References
- Yamori Y. Physiopathology of the various strains of spontaneously hypertensive rats. Hypertension, 2nd edn, J Genest, O Kuchel, P Harriet, M Cantin. McGraw-Hill, New York 1983; 556–81
- Wessels F, Jungc-Hülsing G, Losse H. Unter-suchungen zur Natrium Pcrmeabilitat dcr Ery-throzyten bei Hypertonikern untl Normotonikcrn mit familiiirer Hochdruckbelastung. Z Kreislauf Forschung 1967; 56: 374–80
- Mahoney J R, Etkin N L, McSwigan J D, Eaton J W. Assessment of red cell sodium transport in essential hypertension. Blood 1982; 59: 439–42
- Henningsen N C. Metabolic aspects in genetic hypertension: A study in younger relatives of families with a heavy accumulation of essential hypertension. 1980, Thesis MalmO
- Julius S, Hansson L. Classification of hypertension. Hypertension, 2nd edn, J Genest, O Kuchel, P Harriet, M Cantin. McGraw-Hill, New York 1983; 679–82
- Ljungman S, Aurell M, Hartford M, Wikstrand I, Wilhelmsen L, Berglund G. Sodium excretion and blood pressure. Hypertension 1981; 3: 318–26
- Keys A, Fidanza F, Karvonen M J, Kitnura N, Taylor H L. Indices of relative weight and obesity. J Chron Dis 1972; 25: 329–43
- Nie N H, Hull C H, Jenkins J, Steinbrenner G. K, Bent D H. Statistical package for the social sciences. McGraw-Hill, New York 1975
- Watt G. Design and interpretation of studies comparing individuals with and without a family history of high blood pressure. J Hypertension 1986; 4: 1–7
- Pedersen K E, Nielsen J R, Kjaer K, Klitgaard N A, Johansen T. 22Na+ influx in lymphocytes from normotensive subjects with and without a family history of essential hypertension. J Hypertension 1983; 1(Suppl. 2)132–4
- Pedersen K E, Nielsen J R, Klitgaard N, Johansen A. T. Sodiumcontent and sodium-efflux of mononuclear leucocytes from young subjects at increased risk of developing essential hypertension. Am J Hypertension 1989, in press
- Shalev O, Eaton J, Ben W., Ishay D. Erythrocyte 22Na+ -influx in hypertension. Clin Exper-Theory and Practice 1984; A6(7)1367–77
- Postnov Y, Orlov S N, Shevchenko A, Adler A M. Altered sodium permeability, calcium binding and Na/K-ATP ase activity in the red blood cell membrane in essential hypertension. Pflugers Arch 1977; 371: 263–9
- Hilton P J, Patrick J. Sodium and potassium transport rates in normal human leucocytes in hypo-osmotal extracellular fluid. Clin Sci and molecular Medicine 1974; 46: 613–7
- Patric J, Jones N F, Bradford B, Gaunt J. Leucocyte potassium in uraemia: Comparisons with erythrocyte potassium and total exchangeable potassium. Clin Sci 1972; 43: 669–78
- Wessels F, Zumkley H. New aspects concerning the 22sodium-influx into red cells in essential hypertension. Klin Wochenschr 1985; 63(suppl III)38–41
- Behr J, Witzgall H, Lorenz R, Weber P C, Duhm J. Red cell Na+-K+ transport in various forms of human hypertension. Role of cardiovascular risk factors and plasma potassium. Klin Wochenschr 1985; 63(suppl III)63–65