A review on anti-bacterials to combat resistance: From ancient era of plants and metals to present and future perspectives of green nano technological combinations.

In the primitive era, humans benefited partially from plants and metals to treat microbial infections. Later these infections were cured with antibiotics but further suffered from resistance issues. In searching of an alternative, researchers developed an adjuvant therapy but were hampered by spreading resistance.

Antibiotic potentiation and anti-cancer competence through bio-mediated ZnO nanoparticles.

Zinc Oxide (ZnO) is currently used in nano-cosmeceuticals and nano-pharmaceuticals topically due to their multifunctional efficiency irrespective of the synthetic method. Bio-reducers are cosmopolitically famed to attain stable, reliable, and toxic free synthesis. Thus, the objective of the current study is to prepare ZnO NPs in a greener approach using Annona squamosa (AS) leaf extract and to evaluate their antibiotic potentiation capacity and anticancer activity.

Design of multifunctional peptide collaborated and docetaxel loaded lipid nanoparticles for antiglioma therapy.

Glioblastoma multiforme (GBM) is one of the most encountered gliomas of the central nervous system. The chemotherapeutic drugs used in the treatment of GBM suffer from poor blood brain barrier penetration, severe systemic toxicities and lack of specificity towards tumor cells. There is an urgent need to explore novel drug delivery systems specifically designed for targeting GBM.

Enhanced oral bioavailability and anticancer efficacy of fisetin by encapsulating as inclusion complex with HPβCD in polymeric nanoparticles.

Fisetin (FST), a potent anticancer phytoconstituent, exhibits poor aqueous solubility and hence poor bioavailability. The aim of the present study is to improve the oral bioavailability of FST by encapsulating into PLGA NPs (poly-lactide-co-glycolic acid nanoparticles) as a complex of HPβCD (hydroxyl propyl beta cyclodextrin) and to assess its anti-cancer activity against breast cancer cells. FST-HPβCD inclusion complex (FHIC) was prepared and the supramolecular complex formation was characterized by FTIR, DSC, PXRD and H NMR.

Formulation and optimization of gastric floating drug delivery system using Central composite design and its biopharmaceutical evaluation.

The present work investigates the formulation and biopharmaceutical estimation of gastric floating drug delivery system (GFDDS) of propranolol HCl using semi-synthetic polymer carboxymethyl ethyl cellulose (CMEC) and a synthetic polymer polyethylene oxide (PEO). A central composite design was applied for optimization of polymer quantity (CMEC or PEO) and sodium bicarbonate concentration as independent variables. The dependent variables evaluated were: % of drug release at 1 hr (D1hr), % drug release at 3 hr (D3hr) and time taken for 95% of drug release (t95).

Badam gum: a natural polymer in mucoadhesive drug delivery. Design, optimization, and biopharmaceutical evaluation of badam gum-based metoprolol succinate buccoadhesive tablets.

Context: Applicability of natural polymers in pharmaceutical drug delivery.

Objective: The objective of the present investigation was to evaluate the applicability of badam gum (BG) obtained from Terminalia catappa LINN, belongs to the family combretaceae as a buccoadhesive polymer using metoprolol succinate as a model drug.

Methods: Tablets were prepared by wet granulation technique.

Design and evaluation of a gastroretentive drug delivery system for metformin HCl using synthetic and semi-synthetic polymers.

The aim of the present research was to prepare and evaluate a gastroretentive drug delivery system for metformin HCl, using synthetic and semi-synthetic polymers. The floating approach was applied for preparing gastroretentive tablets (GRT) and these tablets were manufactured by the direct compression method. The drug delivery system comprises of synthetic and semi-synthetic polymers such as polyethylene oxide and Carboxymethyl ethyl cellulose (CMEC) as release-retarding polymers.

Statistical optimization of a novel excipient (CMEC) based gastro retentive floating tablets of propranolol HCl and it's in vivo buoyancy characterization in healthy human volunteers.

The objective of the present investigation is to formulate gastro retentive floating drug delivery systems (GRFDDS) of propranolol HCl by central composite design and to study the effect of formulation variables on floating lag time, D1hr (% drug release at 1 hr) and t90 (time required to release 90% of the drug). 3 factor central composite design was employed for the development of GRFDDS containing novel semi synthetic polymer carboxymethyl ethyl cellulose (CMEC) as a release retarding polymer. CMEC, sodium bicarbonate and Povidone concentrations were included as independent variables.

Thermal sintering: a novel technique used in the design, optimization and biopharmaceutical evaluation of propranolol HCl gastric floating tablets.

The objective of the present investigation was to study the applicability of thermal sintering technique for the development of gastric floating tablets of propranolol HCl. Formulations were prepared using four independent variables, namely (i) polymer quantity, (ii) sodium bicarbonate concentration, (iii) sintering temperature and (iv) sintering time. Floating lag time and t95 were taken as dependent variables.

Thermal sintering: a novel technique in the design of gastroretentive floating tablets of propranolol HCl and its evaluation.

The aim of the present investigation was to formulate thermally sintered floating tablets of propranolol HCl, and to study the effect of sintering conditions on drug release, as well as their in vitro buoyancy properties. A hydrophilic polymer, polyethylene oxide, was selected as a sintered polymer to retard the drug release. The formulations were prepared by a direct compression method and were evaluated by in vitro dissolution studies.

Investigation on in vitro dissolution rate enhancement of indomethacin by using a novel carrier sucrose fatty acid ester.

Background And The Purpose Of The Study: The purpose of the present investigation was to characterize and evaluate solid dispersions (SD) of indomethacin by using a novel carrier sucrose fatty acid ester (SFE 1815) to increase its in vitro drug release and further formulating as a tablet.

Methods: Indomethacin loaded SD were prepared by solvent evaporation and melt granulation technique using SFE 1815 as carrier in 1:0.25, 1:0.

Characterization and in vitro drug release studies of a natural polysaccharide Terminalia catappa gum (Badam gum).

The main objective of the present study is the physicochemical characterization of naturally available Terminalia catappa gum (Badam gum [BG]) as a novel pharmaceutical excipient and its suitability in the development of gastroretentive floating drug delivery systems (GRFDDS) to retard the drug for 12 h when the dosage form is exposed to gastrointestinal fluids in the gastric environment. As BG was being explored for the first time for its pharmaceutical application, physicochemical, microbiological, rheological, and stability studies were carried out on this gum. In the present investigation, the physicochemical properties, such as micromeritic, rheological, melting point, moisture content, pH, swelling index, water absorption, and volatile acidity, were evaluated.

Chronotherapeutic drug delivery from indomethacin compression coated tablets for early morning pain associated rheumatoid arthritis.

As the main intent of delivering maximum concentration of drug available from the dosage form, an oral compression coated tablet (CCT) was intended to develop with a predetermined lag time of 6 hrs before immediate release of drug to target circadian rhythms of rheumatoid arthritis. Solid dispersions are promising approach to enhance drug release, which later will be developed as core tablet formulation and compression coated with polyethylene oxide (PEO WSR 303). Solid dispersions were formulated with different ratio of drug and carrier (sucrose fatty acid esters 1811) using solvent evaporation and melt granulation technique, optimized solid dispersion was formulated as core tablet with different diluents.

Design and in vitro evaluation of effervescent gastric floating drug delivery systems of propanolol HCl.

Abstract. The purpose of this research was to develop and evaluate effervescent gastric floating tablets of propranolol HCl. The oral delivery of antihypertensive propranolol HCl was facilitated by preparing an effervescent floating dosage form which could increase its absorption in the stomach by increasing the drug's gastric residence time.

An in vitro and in vivo investigation into the suitability of compression coated tablets of indomethacin for the treatment of rheumatoid arthritis which follow circadian rhythms.

Objective: The aim of this study was to develop chronotherapeutic drug delivery system of indomethacin using polyethylene oxide (PEO) with a predetermined lag time of 6 h by compression coating technique.

Materials And Methods: Solid dispersions (SD) of indomethacin were prepared using novel carrier sucrose fatty acid ester (SFE 1815) to increase the in vitro dissolution. The optimized SD was formulated as immediate release core tablet which were further coated with PEO (WSR Coagulant or WSR N12 K) using compression coating technique.