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Journal Abstract Search

532 related items for PubMed ID: 10067790

  • 1. Analysis of circadian blood pressure rhythm and target-organ damage in stroke-prone spontaneously hypertensive rats.
    Shimamura T, Nakajima M, Iwasaki T, Hayasaki Y, Yonetani Y, Iwaki K.
    J Hypertens; 1999 Feb; 17(2):211-20. PubMed ID: 10067790
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  • 3. Relationship between cardiovascular hypertrophy and cardiac baroreflex function in spontaneously hypertensive and stroke-prone rats.
    Minami N, Head GA.
    J Hypertens; 1993 May; 11(5):523-33. PubMed ID: 8390524
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  • 4. Effects of losartan and benazepril on abnormal circadian blood pressure rhythm and target organ damage in SHRSP.
    Shimamura T, Iwasaki T, Hayasaki-Kajiwara Y, Naya N, Nakajima M.
    Clin Exp Hypertens; 2002 Apr; 24(3):187-205. PubMed ID: 11883791
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  • 5. Blood pressure, renal biochemical parameters and histopathology in an original rat model of essential hypertension (SHRSP/Kpo strain).
    Kato T, Mizuguchi N, Ito A.
    Biomed Res; 2015 Apr; 36(3):169-77. PubMed ID: 26106046
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  • 7. Cosinor analysis of changes in circadian blood pressure rhythm with aging in spontaneously hypertensive rats.
    Munakata M, Imai Y, Minami N, Sasaki S, Ichijyo T, Yoshizawa M, Sekino H, Abe K, Yoshinaga K.
    Tohoku J Exp Med; 1990 May; 161(1):55-64. PubMed ID: 2396257
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  • 8. Circadian rhythms of blood pressure, heart rate, and locomotor activity in spontaneously hypertensive rats as measured with radio-telemetry.
    van den Buuse M.
    Physiol Behav; 1994 Apr; 55(4):783-7. PubMed ID: 8190809
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  • 9. Defective trophoblast invasion underlies fetal growth restriction and preeclampsia-like symptoms in the stroke-prone spontaneously hypertensive rat.
    Barrientos G, Pussetto M, Rose M, Staff AC, Blois SM, Toblli JE.
    Mol Hum Reprod; 2017 Jul 01; 23(7):509-519. PubMed ID: 28402512
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  • 10. Impaired heart function and noradrenaline release after ischaemia in stroke-prone spontaneously hypertensive rats.
    Chen H, Azuma M, Maeda K, Kajimoto N, Higashino H.
    Clin Exp Pharmacol Physiol; 2000 Sep 01; 27(9):664-70. PubMed ID: 10972529
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  • 11. Vectorcardiographical and pathological approach to the relationship between cardiac hypertrophy and coronary arteriosclerosis in spontaneously hypertensive rats (SHR).
    Ohtaka M.
    Jpn Circ J; 1980 Apr 01; 44(4):283-93. PubMed ID: 6445432
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  • 12. Dietary-sodium-induced cardiac remodeling in spontaneously hypertensive rat versus Wistar-Kyoto rat.
    Leenen FH, Yuan B.
    J Hypertens; 1998 Jun 01; 16(6):885-92. PubMed ID: 9663929
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  • 13. Angiotensin II-induced cardiomyocyte hypertrophy and cardiac fibrosis in stroke-prone spontaneously hypertensive rats.
    Ikeda Y, Nakamura T, Takano H, Kimura H, Obata JE, Takeda S, Hata A, Shido K, Mochizuki S, Yoshida Y.
    J Lab Clin Med; 2000 Apr 01; 135(4):353-9. PubMed ID: 10779052
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  • 14. Spironolactone improves structure and increases tone in the cerebral vasculature of male spontaneously hypertensive stroke-prone rats.
    Rigsby CS, Pollock DM, Dorrance AM.
    Microvasc Res; 2007 May 01; 73(3):198-205. PubMed ID: 17250855
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  • 15. Circadian blood pressure variation in transgenic hypertensive rats.
    Lemmer B, Mattes A, Böhm M, Ganten D.
    Hypertension; 1993 Jul 01; 22(1):97-101. PubMed ID: 8319999
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  • 17. Male gender and not the severity of hypertension is associated with end-organ damage in aged stroke-prone spontaneously hypertensive rats.
    Masineni SN, Chander PN, Singh GD, Powers CA, Stier CT.
    Am J Hypertens; 2005 Jun 01; 18(6):878-84. PubMed ID: 15925751
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  • 18. Platelet Ca2+ is not increased in stroke-prone spontaneously hypertensive rats: comparative study with spontaneously hypertensive rats.
    Ono N, Oshima T, Ishida M, Ishida T, Matsuura H, Kambe M, Kajiyama G.
    Hypertension; 1996 Jun 01; 27(6):1312-7. PubMed ID: 8641741
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  • 20. Biomechanical properties and chemical composition of the aorta in genetic hypertensive rats.
    Mizutani K, Ikeda K, Kawai Y, Yamori Y.
    J Hypertens; 1999 Apr 01; 17(4):481-7. PubMed ID: 10404949
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