Physicochemical properties and angiotensin-I converting enzyme inhibitory activity of lipid-free ribbon fish (Lepturacanthus savala) protein hydrolysate.

The study aims at removal of lipid from ribbon fish protein hydrolysate (FPH) to enhance the protein content and analyse its physicochemical and bioactive properties. Ribbon fish protein hydrolysate was prepared using commercially available papain enzyme (1.5% w/v for 4 h). The resulting supernatant was further treated with lipase (0.5-2.0% w/v for 1-5 h). The treatment used in this study reduced ~ 98% of lipids depending on the enzyme concentration, temperature, pH, and duration of the treatment. Lipase treatment for 2 h increased the protein content from 62.87 to 94.11%. FPH after lipase treatment showed 1.21 folds increase in angiotensin-converting enzyme-I (ACE-I) inhibitory activity and 1.7 folds increase in standard amino acids composition (32.193 to 61.493 g/100 g). The physicochemical properties of FPH samples were analyzed by solubility, hygroscopicity, color, FT-IR, SEM, SDS-PAGE, and Zeta Potential. Use of lipase enzyme for separating the lipid content from protein hydrolysate without conferring any undesirable adverse effects on the physicochemical properties of protein hydrolysate. Lipid-free protein hydrolysates can be of commercial importance for their enhanced ACE-I inhibitory activity, replacing the side effect causing synthetic drugs for hypertension, and can have potential applications in developing functional food formulations. Supplementary Information: The online version contains supplementary material available at 10.1007/s13197-022-05620-z.

The effect of nutritional status on the pharmacokinetic profile of acetaminophen.

Nutritional imbalance (low protein / high fat) is a public health problem affecting many people in developing and developed nations. Such an imbalance will influence pathophysiological homeostasis in individuals and thereby considerably impact drug pharmacokinetics. It was reported that short-term fasting increases acetaminophen exposure in healthy subjects, whereas no effect was observed after a high-fat diet. These findings suggest the necessity of considering nutritional status when assessing the risk of acetaminophen-induced hepatotoxicity. Additionally, the role of nutrition status on the pharmacokinetic profile of acetaminophen (APAP) at toxic doses is either scanty or not available. With this background, we aimed to compare the effects of nutrition status on the pharmacokinetic profile of APAP at a toxic dose in three different dietary regimens like - Normal diet (ND), Low protein diet (LPD), and High-fat diet (HFD). Balb/C female mice were divided into three groups after weaning, and for the next 15 weeks, they were fed with their respective diets (ND, LPD, and HFD). After that, mice were dosed with APAP (300 mg/kg p.o), and blood sampling was done at different time intervals and centrifuged at 3000 rpm for 5 min to collect plasma samples. Plasma samples were analyzed using the HPLC method. Data analysis was done by Non-compartment analysis using Phoenix WinNonlin 8.3 software. LPD group shows higher values of Cmax, tmax, t1/2, and AUC0-4, AUC0-x values than ND and HFD groups. Both Cmax and AUC follow the pattern of drug exposure where LPD > ND > HFD. In conclusion, nutrition in the diet alters APAP pharmacokinetic profile at a toxic dose in three different diet regimes. Further study on CYP450 concentration and activity is essential to understand the pharmacokinetics difference between these dietary regimens.

Studies on development and storage stability of instant spice adjunct mix from seaweed (Eucheuma).

Seaweed is a macroscopic marine algae which has been used as human food since ancient times. Food values of seaweed are mainly due to significant amounts of protein, vitamin, mineral, trace elements and dietary fibre apart from substances of antibiotic nature. In this study edible red seaweed Eucheuma (Kappaphycus alvarezzi), was used as an ingredient in the preparation of spice adjunct. Functional properties such as soluble solids, water-holding capacity, oil holding capacity and swelling capacity of Eucheuma were studied. Steamed Eucheuma powder was added at levels of 15, 20 and 25% in the preparation of spice adjunct. Sensory analysis and consumer acceptability study of spice adjunct showed that the incorporation of Eucheuma upto 20% had high acceptability. Spice adjunct containing 20% Eucheuma had 6.2% moisture, 22.2% ash, 29.2% fat, 10.0% protein, 9.4% crude fibre and 23% carbohydrates. Based on equilibrium relative humidity studies metallized polyester was selected as the packaging material. Storage studies indicated that metallized polyester provided a shelf life of 120 days at both the ambient and accelerated conditions.

Effect of using seaweed (eucheuma) powder on the quality of fish cutlet.

Physico-chemical properties of Eucheuma, such as soluble solids (27.5+/-0.02%), water holding capacity (17.7+/-0.08g/g) and oil holding capacity (2.14+/-0.07g/g) were estimated as measures of its functionality. Eucheuma powder was used as an ingredient in the preparation of fish cutlet. Dried Eucheuma powder was added at levels of 5, 7.5, 10, 12.5 and 15% and physicochemical characteristics of fish cutlet were studied. Sensory evaluation showed that use of Eucheuma significantly (P