Top Abstract Purchase Related
Home
>
Node
>
Subnode

Negative inotropic effects of furosemide in the isolated rabbit heart: a prostaglandin-mediated event

Feldman, A.M.; Levine, M.A.; Gerstenblith, G.; Kaufman, K.D.; Baughman, K.L.

Journal of Cardiovascular Pharmacology 9(4): 493-499

1987

ISSN/ISBN: 0160-2446
PMID: 2438513
Document Number: 303592
Furosemide is an effective diuretic that initiates a rapid diuresis and peripheral vasodilatation through renal adenylate cyclase inhibition and prostaglandin synthesis. Recently, it has been shown to be associated with activation of the neurohumoral vasoconstrictor mechanism and a further compromise of left ventricular function in patients with heart failure. The present study was performed to investigate the direct effects of furosemide on myocardial performance in the isolated perfused rabbit heart. Furosemide (10(-3) M) caused a significant decrease in developed pressure as well as a similar fall in coronary perfusion pressure. Furosemide also decreased myocardial contractility when the coronary perfusion pressure was kept constant. The change in developed pressure but not the decrease in coronary perfusion pressure could be blocked by treatment with indomethacin. Furosemide did not antagonize rabbit cardiac membrane adenylate cyclase. Therefore, furosemide has a direct inhibitory effect on cardiac contractility that is related to prostaglandin synthesis.

Document emailed within 1 workday
Secure & encrypted payments

Ikenouchi, H.; Kangawa, K.; Matsuo, H.; Hirata, Y. 1997: Negative inotropic effect of adrenomedullin in isolated adult rabbit cardiac ventricular myocytes Circulation 95(9): 2318-2324
Krösl, P.E.; Khakpour, Z.; Thurnher, M.; Hallström, S.W.; Schima, H.M. 1989: Isolated rabbit heart preparation to evaluate the inotropic effect of endotoxin Progress in Clinical and Biological Research 308: 225-230
Nilius, B.; Mest, H.J. 1979: The influence of prostaglandins E2 and F2 alpha on electrotropic and inotropic vagal effects on the isolated rabbit atrium Acta Biologica et Medica Germanica 38(4): 627-633
Brasch, H. 1983: Negative inotropic effects of Na-salicylate and three congeners on the guinea-pig Langendorff heart Archives Internationales de Pharmacodynamie et de Therapie 262(2): 242-249
Shaffer, J.E.; Malik, K.U. 1982: Enhancement of prostaglandin output during activation of beta-1 adrenoceptors in the isolated rabbit heart Journal of Pharmacology and Experimental Therapeutics 223(3): 729-735
Koester, G.; Nilius, B. 1980: Potentiation and staircase phenomena in rabbit heart atrium and their connection with inotropic vague effects Acta Biologica et Medica Germanica 39(5): 513-523
Lefer, A.M.; Roth, D.M. 1985: Absence of direct inotropic effects of peptide leukotrienes in isolated mammalian heart preparations Progress in Clinical and Biological Research 199: 59-70
Heffner, J.E.; Baron, D.A. 1990: Effects of prostaglandin E1 on platelet attenuation of oxidant-induced edema in isolated rabbit lungs Journal of Laboratory and Clinical Medicine 116(6): 797-804
Furukawa, Y.; Akahane, K.; Ogiwara, Y.; Haniuda, M.; Chiba, S. 1989: Positive chronotropic and inotropic effects of pimobendan (UD-CG 115 BS) in isolated, cross-circulated canine heart preparations Archives Internationales de Pharmacodynamie et de Therapie 300: 159-173
Aiken, J.W. 1974: Effects of prostaglandin synthesis inhibitors on angiotensin tachyphylaxis in the isolated coeliac and mesenteric arteries of the rabbit Polish Journal of Pharmacology and Pharmacy 26(1): 217-227
Jaiswal, N.; Lambrecht, G.; Mutschler, E.; Malik, K.U. 1988: Contribution of M2 alpha and M2 beta muscarinic receptors to the action of cholinergic stimuli on prostaglandin synthesis and mechanical function in the isolated rabbit heart Journal of Pharmacology and Experimental Therapeutics 247(1): 104-113
Cano, C.; Slavik, K.J.; Malik, K.U. 1995: Loss of adenosine-induced negative inotropic effect in hyperexcited rabbit hearts: relationship to PKC American Journal of Physiology 268(3 Pt 2): H1037-H1044
Cinca, J.; Carreño, A.; Mont, L.; Blanch, P.; Soler-Soler, J. 1996: Neurally mediated negative inotropic effect impairs myocardial function during cholinergic coronary vasoconstriction in pigs Circulation 94(5): 1101-1108
Zehl, U.; Ritter, C.; Förster, W. 1976: Influence of prostaglandins upon adenosine release and of adenosine upon prostaglandin release in the isolated rabbit heart Acta Biologica et Medica Germanica 35(11): K77-K82
De Keulenaer, G.W.; Andries, L.J.; Sys, S.U.; Brutsaert, D.L. 1995: Endothelin-mediated positive inotropic effect induced by reactive oxygen species in isolated cardiac muscle Circulation Research 76(5): 878-884
Vornovitskiĭ, E.G.; Len'kova, N.A.; Vasilets, L.A.; Khodorov, B.I. 1982: Positive inotropic action of plasma on the papillary muscle of rabbit heart Biulleten' Eksperimental'noi Biologii i Meditsiny 94(10): 10-13
Kim, R.B.; McCauley, F.A.; Wilson, T.W. 1986: Effects of indomethacin on furosemide induced renal prostaglandin synthesis and action in man Clinical and Investigative Medicine. Medecine Clinique et Experimentale 9(3): 192-197
Effendi, H.; Versprille, A.; Wise, M.E. 1975: The negative inotropic effect of secobarbital on the heart of reserpinised newborn and adult guinea pigs Archives Internationales de Pharmacodynamie et de Therapie 215(2): 276-282
Komai, H.; Rusy, B.F. 1982: Effect of halothane on rested-state and potentiated-state contractions in rabbit papillary muscle: relationship to negative inotropic action Anesthesia and Analgesia 61(5): 403-409
Pfisterer, M. 1991: Negative inotropic effects of antiarrhythmic drugs: a clinical point of view Journal of Cardiovascular Pharmacology 17(Suppl 6): S44-S47