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164 related items for PubMed ID: 1920134

  • 21. Pressor responsiveness to vasopressin in spontaneously hypertensive rats.
    Stepniakowski K, Lapiński M, Januszewicz A, Noszczyk B, Szczepańska-Sadowska E.
    Acta Physiol Pol; 1989; 40(2):171-82. PubMed ID: 2641416
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  • 22. Actions of L- and D-arginine and NG-monomethyl-L-arginine on the blood pressure of pithed normotensive and spontaneously hypertensive rats.
    Tabrizchi R, Triggle CR.
    Clin Exp Hypertens A; 1992; 14(3):527-46. PubMed ID: 1600643
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  • 23. Blood pressure responses to substances interfering with nitric oxide formation, cyclooxygenase and converting enzyme activities and vasopressin V1 receptors blockade in conscious spontaneously hypertensive and normotensive rats.
    Januszewicz A, Lapiński M, Styś T, Styś A, Loń S.
    Pol J Pharmacol; 1994; 46(3):153-61. PubMed ID: 8000447
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  • 24. Cerebral blood flow during inhibition of brain nitric oxide synthase activity in normal, hypertensive, and stroke-prone rats.
    Izuta M, Clavier N, Kirsch JR, Traystman RJ.
    Stroke; 1995 Jun; 26(6):1079-85. PubMed ID: 7539167
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  • 25. Involvement of nitric oxide in the blastogenic response deficiency in splenocytes from spontaneously hypertensive rats.
    Xiao J, Zeng Y, Pang PK.
    Am J Hypertens; 1993 Mar; 6(3 Pt 1):241-7. PubMed ID: 8466712
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  • 26. Vasomotor responses of canine coronary arterial rings to NG-monomethyl-L-arginine and N omega nitro L-arginine methyl ester.
    Winn MJ, Asante NK, Ku DD.
    J Pharmacol Exp Ther; 1993 Jan; 264(1):265-70. PubMed ID: 8423529
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  • 34. Two different approaches to restore renal nitric oxide and prevent hypertension in young spontaneously hypertensive rats: l-citrulline and nitrate.
    Chien SJ, Lin KM, Kuo HC, Huang CF, Lin YJ, Huang LT, Tain YL.
    Transl Res; 2014 Jan; 163(1):43-52. PubMed ID: 24113064
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  • 35. Age- and Hypertension-Related Changes in NOS/NO/sGC-Derived Vasoactive Control of Rat Thoracic Aortae.
    Berenyiova A, Balis P, Kluknavsky M, Bernatova I, Cacanyiova S, Puzserova A.
    Oxid Med Cell Longev; 2022 Jan; 2022():7742509. PubMed ID: 35308173
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  • 36. Impairment of endothelium-dependent dilatation of basilar artery during chronic hypertension.
    Mayhan WG.
    Am J Physiol; 1990 Nov; 259(5 Pt 2):H1455-62. PubMed ID: 2122745
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  • 37. Role of endothelium-derived relaxing factor in regulation of renal hemodynamic responses.
    Tolins JP, Palmer RM, Moncada S, Raij L.
    Am J Physiol; 1990 Mar; 258(3 Pt 2):H655-62. PubMed ID: 2156453
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  • 38. Spontaneously hypertensive rats exhibit higher sensitivity to ethanol-induced hypotensive effects: Role of NMDA receptors and nitric oxide in rostral ventrolateral medulla.
    Lin HH, Cheng TT, Lo H, Lin YC, Lai CC.
    Alcohol; 2018 Dec; 73():25-35. PubMed ID: 30248576
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  • 39. Contribution of vascular nitric oxide to basal blood pressure in conscious spontaneously hypertensive rats and normotensive Wistar Kyoto rats.
    Minami N, Imai Y, Hashimoto J, Abe K.
    Clin Sci (Lond); 1995 Aug; 89(2):177-82. PubMed ID: 7554759
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  • 40. Effects of L-NMMA and L-NNA on the selective ATP-induced enhancement of intratumoral blood flow.
    Natori Y, Moriguchi M, Fujiwara S, Takeshita I, Fukui M, Iwaki T, Kanaide H.
    J Cereb Blood Flow Metab; 1992 Jan; 12(1):120-7. PubMed ID: 1727133
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