Abstract. Extraction of Omega-3 fatty acid from Catfish using enzymatic hydrolysis techniques are expected to be more economically possible techniques due to the uses of enzyme with the characteristic of reusable, environmental friendly and less energy required for large-scale production. Malaysian like to consume Catfish in their daily diet. Thus, it is very popular among farmers in Malaysia. Omega-3 polyunsaturated fatty acid have many benefit to human health. Based on research, EPA and DHA can reduce the risk of heart disease by regulate the blood coagulation. The main purpose of this research is to extract the Omega-3 polyunsaturated fatty acid by using enzymatic hydrolysis method. Enzymatic extraction technique by using Alcalase was used to extract the Catfish oil. Then, lipase was used to concentrate the omega-3 polyunsaturated fatty acid. Peroxide value and acid value were used to determine the Catfish oil quality. Optimization using DOE verify that the highest percentage of oil yields at 51°C, 0.91% enzyme concentration and 155 minute incubation time. Finally, there are two types of omega-3 polyunsaturated fatty acid can be found in Catfish oil which is EPA and ALA.
Flavonoids are found as the most abundant bioactive compounds all around the world. It is found in a number of medicinal plants that are used as wound healing agents in traditional medicinal uses such as Buddleja globosa, Moringa oleifera, Lam, Butea monosperma, Parapiptadenia rigida and Ononis spinosa. Flavonoids nowadays are being used in different formulation and wound healing dressings. Inflammation, proliferation and reepithelialization are involved in wound healing. Most of the wound healing medicinal plants possess multiple flavonoids that act as synergistic effect or combined effect. This chapter briefly reviews the role of flavonoids as wound healing agent in traditional and modern medicine.
Edible bird nest (EBN) is a product obtained from the salivary excretion of different species of swiftlets during the breeding season. It is an expensive health food product. The raw EBN needs intensive cleaning before it can be consumed. Currently, EBN is increasingly used in cosmetic products. The cleaning procedure generally produced about 30 % (w/w) of waste. To date, there is no work conducted to study the composition of the waste recovered from the cleaning process and converting the waste into useful downstream products. Therefore, the aim of this study is to determine the composition of the EBN wastes and to formulate a value added facial cream product from the EBN waste. EBN waste (residues) was collected from the cleaning water of EBN samples from the swiftlet species Aerodramusfuciphagus using the centrifugation method. The chemical composition of the EBN waste (residues) was analyzed qualitatively using the FTIR technique. Similarly, the different grades of processed EBN samples (2A, 3A, 4A, 5A and biscuit white) from the swiftlet species Aerodramusfuciphagus were quantitatively analyzed using the elemental analyzer. The residual EBN showed high protein content (47.33±3.09 %) and carbohydrate content of 2.4±0.37 %. Interestingly, nitrite, nitrate and lead were not present in the EBN waste. Thus, EBN waste is considered safe to formulate a facial cream. The collagen content in EBN is good as an anti-aging beauty cream. Since the EBN is a very expensive product, the residual EBN waste has good potential to formulate a value added product without any loss in its nutritional health benefits to achieve a similar effect as EBN. The high protein content retained in EBN waste makes the wash off water from EBN washings a suitable nutrient – rich component for the formulation of health and beauty products.
The use of molecularly imprinted polymers for Solid phase micro-extraction (SPME) of bioactive compounds are getting popularity. The interest on efficient extraction process of andrographolide from the plant is increasing due to their vast therapeutic applications. In this study, andrographolide imprinted MIP was prepared by precipitation polymerization method using the non-covalent technique to use as sorbent materials for solid phase extraction of the bioactive compound. HyperChem 8.0.10 software was used to investigate and optimize the template and functional monomer ratio in the pre-polymerization system to synthesize the imprinted polymers. Molecular modeling gives information about molecular interactions and the Gibbs free energies of the pre-polymerization complex. Based on the computational study, andrographolide, methacrylic acid (MAA) and ethylene glycol dimethacrylate (EGDMA) were used as the template, functional monomer, and cross-linker, respectively at the 1:3:20 ratios. The MIPs were characterized by kinetic study and imprinting factor. The binding parameters for the recognition of andrographolide were studied using Langmuir, Freundlich and Langmuir-Freundlich adsorption isotherm models. Andrographolide MIP contains the maximum number of binding sites with the adsorption capacity of 149.59 μg/g. The SPME experimental data best fit with Langmuir-Freundlich isotherm model with the R2 value of 0.997. This research shows that the MIPs prepared by precipitation polymerization gives a good extraction capability using SPME method.
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