Advertisement

Effect of intracoronary estrogen on coronary collateral blood flow velocity

      This paper is only available as a PDF. To read, Please Download here.

      Abstract

      In conclusion, we demonstrated that intracoronary estradiol decreases coronary blood flow velocity during angioplasty in men.
      To read this article in full you will need to make a payment

      Purchase one-time access:

      Academic & Personal: 24 hour online accessCorporate R&D Professionals: 24 hour online access
      One-time access price info
      • For academic or personal research use, select 'Academic and Personal'
      • For corporate R&D use, select 'Corporate R&D Professionals'

      Subscribe:

      Subscribe to American Journal of Cardiology
      Already a print subscriber? Claim online access
      Already an online subscriber? Sign in
      Institutional Access: Sign in to ScienceDirect

      References

        • Barrett-Connor E
        • Bush TL
        Estrogen and coronary heart disease in women.
        JAMA. 1991; 265: 1861-1867
        • Gilligan DM
        • Quyyumi AA
        • Cannon III, RO
        Effects of physiological levels of estrogen on coronary vasomotor function in postmenopausal women.
        Circulation. 1994; 89: 2545-2551
        • Collins P
        • Rosano GMC
        • Sarrel PM
        • Ulrich L
        • Adamopoulos S
        • Beale CM
        • McNeill JG
        • Poole-Wilson PA
        17β-estradiol attenuates acetylocholine-induced coronary arterial constriction in women but not in men with coronary heart disease.
        Circulation. 1995; 92: 24-30
        • Reis SE
        • Gloth ST
        • Blumenthal RS
        • Resar JR
        • Zacur HA
        • Gerstenbith G
        • Brinker JA
        Ethinyl estradiol acutely attenuates abnormal coronary vasomotor responses to acetylocholine in postmenopausal women.
        Circulation. 1994; 89: 52-60
        • Doucette JW
        • Corl DP
        • Payne HP
        • Flynn AE
        • Goto M
        • Nassi M
        • Segal J
        Validation of a Doppler guide wire for intravascular measurement of coronary artery flow velocity.
        Circulation. 1992; 85: 1899-1911
        • Uehata A
        • Matsugushi T
        • Bittl JA
        • Orav J
        • Meredith IT
        • Anderson TJ
        • Selwyn AP
        • Ganz P
        • Yeung AC
        Accuracy of electronic digital callipers compared with quantitative angiography in measuring coronary arterial diameter.
        Circulation. 1993; 88: 1724-1729
        • Yamada T
        • Okamoto M
        • Sueda T
        • Hashimoto M
        • Kajiyama G
        Relation between collateral flow assessed by Doppler guide wire and angiographic collateral grades.
        Am Heart J. 1995; 130: 32-36
        • Perry RA
        • Seth A
        • Hunt A
        • Smith SC
        • Westwood E
        • Woolgar N
        • Shiu MF
        Balloon occlusion during coronary angioplasty as a model of myocardial ischaemia: reproducibility of sequential inflations.
        Eur Heart J. 1989; 10: 791-800
        • Deutsch E
        • Berger M
        • Kussmaul WG
        • Hirshfeld HC
        • Herrmann HC
        • Laskey WK
        Adaptation to ischemia during percutaneous transluminal coronary angioplasty. Clinical, hemodynamic and metabolic features.
        Circulation. 1990; 82: 2044-2055
        • Pirwitz MJ
        • Lange RA
        • Willard JE
        • Landau C
        • Glanmann DB
        • Foerster EH
        • Todd E
        • Hillis LD
        Effects of intravenous ethanol on diameter of epicardial coronary arteries.
        Am J Cardiol. 1995; 75: 77-79
        • Cigarroa RG
        • Lange RA
        • Popma JJ
        • Yurow G
        • Sills MN
        • Firth BG
        • Hillis LD
        Ethanol-induced coronary vasodilation in patients with and without coronary artery disease.
        Am Heart J. 1990; 19: 254-259
        • Ofili E
        • Kern MJ
        • Tatineni S
        • Deligonul U
        • Aguirre F
        • Serota H
        • Labovitz AJ
        Detection of coronary collateral flow by a Doppler-tipped guide wire during coronary angioplasty.
        Am Heart J. 1991; 122: 221-225
        • Kern MJ
        • Donohue TJ
        • Bach RG
        • Aguirre FV
        • Caracciolo EA
        • Ofili EO
        Quantitating coronary collateral flow velocity in patients during coronary angioplasty using a Doppler guidewire.
        Am J Cardiol. 1993; 71: 34D-40D
        • Piek JJ
        • Koolen JJ
        • Metting AC
        • Rijn MV
        • Bot H
        • Hoedemaker G
        • David GK
        • Dunning AJ
        • Spaan JAE
        • Visser CE
        Spectral analysis of flow velocity in the contralateral artery during coronary angioplasty: a new method for assessing collateral flow.
        J Am Coll Cardiol. 1993; 21: 1574-1582
        • Kern MJ
        • Piek JJ
        • Aguirre E
        • Bach RG
        • Caracciolo EA
        • Donohue TJ
        Collateral flow velocity alterations in the supply and receiving coronary arteries during angioplasty for total coronary occlusion.
        Cathet Cardiovasc Diagn. 1995; 34: 167-174
        • Donohue T
        • Kern MJ
        • Bach R
        • Aguirre E
        • Wolford T
        An examination of the effects of hemodynamic and pharmacologic interventions on coronary collateral flow in a patient during cardiac catheterization.
        Cathet Cardiovasc Diagn. 1993; 28: 155-161
        • Piek JJ
        • Liebergen AM
        • Koch KT
        • Peters RJG
        • David GK
        Pharmacologie modulation of the collateral vascular resistance in acute and chronic coronary occlusion assessed by intracoronary blood flow velocity analysis (abstr).
        J Am Coll Cardiol. 1996; 27: 83A
        • Reis SE
        • Blumenthal RS
        • Gloth ST
        • Resar JR
        • Gerstenblith G
        • Brinker JA
        Basal coronary hemodynamics are influenced by estrogen dose.
        Circulation. 1994; 90: I364