

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This study aimed to produce a gastroretentive floating tablet of Metoprolol succinate and examine the effects of release retardant on in vitro drug release. Metoprolol succinate is a β1 selective antagonist used as an Anti-hypertensive, Antiarrhythmic, and Anti Angina. Metoprolol succinate has 48% oral bioavailability due to limited absorption from the lower gastrointestinal tract. The Metoprolol succinate floating tablets were designed to increase stomach retention, prolong drug release, and enhance drug bioavailability. To shorten the floating lag time, hydrophilic polymers like Hydroxypropyl methyl cellulose (HPMC K4M, K15M, and K100M), polyethylene oxide (PEO 303), and sodium bicarbonate as a gas-producing agent were incorporated into the formulation of the floating tablets. Different batches of Metoprolol succinate floating tablets were prepared by direct compression. All the formulations were evaluated for various quality control tests, such as weight variation, hardness, friability, swelling index, floating lag time, and total floating time. As a dissolution medium, 0.1 N HCl was used to conduct an in vitro release investigation on the tablets. The present study demonstrates the potential of the sustained-release floating tablets of Metoprolol succinate as an alternative to conventional formulations. Keywords: Bioavailability, Floating tablet, antihypertensive drugs, extended release, Metoprolol succinate, Hydroxypropyl methyl cellulose.

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A review on Advanced approaches and polymers used in gastroretentive drug delivery systems

Varshi¹,

Jain²,

Pal³

2022

J. Drug Delivery Ther.

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Insufficient pharmacokinetic characteristics may be associated with the widespread use of oral dosage forms in the treatment of disease. In some cases, the drug is barely soluble; in others, the formulation's rapid transit through the gastrointestinal tract (GIT) makes it difficult to achieve therapeutic levels in body; in addition, some drugs must act locally due to a gastric pathology, but they remain in the stomach for only a short time. Numerous studies have focused on the development of formulations that are capable of enhancing all of these characteristics and extending the stomach residence duration. The prolonged stomach retention duration afforded by gastroretentive controlled drug delivery devices increases the therapeutic efficacy of many orally administered drugs. In the present investigation, we reviewed the advanced methods and polymers used to develop effective gastroretentive drug delivery systems. These methods include swelling and expansion, mucoadhesive, high density, low density, ion exchange, raft forming, magnetic, and floating drug delivery systems. The development of gastroretentive devices involves a broad array of polymeric materials. This work intends to expedite the development of innovative methods by offering a comprehensive understanding of unique gastroretentive approaches along with the polymeric materials utilised in the fabrication of gastroretentive drug delivery systems for oral drug delivery. Keywords: Gastroretentive; mucoadhesive; floating; raft forming system; mucoadhesive; swellable.

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Reena Varshi

Formulation and Evaluation of Extended Release Gastroretentive Tablets of Metroprolol Succinate

A review on Advanced approaches and polymers used in gastroretentive drug delivery systems

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