52,316 research outputs found

    Reduction of blood serum cholesterol

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    By feeding a human subject as the sole source of sustenance a defined diet wherein the carbohydrate consists substantially entirely of glucose, maltose or a polysaccharide of glucose, the blood serum cholesterol level of the human subject is substantially reduced. If 25 percent of the carbohydrate is subsequently supplied in the form of sucrose, an immediate increase from the reduced level is observed. The remainder of the defined diet normally includes a source of amino acids, such as protein or a protein hydrolysate, vitamins, minerals and a source of essential fatty acid

    A colorimetric CMOS-based platform for rapid total serum cholesterol quantification

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    Elevated cholesterol levels are associated with a greater risk of developing cardiovascular disease and other illnesses, making it a prime candidate for detection on a disposable biosensor for rapid point of care diagnostics. One of the methods to quantify cholesterol levels in human blood serum uses an optically mediated enzyme assay and a bench top spectrophotometer. The bulkiness and power hungry nature of the equipment limits its usage to laboratories. Here, we present a new disposable sensing platform that is based on a complementary metal oxide semiconductor process for total cholesterol quantification in pure blood serum. The platform that we implemented comprises readily mass-manufacturable components that exploit colorimetric changes of cholesterol oxidase and cholesterol esterase reactions. We have shown that our quantification results are comparable to that obtained by a bench top spectrophotometer. Using the implemented device, we have measured cholesterol concentration in human blood serum as low as 29 μM with a limit of detection at 13 μM, which is approximately 400 times lower than average physiological range, implying that our device also has the potential to be used for applications that require greater sensitivity

    Binding of Oxovanadium(IV) Complexes to Blood Serum Albumins

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    In this work the binding of VIVO2+ and VIVO-complexes to serum albumins {human serum albumin (HSA), bovine serum albumin (BSA) and porcine serum albumin (PSA)} are studied using circular dichroism (CD), electron paramagnetic resonance (EPR) and visible absorption spectroscopy. The results confirm previous findings that VIVO2+ occupies at least two types of binding sites on albumin: ‘the strong vanadium binding site’ (designated by VBS1) and ‘the weak vanadium binding sites’ (designated by VBS2). VBS1 binds 1 mol equivalent of VIVO2+. On the other hand VBS2 correspond to binding of several mol equivalents of VIVO, and studies done with PSA in the presence of excess ZnII ions indicate that VSB2 corresponds to two distinct types of sites. The hyperfine coupling constant Az for VIVO2+ binding at VBS2 on HSA and BSA are all very similar (~168 × 10-4 cm-1) but differ slightly on PSA (~166 × 10-4 cm-1) due to differences in the binding sets. When (VIVO)-HSA systems are titrated with maltol ternary species of (maltol)m(VIVO)mHSA and (maltol)2m(VIVO)mHSA stoichiometry form which are clearly distinguishable from the binary (VIVO)-HSA system by the type and intensity of the CD spectra recorded. Changes are also observable in the intensity of the X-band EPR spectra, but not much in the hyperfine coupling constants Az, which are all in the range 166-167 × 10-4 cm-1. The results further demonstrate that the presence of maltol may enhance the binding of VIVO to albumin

    Rapid and precise analysis for calcium in blood serum

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    Differential absorption spectrophotometric technique, using murexide, gives a highly precise analysis of calcium in volumes of blood serum as small as 0.01 ml. The method of additions and proper timing allows compensation to be made for fading, variation in type of serum or plasma, and aging of the specimen

    Speciation of Manganese in blood serum- analytical methods developmentand optimization for the extraction, pre-concentration and determination

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    Master of Science - ScienceThe analytical methods for speciation of manganese in three different types of matrices (water, milk and blood serum) was studied. Supported liquid membrane (SLM) extraction was optimized and successfully used for the extraction and preconcentration on Mn(II) from water, milk and blood serum. The extractant used was 15% (v/v) DEHPA with an organic membrane modifier, 10% (v/v) TOPO. All determinations of Mn(II) were carried out using Adsorptive Stripping Voltammetry. A SLM membrane probe was developed and used for the extraction of Mn(II) from smaller water, milk and blood serum samples. Membrane probe depth was optimized: probe depth - 2mm below donor solution. The membrane probe yielded higher extraction efficiencies compared to the flat spiral disk SLM unit. The Adsorptive Stripping Voltammetry method used for the determination of Mn(II) in water was optimized and used in other applications (determination of Mn(II) in aged and fractionated blood serum). The optimum conditions obtained: pH = 7.5-8.0, deposition potential = -(1.9V-2.0V), deposition time = 45-65s, equilibration time = 5s, stirring speed = 2000rpm, and no gelatin addition. The AdSV optimized parameters were then used for the analysis of Mn(II) in aged whole and fractionated blood serum. Size exclusion chromatography was used to obtain the blood serum fractions. It was determined that with aging, the concentration and thus extraction efficiency of free Mn(II) in blood serum matrix decreases. The spiked blood serum fractions were extracted and Mn(II) was determined with adequate reproducibility

    Data representing two separate LC-MS methods for detection and quantification of water-soluble and fat-soluble vitamins in tears and blood serum

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    Tears serve as a viable diagnostic fluid with advantages including less invasive sample to collect and less complex to prepare for analysis. Several water-soluble and fat-soluble vitamins were detected and quantified in human tears and compared with blood serum levels. Samples from 15 family pairs, each pair consisting of a four-month-old infant and one parent were analyzed; vitamin concentrations were compared between tears and blood serum for individual subjects, between infants and parents, and against self-reported dietary intakes. Water-soluble vitamins B1, B2, B3 (nicotinamide), B5, B9 and fat-soluble vitamin E (α-tocopherol) were routinely detected in tears and blood serum while fat-soluble vitamin A (retinol) was detected only in blood serum. Water-soluble vitamin concentrations measured in tears and blood serum of single subjects were comparable, while higher concentrations were measured in infants compared to their parents. Fat-soluble vitamin E concentrations were lower in tears than blood serum with no significant difference between infants and parents. Serum vitamin A concentrations were higher in parents than infants. Population trends were compiled and quantified using a cross correlation factor. Strong positive correlations were found between tear and blood serum concentrations of vitamin E from infants and parents and vitamin B3 concentrations from parents, while slight positive correlations were detected for infants B3 and parents B1 and B2 concentrations. Correlations between infants and parents were found for the concentrations of B1, B2, B3, and E in tears, and the concentrations of B2, A, and E in blood serum. Stronger vitamin concentration correlations were found between infants and parents for the breast-fed infants, while no significant difference was observed between breast-fed and bottle-fed infants. This work is the first to demonstrate simultaneous vitamin A, B, and E detection and to quantify correlations between vitamin concentrations in tears and blood serum. Our results suggest that tears are a viable biofluid to monitor nutritional health because they sufficiently mirror blood serum data and may enhance the speed of deficiency diagnoses

    Protein concentration of synovial fluid in chronic rheumatoid arthritis. Estimation of protein in the synovial fluid of chronic rheumatoid arthritis by gel filtration and paper electrophoresis

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    For the purpose to reveal the characteris6cs of the synovial fluid of the chronic rheumatoid arthritis the proteins of the synovial fluid and blood serum have been analysed by employing the methods of electrophoresis, gel filtration on Sephadex G-200 column and ultracentrifugation. Waaler-Rose test and latex fixation test have also been made on each protein fraction, and the following results were obtained. 1) The total protein level of synovial fluid, which is 3/5 of that of the serum, is slightly higher than that of control. 2) Fractionation of the synovial proteins by electrophoresis revealed nearly the same protein contents in each fraction in percentage as that of comparable fraction of the serum protein, with a slight increase in &#947;-globulin fraction. 3) The fractionation by Sephadex column G-200 give three peaks both in serum and synovial fluid, 19 S, 7Sand 4S. 4) 19S fraction of the synovial fluid, which is mainly of &#947;-globulin, showed a higher level than that of the synovial fluid from the controls. 5) Rheumatoid tests gave positive reaction in the 1st peak containing 19S &#947;-globulin from the synovial fluid and blood serum.</p
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