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Clinical and Experimental Hypertension. Part A: Theory and Practice Volume 9, 1987 - Issue 11
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Original Article

Effect of Antihypertensive Therapy on a Vascular Change in Genetically Hypertensive Rats

Cathy A. Bruner Department of Physiology, The University of Michigan Medical School, Ann Arbor, Michigan, 48109-0622, USA
&
R. Clinton Webb Department of Physiology, The University of Michigan Medical School, Ann Arbor, Michigan, 48109-0622, USA
Pages 1745-1762 | Published online: 03 Jul 2009

References

  • Bohr D. F., Webb R. C. Vascular smooth muscle function and its changes in hypertension. Am. J. Med. 1984; 77(Suppl 4A)3–16
  • Folkow B. Physiological aspects of primary hypertension. Physiol. Rev. 1982; 62: 347–504
  • Triggle C. R., Laher I. A review of changes in vascular smooth muscle functions in hypertension: Isolated tissue versus in vivo studies. Can. J. Physiol. Pharmacol. 1985; 63: 355–365
  • Bruner C. A., Myers J. H., Sing C. F., Jokelainen P. T., Webb R. C. Genetic association of hypertension and vascular changes in stroke-prone spontaneously hypertensive rats. Hypertension 1986; 8: 904–910
  • Lamb F. S., Myers J. H., Hamlin M. N., Webb R. C. Mechanism of oscillatory contractile activity in tail arteries from spontaneously hypertensive-stroke prone rats. Hypertension 1985; 7(Suppl I)I25–I30
  • Myers J. H., Lamb F. S., Webb R. C. Norepinephrine-induced phasic activity in tail arteries from genetically hypertensive rats. Am. J. Physiol. 1985; 248: H419–H423
  • Colantuoni A., Bertuglia S., Intagliatta M. Quantitation of rhythmic diameter changes in arterial microcircu-culation. Am. J. Physiol. 1984; 246: H508–H517
  • Funk W., Endrich B., Messmer K., Intagliatta M. Spontaneous arteriolar vasomotion as a determinant of peripheral vascular resistance. Int. J. Microcirc.: Clin. Exp. 1983; 2: 11–25
  • Hollenberg N. K., Sandor T. Vasomotion of renal blood flow in essential hypertension. Oscillations in xenon transit. Hypertension 1984; 6: 579–585
  • Meininger G. A., Lubrano V. M., Granger H. J. Hemodynamic and microvascular responses in the hindquarters during the development of renal hypertension in rats. Evidence for the involvement of an autoregulatory component. Circ. Res. 1984; 55: 609–622
  • Hamilton T. C. Influence of antihypertensive drug treatment on vascular reactivity in spontaneously hypertensive rats. Br. J. Pharmacol. 1984; 54: 429–436
  • Pang C. C.Y, Sutter M. C. Hydralazine prevents changes in the contractile response of aortic but not portal vein strips in hypertensive rats. Blood Vessels 1980; 17: 293–301
  • Jespersen L. T., Nyborg N. C.B., Lederballe Pedersen O., Mikkelsen E. O., Mulvany M. J. Cardiac mass and peripheral vascular structure in hydralazine-treated spontaneously hypertensive rats. Hypertension 1985; 7: 734–741
  • Nyborg N. C.B., Mulvany M. J. Lack of effect of anti-hypertensive treatment with felodipine on cardiovascular structure of young spontaneously hypertensive rats. Cardiovasc. Res. 1985; 19: 528–536
  • Goldberg M. T., Triggle C. R. Elevated vascular reactivity in the timolol-treated spontaneously hypertensive rat. Can. J. Physiol. Pharmacol. 1978; 56: 1072–1075
  • Webb R. C., Vanhoutte P. M., Bohr D. F. Adrenergic neurotransmission in vascular smooth muscle from spontaneously hypertensive rats. Hypertension 1981; 3: 93–103
  • Lee R. M.K.W., Smeda J. S. Primary versus secondary structural changes of the blood vessels in hypertension. Can. J. Physiol. Pharmacol. 1985; 63: 392–401
  • Freis E. D., Ragan D., Pillsbury H., Mathews M. Alteration of the course of hypertension in the spontaneously hypertensive rat. Circ. Res. 1972; 31: 1–7

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