Syzygium caryophyllatum L. Alston (Family: Myrtaceae, Sinhala: Heendan) is a red-listed plant that has been used in traditional medicine in Sri Lanka for the treatment of diabetes, but it is yet to be exploited for its potential uses as a functional food or a source of supplements. The present study focused on the evaluation of antidiabetic property of S. caryophyllatum fruits and leaves assessing antioxidant, antiglycation, and antiamylase activities and functional mineral element composition. The crude extracts (CR) of leaves and fruits were fractionated into hexane (Hex) ethyl acetate (EA) and aqueous (AQ) and evaluated for bioactivities along with the crude extracts. The isolated fraction (C3) of Hex fraction of fruit showed significantly high (p<0.05) antiamylase activity with IC50 value 2.27 ± 1.81 μg/mL where the Hex fraction of fruits exhibited the IC50 value as 47.20 ± 0.3 μg/mL which was higher than acarbose (IC50: 87.96 ± 1.43 μg/mL). The EA fraction of leaves showed highest values for DPPH radical scavenging activity, ferric reducing antioxidant power, and oxygen radical absorbance capacity. Significantly high (p<0.05) ABTS radical scavenging activity and iron chelating activity were observed in Hex fraction of fruit. The composition of volatiles in leaf oil was studied with GC-MS, and 58 compounds were identified. Inductively coupled plasma-mass spectrometry data revealed the presence of biologically significant trace elements such as Fe, Zn, Mg, Cu, Se, and Sr in leaves and fruits. It is concluded that the Hex fraction of S. caryophyllatum fruits will be a good source for the formulation of supplements for diabetic management with further evaluation of potency and efficacy.
This study validated two underivatized methods (M1 and M2) according to the Eurachem guidelines to analyze the herbicide Glyphosate and its major metabolite aminomethylphosphonic acid simultaneously by liquid chromatographytandem mass spectrometry in both fresh and hard waters. Samples were analyzed directly after filtration through 0.22 μm syringe filters in M1, while samples were acidified with acetic acid before filtration in M2. Spike recoveries were greater than 80% for Glyphosate and aminomethylphosphonic acid in both methods. The limit of quantitation was 0.5 μg/L for M1, and 0.1 μg/L for M2 by using matrix-matched calibrations. The linear regression coefficient of both methods was greater than 0.995. The expanded uncertainty was found to be less than 25% for both. Moreover, M1 has an additional mass spectral confirmation ability, and the column and the mobile phase used in M2 can be used to analyze the inert surfactant used in Glyphosate formulations, Polyethoxylated tallow amine. The accuracy of the developed methods was assured by participating in a proficiency testing program against M2 and conducting the t-test for results generated by both M1 and M2. Both methods, therefore, can be used to determine Glyphosate and aminomethylphosphonic acid content concurrently in fresh and hard waters.
Introduction: Goitre is endemic in Sri Lanka. Iodine deficiency is considered to be the main aetiological factor for goitre in this country. The role of other aetiological factors is well recognized in the literature. The recognized factors apart from iodine include organisms, inorganic content of water and diet. Data on the relationship between goitre and inorganic content of water is not available for Sri Lankan population. Objectives: To determine the relationship between goitre and inorganic matter of water such as fluoride, magnesium, nitrate and hardness of water. Design and setting: Descriptive cross-sectional study carried out in 108 Grama Niladhari (GN) areas, island wide. Method: The country was divided into 6 zones based on the rainfall pattern and 18 GN areas were selected from each zone by randomisation based on PPS (Probability P Score). Two water samples were collected randomly from each GN area one from the people with goitres and other from the non-goitre subjects. The water was analysed at the Industrial Technology Institute (ITI). Results: 108 samples from goitre and non-goitre groups were analyzed respectively. Comparative values for each inorganic content in respect to subjects with and without goitre groups were as follows, Total hardness (CaCO 3) mg /L-55.44, 59.15; Calcium (Ca) mg /L-15.76, 13.71; Magnesium (Mg) mg /L-3.14, 4.08; Fluoride (F) mg /L-0.31, 0.37. There is no discernable statistically significant difference between two groups in relation to inorganic content of water. Conclusion: There was no clear relationship between the inorganic matter of water and prevalence of goitre in this study.
Since early 1980’s, the production and usage of Polychlorinated biphenyls (PCBs) have been banned throughout the world due to its carcinogenicity to humans and animals. However, due to the large half-lives of PCBs, large amounts of stocks are still available in storage. This study presents the validation data of the method developed for analysis of Aroclor 1260 in transformer oils in order to determine the concentrations for systematic disposal and destruction.The transformer oil samples were prepared according to the ASTM D 4059 with few modifications. PCBs in transformer oils were extracted with iso-octane followed by deactivated florisil cleanup and detection by GC – ECD using HP 5 GC column (30 m x 0.32 mm x 0.25 μm). The study was performed under matrix matched condition to eliminate the matrix effect that was found to be significant. The method was found linear over a wide working range from 2.5 ppm – 100 ppm with a regression coefficient of 0.994 and a lower limit of determination of 2.5ppm. Method showed satisfactory repeatability with relative standard deviation below 7% over the entire working range. Accuracy of the method was assured using spike recoveries at 5 ppm, 10 ppm and 50 ppm with 85%, 105% and 93% respectively. The selectivity of Aroclor 1260 was confirmed against Aroclor 1254 and Aroclor 1242 considering uniquely identified non – overlapping chromatographic peaks. Based on the performance characteristics, this method can be suggested as an accurate and precise methodology to analyze Aroclor 1260 present in transformer oil.
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