This project was aimed to formulate and characterize mucoadhesive buccal tablets of aceclofenac, utilizing different proportions of three polymers carbopol 934, hydroxypropyl methylcellulose, and sodium carboxymethylcellulose. Twelve batches of buccoadhesive aceclofenac were prepared by the direct compression method. The compressed tablets were then evaluated for physicochemical parameters such as hardness, thickness, weight variation, drug content, friability, swelling index, surface pH, and ex vivo mucoadhesion. In vitro dissolution test was conducted for 12 h according to Indian Pharmacopeia 2018, using the rotating paddle method in phosphate buffer of pH 7.4. Physiochemical parameters like weight variation (231.25–268.75 mg), hardness (8.32–11.56 kg), friability (0.04–0.2%), diameter (9.00 mm), thickness (3.8–4.05 mm), and drug content ((97.67–102.25%) were within the acceptable limit as per Indian Pharmacopeia 2018. The swelling index was reported to be in the range of 112.93–450.19%, at 8 h. The surface pHs of all the batches were in between 6.72 to 6.96. The mucoadhesive strengths (40.5–50 g) varied with the change in polymer concentrations especially of carbopol 934. The dissolution profile of all the batches varied greatly, with a maximum release of 109.41% (in batch 12 at 6 h) to a minimum release of 44.82% (in batch 3 at 12 h). Among them, only batch 1 ensured sustained and effective drug release (88.34% at 12 h) with appropriate swelling index (112.93%) and mucoadhesive strength (40 g). Fourier Transform Infrared Spectroscopy analysis showed no evidence of drug excipients interaction. Hence, the results concluded that buccal mucoadhesive aceclofenac tablets can be formulated. Furthermore, the property of the tablet not only depends on the concentration but also the behavior of the polymers used.
Aflatoxin is a secondary fungal metabolite that contaminates foods, mostly staple diets like maize, peanuts, chillies, and even rice. These foods are also a major constituent of weaning food for infants in Asia and Sub-Saharan Africa. The fungal metabolite contaminates food during production, harvest, storage, and processing. The contamination is largely promoted by genotypes of crops, soil conditions, temperate regions, and insect activity. Once ingested into the body, aflatoxins get metabolized into different hydroxylated derivatives such as AFb1, AfM1, AFP1, aflatoxicol, and Aflatoxin B1. AFB1 is the most carcinogenic and potent of the known metabolites and they have been categorized as Group I carcinogenic agents by the International Agency for Research on Cancer. The toxic metabolites of aflatoxins have been found in blood samples, breast milk and also have been shown to traverse the placental route. Through various metabolic pathways aflatoxins are responsible for different types of pathological outcomes like gut enteropathy, anemia, stunting, and other immunological disorders. Moreover, socioeconomic determinants have indirectly shown to be strong predictors of aflatoxins exposure and thus its related pathological outcomes. Since we have a very limited number of researches about aflatoxins, this review altogether puts forward what is known about the toxin and its harmful metabolites. Keywords: Aflatoxins; aflatoxinB1; carcinogens; fungal toxins.
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