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  1. No Access

    Article

    Intercorrelations among plasma high density lipoprotein, obesity and triglycerides in a normal population

    The interrelationships among fatness measures, plasma triglycerides and high density lipoproteins (HDL) were examined in 131 normal adult subjects: 38 men aged 27–46, 40 men aged 47–66, 29 women aged 27–46 and...

    M. J. Albrink, R. M. Krauss, F. T. Lindgren, J. Von Der Groeben, S. Pan in Lipids (1980)

  2. No Access

    Article

    Effects of estrogens and progestins on high density lipoproteins

    High density lipoprotein (HDL) levels are known to be higher in women than in men, and to increase with estrogen use. To assess the effects of estrogens on HDL subspecies, analytic ultracentrifuge measurements...

    R. M. Krauss, F. T. Lindgren, J. Wingerd, D. D. Bradley, S. Ramcharan in Lipids (1979)

  3. No Access

    Article

    A comparison of simplified methods for lipoprotein quantification using the analytic ultracentrifuge as a standard

    Two simplified methods for quantitative lipoprotein analysis have been calibrated and compared with each other using analytic ultracentrifugation as a standard reference procedure. The first method was the Fri...

    F. T. Lindgren, A. Silvers, R. Jutagir, L. Layshot, D. D. Bradley in Lipids (1977)

  4. No Access

    Article

    Lipid and lipoprotein measurements in a normal adult American population

    From a parent population of 774, a subpopulation of 160 normal adults ages 27–66 was randomly selected, 20 from each decade and sex. A detailed comparison was made by analytic ultracentrifugation and complete ...

    F. T. Lindgren, G. L. Adamson, L. C. Jenson, P. D. Wood in Lipids (1975)

  5. No Access

    Article

    Subfractionation of Sf 4–105, Sf 4–20 and high density lipoproteins

    Subfractionation of the total low density Sf 4–105, the low density Sf 4–20 and high density plasma (or serum) lipoproteins has been accomplished using a cumulative flotation rate procedure. Fractionation employs...

    F. T. Lindgren, L. C. Jensen, R. D. Wills, G. R. Stevens in Lipids (1972)

  6. No Access

    Article

    Graphic presentation of computer-derived schlieren lipoprotein data

    Computer produced graphs of lipoprotein spectra visually present a large amount of information and greatly facilitate error detection. Data derived from schlieren patterns in the analytical ultracentrifuge are...

    L. C. Jensen, T. H. Rich, F. T. Lindgren in Lipids (1970)

  7. No Access

    Article

    Flotation rates, molecular weights and hydrated densities of the low-density lipoproteins

    A method involving three computer programs is described for characterizing the major component of the Sf 0–12 low-density lipoprotein class by its Sf rate, hydrated density and molecular weight. All necessary inf...

    F. T. Lindgren, L. C. Jensen, R. D. Wills, N. K. Freeman in Lipids (1969)

  8. No Access

    Article

    Comparison of lipoprotein analysis by agarose gel and paper electrophoresis with analytical ultracentrifugation

    A comparison has been made of human serum lipoprotein analysis by agarose gel and paper electrophoresis with a standard method of analytical ultracentrifugation. Samples were obtained from 28 patients with var...

    R. P. Noble, F. T. Hatch, J. A. Marzimas, F. T. Lindgren, L. C. Jensen in Lipids (1969)

  9. No Access

    Article

    Ultracentrifugal isolation of serum chylomicron-containing fractions with quantitation by infrared spectrometry and NCH elemental analysis

    An ultracentrifugal method for isolating chylomicron-containing fractions from serum by flotation, using either standard Spinco swinging-bucket rotors or a specially fabricated swinging-bucket rotor, is descri...

    F. T. Hatch, N. K. Freeman, L. C. Jensen, G. R. Stevens, F. T. Lindgren in Lipids (1967)