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DOI: 10.1055/s-0038-1654143
Studies of Platelet Aggregation, Plasma Adenosine Diphosphate Breakdown and Blood Coagulation in Magnesium Deficient Calves and Rats[*]
Publication History
Publication Date:
27 June 2018 (online)
Summary
ADP-induced platelet aggregation and the breakdown of ADP in platelet-poor plasma of normal and magnesium deficient calves and rats have been studied. There was no statistically significant difference in ADP-induced platelet aggregation between the treated and untreated groups of animals. There was a significant difference in the ADP breakdown in platelet poor plasma of magnesium deficient rats as compared to the untreated animals. The platelet count of the magnesium deficient calves and in the citrated platelet-rich plasma of the magnesium deficient rats was not different from the normal. The thrombin clotting and partial thromboplastin times were significantly shortened in the magnesium deficient calves, but the prothrombin time was not affected. These findings suggest that pathological alterations in the serum magnesium levels that are still compatible with life do not influence adenosine diphosphate-induced platelet aggregation but do affect the breakdown of adenosine diphosphate in the plasma of rats. Just as magnesium administration may produce an anticoagulant effect, so may magnesium depletion produce a procoagulant effect in the blood of animals rendered magnesium deficient by diet. The clinical implications of this are discussed.
* This study was supported by NIH Grant No 5RO1 HE 10144.
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References
- 1 Greville G. E, Lehmann H. Cation Antagonism in Blood Coagulation. J. Physiol 103: 175 1944;
- 2 Schnitzler B. Thromboseprophylaxe mit Magnesium. Münch, med. Wschr 99: 81 1957;
- 3 Anatoli H. B, Huntsmann R. G, Lehmann H, Hayward G. H, Weitzman D. The Effect of Magnesium on Blood Coagulation. Lancet I: 814 1959;
- 4 Malkiel-Shapiro B, Bersohn I, Temer P. E. Parenteral Magnesium Sulphate Therapy in Coronary Heart Disease. Preliminary Report on its Clinical and Laboratory Aspects. Med. Proc 2: 455 1956;
- 5 Allanby K. D, Huntsmann R. G, Sacker L. S. Thrombotic Microangiopathy. Recovery of a Case after Heparin and Magnesium Therapy. Lancet I: 237 1966;
- 6 Szelenyi I, Rigo T, Ahmed B. O, Sos J. The Role of Magnesium in Blood Coagulation. Thrombos. Diathes. haemorrh. (Stuttg.) 18: 626 1967;
- 7 Born G. V. R. Quantitative Investigations into the Aggregation of Blood Platelets. J. Physiol. (Lond.) 162: 67p 1962;
- 8 Brecker G, Gronkite E. P. Morphology and Enumeration of Human Blood Platelets. J. appl. Physiol 3: 365 1950;
- 9 Quick A. J, Stanley-Brown M, Bancroft F. W. A Study of the Coagulation Defect in Hemophilic and in Jaundice. Amer. J. Med. Sci 190: 501 1935;
- 10 Langdell R. D, Wagner R. H, Brinkhous K. M. Effect of Antihemophilic Factor on One-Stage Clotting Tests; Presumptive Test for Hemophilia and a Simple One-Stage Antihemophilic Factor Assay Procedure. J. Lab. clin. Med 41: 637 1953;
- 11 Sharp A. A, Howie B, Biggs R, Methuen D. T. Defibrination Syndrome in Pregnancy. Value of Various Diagnostic Tests. Lancet II: 1309 1958;
- 12 Bershon I, Ollafse P. J. Correlation of Serum-magnesium and Serumcholesteral Levels in South African Bantu and European Subjects. Lancet 272: 1020 1957;
- 13 Greville G. D, Lehmann H. J. Magnesium-calcium Antagonism in Muscle. Nature (Lond.) 152: 81 1943;
- 14 Seegers W. H, Smith H. P. Factors which Influence the Activity of Purified Thrombin. Amer. J. Physiol 137: 348 1942;
- 15 Ratnoff O. D, Potts A. M. The Accelerating Effect of Calcium and Other Cations on the Conversion of Fibrinogen to Fibrin. J. clin. Invest 33: 206 1954;
- 16 Rosenfeld G, Janszky B. The Accelerating Effect of Ca on the Fibrinogen-Fibrin Transformation. Science 116: 36 1952;
- 17 Lorand L. The Clotting of Fibrinogen and a New Class of Blood Coagulation Inhibitors. Thrombos. Diathes. haemorrh. (Stuttg.), Suppl 13: 45 1963;
- 18 Post R. M, Desforges J. F. Thrombocytopenia and Alcoholism. Ann. intern. Med 68: 1230 1968;
- 19 Born G. V. R, Cross M. J. Effects of Inorganic Ions and of Plasma Proteins on the Aggregation of Blood Platelets by Adenosine Diphosphate. J. Physiol 170: 397 1966;
- 20 Hovig T. The Effect of Calcium and Magnesium on Rabbit Blood Platelet Aggregation in vitro. Thrombos. Diathes. haemorrh. (Stuttg.) 12: 179 1964;
- 21 Haslam R. J. Role of adenosine diphosphate in the aggregation of human blood platelets by thrombin and by fatty acids. Nature (Lond.) 202: 765 1964;
- 22 Ardlie N. G. ADP-induced Platelet Aggregation Without a Plasma Co-factor. Fed. Proc 27: 321 1968;
- 23 Shermer R. W, Mason R. G, Wagner R. H, Brinkhous K. M. Studies on Thrombin-induced platelet agglutination. J. exp. Med 114: 905 1961;
- 24 Bolton C. H, Emmons P. R. Adenosine Diphosphate Breakdown by the Plasma of Different Species and by Human Whole Blood and White Cells. Thrombos. Diathes. haemorrh 18: 779 1967;
- 25 Sinakos T, Caen J. P. Platelet Aggregation in Mammalians (Human, Rat, Rabbit, Guinea-pig, Horse, Dog.) A Comparative Study. Thrombos. Diathes. haemorrh. (Stuttg.) 17: 99 1967;
- 26 Holmsen H, Stormorken H. Kinetic Studies on the Breakdown of Adenosine Diphosphate in Human Plasma. Scand. J. clin. Lab. Invest. (Suppl. 84) 17: 138 1965;
- 27 Bosshardt D. K, Howe E. E. The Effect of Intravenously injected Adenosine Diphosphate in Rat and Rabbit. Thrombos. Diathes haemorrh. (Stuttg.) 21: 42 1969;