Clinical Correlates of Physiochemical Changes in Urinary Composition in Subjects treated with Cymbopogon citratus infusion
Previous studies have shown that the physiochemical properties of urine could change after ingestion of medicinal plants, and may provide significant clinical and diagnostic information. This study examined the urinary profile of healthy subjects who consumed Cymbopogon citratus (C. citratus) infusion. Urine samples were obtained from 105 participants at days 0, 10 and 30 after treatment with infusions prepared from 2, 4 and 8g of C. citratus powder. Biochemical analyses of the urine to determine its chemical constituents were performed using standard procedures. Results obtained on days 10 and 30 were compared with baseline values. UV and UF increased in all groups. Urinary excretion of some electrolytes (Na+ and K+) and DA increased at day 10 only, whereas others (Ca2+ and Cl-) increased at both days 10 and 30. USG and colour remained unchanged. Urinary creatinine levels significantly increased (p<0.05) in all groups, whereas urinary urea significantly (p<0.05) increased in all groups except the group treated with 8g for 30 days. Urine uric acid and pH decreased in all groups. Urinary protein, glucose, bilirubin and bicarbonate were undetected. Ingestion of C. citratus infusion is associated with some physiochemical changes in urinary composition and could provide significant clinical information on the systemic effects of the plant in humans.
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Cobalt and Nickel Complexes of Oxazole Thiosemicarbazone, Synthesis, Structural and Antimicrobial Activity
The ligand, 2-methyl-1,3-oxazole-4-carbaldehyde thiosemicarbazone (HL) was synthesized by reacting equimolar amounts of thiosemicarbazide with the corresponding aldehyde. The synthesized ligand was reacted with Ni(II) and Co(II) chlorides in the 2:1 mole ratio of ligand: metal. These led to the isolation of two new complexes, namely [Ni(HL)2]Cl2 (1), [Co(L)2].1.3Cl (2), the ligand and its metal(II) complexes were characterized by elemental analysis, IR, 1H NMR, 13C NMR spectroscopic methods, UV-Vis spectrophotometry and X-ray diffraction. The X-ray structural studies of the ligand and their corresponding metal complexes 1, 2 revealed that: The free ligand exist in the thione form and remain as neutral tridentate with NNS donor atoms in the complex (1) but in the complex (2) the HL acted as uninegative tridentate ligand, beside Presence of uncoordinated chloride ions in the cavities of the crystal lattice of the complex (2). One of these chlorides is hydrogen bonded to a proton of the amine of the ligand. The coordination environment of Ni(II) and Co(II) metal complexes 1, 2, has a distorted octahedral structure. The oxazole N and S atoms in the two complexes are cis to each other whereas the azomethine N atoms are trans coordinated. The ligand and its metal complexes were tested for their in vitro biological activity against seven standard microorganisms: two Gram positive namely Bacillus subtilis and Micrococcus luteus, and one Gram negative bacteria Escherichia coli and four fungi: Saccharomyces cerevisiae (Baker’s yeast), Candida maltosa, Mucor spec., and Aspergillus niger, at a concentration 100µg/ml. The results showed that the ligand HL and its Ni(II) Co(II) complexes appear inhibition activity for Mucor spec. only.
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Comparison of binding energy of methane with calcium benzene dication complex ion [Ca(Benzene)2]2+ ON DFT and PEC in the gas phase
The UV photofragment spectrum of the dication sandwich complex Ca(Benzene)2]2+ had been recorded in the gas phase using a quadrupole ion trap mass spectrometer. From the DFT calculations, the optimised C2 and C2v conformers of Ca(Benzene)2]2+ were confirmed. Methane activation with calcium benzene dication complex ion resulted in the formation of methane calcium benzene dication complex ion [Ca(Benzene)2CH4]2+ and methane calcium benzene mono-cation [Ca(Benzene)CH4]+. The calculated charge on the metal centre was reduced by 40% in the optimised geometry of [Ca(Benzene)2CH4]2+ as compared to the charge of +2 assumed on Ca metal in the PEC calculation. The DFT calculated result reveal that the binding energy of methane to the metal dication complex ion was 13.28% lower compare to the value obtained on the PEC model.
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Statistical analysis of water quality parameters and water quality index (WQI)
The present study is aimed to analyze the statistical relationship among various water quality parameters and water quality index (WQI). For this, observed results of physico-chemical analysis of 71 ground water samples of study area in pre- and post-monsoon season and calculated water quality index values for each respective sample were taken into consideration. Correlation coefficient between every water quality parameter and WQI values is calculated and for the pairs having highly significant correlation coefficient (0.8<r<1.0) values; regression model is applied and scatter plots are drawn. The systematic correlation and regression study suggested the perfect linear relationship between Fluoride and WQI Values. The analysis provides essential information regarding the dependency of water quality rating on each water quality parameter.
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Synthesis and Antimicrobial Activity of Schiff Bases Derived from 5-Chlorosalicylaldehyde with Substituted Aniline
Schiff bases (E)-4-chloro-2-((phenylimino)methyl)phenol, (E)-4-chloro-2-(((2-methoxyphenyl)imino)methyl)phenol, (E)-4-chloro-2-(((4-chlorophenyl)imino)methyl)phenol, (E)-4-chloro-2-(((5-chloro-2-methylphenyl)imino)methyl)phenol were synthesized from 5-chlorosalicylaldehyde and substituted aniline. The synthesized compounds were characterized by elemental analysis, IR, UV, 1H, and 13C NMR. The antibacterial studies revealed that the compounds exhibit broad spectrum antibacterial activity against Escheriochia coli, Klebsiella pneumonia, proteus mirabilis, Pseudomonas aeruginosa and Salmonella typhimurium. The antibacterial activities was affected by the substituent on the aniline part.
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Synthesis of Cinnemaldine-aniline and Kinetic study
The second order reaction rate constant for the reaction of Cinnemaldehyde with aniline have been reported in ethanol in the temperature range 303 to 318 k .The rate of reaction is first order with respect to Cinnemaldehyde and first order with respect to aniline. Increase in temperature increases the rate of reaction. The thermodynamic parameters are used to explain the nature of reaction .Suitable reaction mechanism has been suggested for the formation of the Schiff base.
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Vitamins contents of ten species of edible insects commonly found in Southwest Nigeria: Nutritional implications
Insects are among the most diverse types of animals within the arthropod group that are usually collected for food and feed. The vitamin profile of ten insect samples: adult bee, bee brood, winged termite, termite soldier, mopane worm, scarab beetle, snoult beetle, maize weevil, silkworm larva and silkworm pupa were investigated using standard analytical methods. Among the water-soluble vitamins investigated, vitamin B3 (niacin) had the highest concentration in each of the samples with values 4.57-7.33mg/100g whilst vitamin C (9.27e-5-1.34e-4) recorded the lowest concentration. Other water-soluble vitamins (mg/100g) determined were B1: 0.050-0.096, B2: 0.261-0.387, B5: 1.48e-3-4.14e-3, B6: 0.124-0.156 and B9: 6.55e-3-8.58e-3. Vitamin E (1.50-2.48mg/100g) was most concentrated among the fat-soluble vitamins investigated followed by vitamin A (0.021-0.110mg/100g) whilst vitamin K (6.63e-4-1.04e-3mg/100g) had the least concentration. The statistical analysis using Chi-square at ? = 0.05 showed that no significant differences existed among the samples in the parameters determined. This research work has therefore provided more useful and reliable information on the vitamins composition of the analyzed ten insect samples that could enhance their usefulness and applications in Food industry.
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Chemical constituents, toxicity and larvicidal activity of the essential oil from the leaves of acalypha hispida and acalypha wilkesiana in south-west Nigeria
The chemical composition of the essential oils from the leaves of Acalypha hispida and Acalypha wilkesiana obtained by hydro distillation, were analyzed by Gas chromatography linked with Mass spectrometry. The main constituents of the essential oil from A. hispida were neral (11.04%), citral (12.87%), 6,10,14, trimethyl-2-pentadecanone (13.43%) and n-hexadecanoic acid (14.69%) while neral (30.66%) and citral (36.10%) which are monoterpenes were the major compounds in the oil of A. wilkesiana. The essential oils were tested for toxicity against brine shrimps larvae (Artemia salina) and showed LC50 values of 122.28µg/mL and 212µg/mL respectively while their activity against Anophelis gambiae reveal LC50 values of 125µg/mL and 83.33µg/mL respectively.
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Q-Absorbance ratio and Chromatographic Method for the Analysis of Aspirin and Salicylic acid
Two simple, specific, precise and accurate methods were developed for the analysis of Aspirin (ASA) in bulk and formulation forms in presence of its degradation product salicylic acid (SA). The first method was based on determining Q-Absorbance ratios at two wavelengths; 251.4 nm (iso–absorptive point, ?1) and 275.6 nm (?max of ASA, ?2) for aspirin and salicylic acid to obtain their absorptivity valueswhich form the basis for their concentrations calculations. Beer’s law was obeyed in the concentration range 50-450µg/ml and 10-90µg/ml for ASA and SA, respectively with correlation coefficient not less than 0.999. The second method based on development of stability-indicating chromatographic method (HPLC) reliable for the assay of aspirin in presence of salicylic acid. The stability-indicating property of the developed method was achieved on a C18 column (250*4.6mm) and a mixture of methanol and 1% acetic acid (60:40 v/v) as mobile phase at 1ml/min flow rate and detector set at 298nm. The constructed calibration curves were linear in the concentration range 1000-5000µg/ml and 30-270µg/ml for ASA and SA, respectively. The developed methods were optimized and validated in accordance to ICH guidelines. The validated methods were applied for the assay of ASA in five brands low dose formulations as well as to identify and quantify any SA present using standard reference materials.
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Synthesis and characterization of a new noncentrosymmetric organic–inorganic hybrid material (C5N2ClH6)2[CdCl3.57(H2O)0.43].Cl0.43.H2O1.57
The title organic–inorganic hybrid material, (C5N2ClH6)2[CdCl3.57(H2O)0.43].Cl0.43.H2O1.57, crystallizes in the non-centrosymmetric setting in the chiral space group P212121. Its simplified structure consists of edge sharing [CdCl4]2- units that are connected with each other to form infinite {[CdCl2Cl4/2]2-}n anionic chains; of 2-amino-5-chloropyridinium cations (two for every cadmium ion); and of one localized water molecule. Areas with additional electron density, adding up to 12 electrons each, are found in the form of narrow tubes that stretch along the direction of the a-axis, but no meaningful model for these regions could be devised and the electron density in there was instead corrected for by back-Fourier transformation methods. In the solid state structure one of the chlorine atoms of the tetrachlorocadmate units is partially replaced by a water molecule in a 0.568 (7) to 0.432 (7) ratio, with charge balance achieved through partial replacement of an interstitial water molecule by a chlorine ion. This leads to an actual formula for the compound of (C5N2ClH6)2[CdCl3.57(H2O)0.43].Cl0.43.H2O1.57 rather than the simplified (C5N2ClH6)2[CdCl4].2H2O. In the more prevalent cadmate units the metal centers have a distorted octahedral CdCl6 coordination sphere. In the remainder of the sites with one of the chlorines replaced by water, the coordination geometry is CdCl5(OH2) instead. The anionic and cationic units and the water molecules are connected through intricate O—H•••Cl, N—H•••Cl and N—H•••O hydrogen bonding interactions, with three of these being three-center interactions. The exocyclic N atom is an electron receiving center, which is consistent with features of imino resonance evidenced by bond lengths and angles. Results from solid state 13C and 15N CP–MAS NMR spectroscopy are in good agreement with the X-ray structure. Density functional theory calculations allowed for the assignment of the carbon peaks to the independent crystallographic sites.
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