In recent years, nanosponges (NS) have gained tremendous impetus in drug delivery through nanotechnology. Nanosponges are capable of providing solutions for several formulation related problems. Through this review, scientists working in the field of nanotechnology can have an insight into the techniques of preparation, characterization and applications of NS. Owing to their small size and porous nature they can bind poorly-soluble drugs within their matrix and improve their bioavailability. They can be crafted for targeting drugs to specific sites, prevent drug and protein degradation and prolong drug release in a controlled manner. This review attempts to elaborate different schemes of synthesis of NS and their characterization. Factors affecting drug loading and release have been enumerated. Due to their advantages, NS have not only been explored for their pharmaceutical applications but also have large popularity in allied sciences, especially in water purification.
The approach offers a comfortable dosing zone for AIDs patients, negating the requirement of consuming the formulation in a fed state due to enhancement in drugs' oral bioavailability.
A rapid and highly sensitive LC-MS=MS method was developed and validated for the determination of allopurinol (AP) and its major metabolite, oxypurinol (OP) in human plasma using lamivudine as an internal standard (IS). The analytes were extracted from human plasma by protein precipitation using acetonitrile. The chromatographic separation was employed on ''waters symmetry shield RP 8 , 150 mm  3.9 mm, 5 lm'' columns using a mixture of 0.01% formic acid in water and acetonitrile in the ratio of 95:05 (v=v) as the mobile phase. Mass spectrometer in the selected reaction-monitoring mode with negative electro spray was used for the detection and quantification of the analyte. Recovery study was performed showing the accuracy at upper and lower limits of quantification. The stability study was also carried out. The described method was found to be linear over a range of 0.01-10 lg mL À1 with a lower limit of quantification of 0.01 lg mL À1 for both AP and OP. The coefficient of variation for the assay precision was found <6.94, and the accuracy was found >96.03. The extraction recoveries for AP and OP were found to be in between 70 and 80%, the accuracy was found to be in between 95 and 106% in human plasma. The dilution integrity test, hemolysis and anticoagulant effect, and matrix effect studies were reported.
4,5,6,7-Tetrahydrothieno pyridine is an important class of heterocyclic nucleus. Various 4,5,6,7-tetrahydrothieno pyridine derivatives have been synthesized and evaluated for various biological activities in different models with desired findings. Some analogs have shown potent biological activities and may be considered as lead molecule for the development of future drugs. Number of drug molecules are available in the market and many molecules are in clinical development containing 4,5,6,7-tetrahydrothieno pyridine nucleus as an important core. This review is an attempt to organize the chemical and biological aspects of 4,5,6,7-tetrahydrothieno pyridine analogs reported in last 20 year to till date. Review mainly focuses on the important role of the core in synthesis of drug or drug intermediates giving emphasis on synthetic schemes and biological activities of the different 4,5,6,7-tetrahydrothieno pyridine analogs.
Systemic and uncontrolled administration of erlotinib hydrochloride (ETB) is associated with severe toxicity. A novel targeted and extended release nanosponge (NS) was synthesized from glutathione (GHS) by a one-step reaction between β-cyclodextrin and pyromellitic dianhydride at room temperature for delivery of ETB in lung cancer. Characterization studies were performed using sophisticated instruments. In-vitro release study was performed in the presence of incremental concentrations of GHS which was analyzed using HPLC. Cell cytotoxicity study was evaluated on human lung cancer (A549) cell lines. In-vivo tumour inhibition and biodistribution of ETB-loaded GHS-NS (ETB-NS) were performed on BALB/c mice. NS obtained was spherical, size 212 ± 2.45 nm and high drug entrapment (92.34 ± 5.31%) (p < .001). In-vitro extended drug release (76.89 ± 0.1% release at 168 h), which was directly proportional to the concentration of GHS, demonstrated tumour targeting. There was enhanced in-vitro cytotoxicity and 97.5% inhibition in tumour growth on administering NS when compared to plain ETB (48% inhibition) indicating targeting of NS to the tumour site. Biodistribution study and in-vivo tumour growth inhibition study revealed drug release to the cancerous cell, thus preventing unnecessary drug exposure. ETB-NS exhibits extended drug release proportional to the external GSH concentration.
Dissolution testing has emerged in the pharmaceutical field as a very important tool to characterize drug product performance. Pioglitazone hydrochloride, a frequently prescribed antidiabetic, has no dissolution assay in official monographs. The aim of the study was to develop and validate a dissolution test for the quality control of pioglitazone hydrochloride (PH) tablets containing 15 mg of active pharmaceutical ingredient (API). Results from testing sink conditions and stability at 37 °C show that PH is stable in potassium chloride buffer at pH 1.2, 1.5, 1.8, and in 0.1 N hydrochloric acid. In vitro dissolution tests of PH tablets were performed using different test conditions but always under sink conditions. The effects of filtration and deaeration were evaluated. The most discriminatory test conditions, potassium chloride buffer at pH 1.5 (900 mL at 37 ± 0.5 °C) as dissolution medium, paddle method (Apparatus 2), 75 rpm, and 60 min, were satisfactory. The UV spectrophotometric method for determination of released PH was developed and validated. The method presented linearity (r 2 = 0.999) in the concentration range of 10-60 μg/mL. The recoveries were good, ranging from 96.407% to 100.24%. The intraday and interday precision results were 1.704% and 1.3869% RSD, respectively. The developed dissolution test is adequate for its purpose and can be applied for the quality control of 15-mg PH tablets.
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