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Journal Abstract Search

268 related items for PubMed ID: 26872728

  • 1. Respiratory Effects on Fontan Circulation During Rest and Exercise Using Real-Time Cardiac Magnetic Resonance Imaging.
    Wei Z, Whitehead KK, Khiabani RH, Tree M, Tang E, Paridon SM, Fogel MA, Yoganathan AP.
    Ann Thorac Surg; 2016 May; 101(5):1818-25. PubMed ID: 26872728
    [Abstract] [Full Text] [Related]

  • 2. Effects of exercise and respiration on blood flow in total cavopulmonary connection: a real-time magnetic resonance flow study.
    Hjortdal VE, Emmertsen K, Stenbøg E, Fründ T, Schmidt MR, Kromann O, Sørensen K, Pedersen EM.
    Circulation; 2003 Sep 09; 108(10):1227-31. PubMed ID: 12939218
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  • 3. Differentiation of Impaired From Preserved Hemodynamics in Patients With Fontan Circulation Using Real-time Phase-velocity Cardiovascular Magnetic Resonance.
    Körperich H, Müller K, Barth P, Gieseke J, Haas N, Schulze-Neick I, Burchert W, Kececioglu D, Laser KT.
    J Thorac Imaging; 2017 May 09; 32(3):159-168. PubMed ID: 28346330
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  • 4. Impact of respiration on stroke volumes in paediatric controls and in patients after Fontan procedure assessed by MR real-time phase-velocity mapping.
    Körperich H, Barth P, Gieseke J, Müller K, Burchert W, Esdorn H, Kececioglu D, Beerbaum P, Laser KT.
    Eur Heart J Cardiovasc Imaging; 2015 Feb 09; 16(2):198-209. PubMed ID: 25246504
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  • 5. Flow during exercise in the total cavopulmonary connection measured by magnetic resonance velocity mapping.
    Pedersen EM, Stenbøg EV, Fründ T, Houlind K, Kromann O, Sørensen KE, Emmertsen K, Hjortdal VE.
    Heart; 2002 Jun 09; 87(6):554-8. PubMed ID: 12010939
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  • 6. The lower limit of the pulmonary artery index for the extracardiac Fontan circulation.
    Itatani K, Miyaji K, Nakahata Y, Ohara K, Takamoto S, Ishii M.
    J Thorac Cardiovasc Surg; 2011 Jul 09; 142(1):127-35. PubMed ID: 21277599
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  • 8. Caval blood flow during supine exercise in normal and Fontan patients.
    Hjortdal VE, Christensen TD, Larsen SH, Emmertsen K, Pedersen EM.
    Ann Thorac Surg; 2008 Feb 09; 85(2):599-603. PubMed ID: 18222273
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  • 9. Aortopulmonary collateral flow quantification by MR at rest and during continuous submaximal exercise in patients with total cavopulmonary connection.
    Mkrtchyan N, Frank Y, Steinlechner E, Calavrezos L, Meierhofer C, Hager A, Martinoff S, Ewert P, Stern H.
    J Magn Reson Imaging; 2018 Jun 09; 47(6):1509-1516. PubMed ID: 29105891
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  • 12. Mechanical support of total cavopulmonary connection with an axial flow pump.
    Riemer RK, Amir G, Reichenbach SH, Reinhartz O.
    J Thorac Cardiovasc Surg; 2005 Aug 09; 130(2):351-4. PubMed ID: 16077398
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  • 14. Effect of Inhaled Nitric Oxide on Blood Flow Dynamics in Patients After the Fontan Procedure Using Cardiovascular Magnetic Resonance Flow Measurements.
    Latus H, Gerstner B, Kerst G, Moysich A, Gummel K, Apitz C, Bauer J, Schranz D.
    Pediatr Cardiol; 2016 Mar 09; 37(3):504-11. PubMed ID: 26547436
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  • 17. Inferior vena cava revisited - Real-time flow MRI of respiratory maneuvers.
    Joseph AA, Voit D, Frahm J.
    NMR Biomed; 2020 Apr 09; 33(4):e4232. PubMed ID: 31913551
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  • 19. Impact of different respiratory monitoring techniques on respiration-dependent stroke-volume measurements assessed by real-time magnetic resonance imaging.
    Becker H, Wattenberg M, Barth P, Laser KT, Burchert W, Körperich H.
    Z Med Phys; 2019 Dec 09; 29(4):349-358. PubMed ID: 31253380
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  • 20. Impact of Flow Differentials According to Cardiac and Respiratory Cycles on Three Types of Fontan Operation.
    Ha KS, Choi JY, Jung JW, Kim NK.
    Pediatr Cardiol; 2018 Aug 09; 39(6):1144-1155. PubMed ID: 29671004
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