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PUBMED FOR HANDHELDS

Journal Abstract Search


322 related items for PubMed ID: 19356402

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  • 3. Left ventricular strain-curve morphology to distinguish between constrictive pericarditis and restrictive cardiomyopathy.
    Yang Z, Wang H, Chang S, Cui J, Zhou L, Lv Q, He Y, Du X, Dong J, Ma C.
    ESC Heart Fail; 2021 Dec; 8(6):4863-4872. PubMed ID: 34713619
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  • 4. Diagnostic concordance of echocardiography and cardiac magnetic resonance-based tissue tracking for differentiating constrictive pericarditis from restrictive cardiomyopathy.
    Amaki M, Savino J, Ain DL, Sanz J, Pedrizzetti G, Kulkarni H, Narula J, Sengupta PP.
    Circ Cardiovasc Imaging; 2014 Sep; 7(5):819-27. PubMed ID: 25107553
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  • 5. Differentiation of constrictive pericarditis from restrictive cardiomyopathy: assessment of left ventricular diastolic velocities in longitudinal axis by Doppler tissue imaging.
    Garcia MJ, Rodriguez L, Ares M, Griffin BP, Thomas JD, Klein AL.
    J Am Coll Cardiol; 1996 Jan; 27(1):108-14. PubMed ID: 8522683
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  • 6. Incremental value of combining systolic mitral annular velocity and time difference between mitral inflow and diastolic mitral annular velocity to early diastolic annular velocity for differentiating constrictive pericarditis from restrictive cardiomyopathy.
    Choi EY, Ha JW, Kim JM, Ahn JA, Seo HS, Lee JH, Rim SJ, Chung N.
    J Am Soc Echocardiogr; 2007 Jun; 20(6):738-43. PubMed ID: 17543745
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  • 8. Regional left atrial function differentiation in patients with constrictive pericarditis and restrictive cardiomyopathy: a study using speckle tracking echocardiography.
    Liu S, Ma C, Ren W, Zhang J, Li N, Yang J, Zhang Y, Qiao W.
    Int J Cardiovasc Imaging; 2015 Dec; 31(8):1529-36. PubMed ID: 26245471
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  • 12. Differentiation between restrictive cardiomyopathy and constrictive pericarditis by early diastolic doppler myocardial velocity gradient at the posterior wall.
    Palka P, Lange A, Donnelly JE, Nihoyannopoulos P.
    Circulation; 2000 Aug 08; 102(6):655-62. PubMed ID: 10931806
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  • 13. Diagnostic superiority of a combined assessment of the systolic and early diastolic mitral annular velocities by tissue Doppler imaging for the differentiation of restrictive cardiomyopathy from constrictive pericarditis.
    Butz T, Piper C, Langer C, Wiemer M, Kottmann T, Meissner A, Plehn G, Trappe HJ, Horstkotte D, Faber L.
    Clin Res Cardiol; 2010 Apr 08; 99(4):207-15. PubMed ID: 20049465
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  • 14. Clinically suspected constrictive pericarditis: MR imaging assessment of ventricular septal motion and configuration in patients and healthy subjects.
    Giorgi B, Mollet NR, Dymarkowski S, Rademakers FE, Bogaert J.
    Radiology; 2003 Aug 08; 228(2):417-24. PubMed ID: 12802001
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  • 16. Incremental Value of the Tissue Motion of Annular Displacement Derived From Speckle-Tracking Echocardiography for Differentiating Chronic Constrictive Pericarditis From Restrictive Cardiomyopathy.
    Liu S, Ren W, Zhang J, Ma C, Yang J, Zhang Y, Guan Z.
    J Ultrasound Med; 2018 Nov 08; 37(11):2637-2645. PubMed ID: 29603321
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  • 18. Longitudinal mitral annular early diastolic velocities in differentiating effusive constrictive pericarditis from restrictive cardiomyopathy: a case with extreme and straddling variations in regional velocities.
    Mohan JC, Nath LR.
    Indian Heart J; 2007 Nov 08; 59(2):191-4. PubMed ID: 19122257
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  • 20. Cognitive Machine-Learning Algorithm for Cardiac Imaging: A Pilot Study for Differentiating Constrictive Pericarditis From Restrictive Cardiomyopathy.
    Sengupta PP, Huang YM, Bansal M, Ashrafi A, Fisher M, Shameer K, Gall W, Dudley JT.
    Circ Cardiovasc Imaging; 2016 Jun 08; 9(6):. PubMed ID: 27266599
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