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Journal Abstract Search

221 related items for PubMed ID: 12110018

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  • 4. Role of chloride channels in afferent arteriolar constriction.
    Takenaka T, Kanno Y, Kitamura Y, Hayashi K, Suzuki H, Saruta T.
    Kidney Int; 1996 Sep; 50(3):864-72. PubMed ID: 8872961
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  • 6. Vessel- and vasoconstrictor-dependent role of rho/rho-kinase in renal microvascular tone.
    Nakamura A, Hayashi K, Ozawa Y, Fujiwara K, Okubo K, Kanda T, Wakino S, Saruta T.
    J Vasc Res; 2003 Sep; 40(3):244-51. PubMed ID: 12902637
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  • 8. Relative contributions of Ca2+ mobilization and influx in renal arteriolar contractile responses to arginine vasopressin.
    Fallet RW, Ikenaga H, Bast JP, Carmines PK.
    Am J Physiol Renal Physiol; 2005 Mar; 288(3):F545-51. PubMed ID: 15536171
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  • 9. Cellular mechanism for mibefradil-induced vasodilation of renal microcirculation: studies in the isolated perfused hydronephrotic kidney.
    Hayashi K, Ozawa Y, Wakino S, Kanda T, Homma K, Takamatsu I, Tatematsu S, Saruta T.
    J Cardiovasc Pharmacol; 2003 Dec; 42(6):697-702. PubMed ID: 14639089
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  • 10. Cellular mechanisms mediating rat renal microvascular constriction by angiotensin II.
    Takenaka T, Suzuki H, Fujiwara K, Kanno Y, Ohno Y, Hayashi K, Nagahama T, Saruta T.
    J Clin Invest; 1997 Oct 15; 100(8):2107-14. PubMed ID: 9329977
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  • 11. Disparate effects of calcium antagonists on renal microcirculation.
    Hayashi K, Nagahama T, Oka K, Epstein M, Saruta T.
    Hypertens Res; 1996 Mar 15; 19(1):31-6. PubMed ID: 8829821
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  • 12. Disparate effects of Ca channel blockade on afferent and efferent arteriolar responses to ANG II.
    Carmines PK, Navar LG.
    Am J Physiol; 1989 Jun 15; 256(6 Pt 2):F1015-20. PubMed ID: 2544103
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