Blunt Myocardial Injury

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      References

        • Shorr R.M.
        • Crittenden M.
        • Indeck M.
        • et al.
        Blunt thoracic trauma: analysis of 515 patients.
        Ann Surg. 1987; 206: 200-205
        • Dubrow T.J.
        • Mihalka J.
        • Eisenhauer D.M.
        • et al.
        Myocardial contusion in the stable patient: what level of care is appropriate?.
        Surgery. 1989; 106: 267-274
        • Gunnar W.P.
        • Martin M.
        • Smith R.F.
        • et al.
        The utility of cardiac evaluation in the hemodynamically stable patient with suspected myocardial contusion.
        Am Surg. 1991; 57: 373-377
        • Torres-Mirabal P.
        • Gruenberg J.C.
        • Brown R.S.
        • et al.
        Spectrum of myocardial contusion.
        Am Surg. 1982; 48: 383-392
        • Hiatt J.R.
        • Yeatman L.A.
        • Child J.S.
        The value of echocardiography in blunt chest trauma.
        J Trauma. 1988; 28: 914-922
        • Baxter B.T.
        • Moore E.E.
        • Moore F.A.
        • et al.
        A plea for sensible management of myocardial contusion.
        Am J Surg. 1989; 158: 557-562
        • Tenzer M.L.
        The spectrum of myocardial contusion: a review.
        J Trauma. 1985; 25: 620-627
        • DeMuth W.E.
        • Baue A.E.
        • Odom J.A.
        Contusions of the heart.
        J Trauma. 1967; 7: 443-455
        • Frazee R.C.
        • Mucha P.
        • Farnell M.B.
        • et al.
        Objective evaluation of blunt cardiac trauma.
        J Trauma. 1986; 26: 510-520
        • Wisner D.H.
        • Reed W.H.
        • Riddick R.S.
        Suspected myocardial contusion: triage and indications for monitoring.
        Ann Surg. 1990; 212: 82-86
        • Zabaneh R.I.
        • Venkataramani A.
        • Zabaneh S.S.
        • et al.
        Blunt chest trauma causing isolated single papillary muscle dysfunction and mitral regurgitation.
        Chest. 1993; 104: 986-987
        • Sutherland G.R.
        • Driedger A.A.
        • Holliday R.L.
        • et al.
        Frequency of myocardial injury after blunt chest trauma as evaluated by radionuclide angiography.
        Am J Cardiol. 1983; 52: 1099-1103
        • Cachecho R.
        • Grindlinger G.A.
        • Lee V.W.
        The clinical significance of myocardial contusion.
        J Trauma. 1992; 33: 68-73
        • Fabian T.C.
        • Mangiante E.C.
        • Patterson C.R.
        • et al.
        Myocardial contusion in blunt trauma: clinical characteristics, means of diagnosis and implications for patient management.
        J Trauma. 1988; 28: 50-57
        • Healey M.A.
        • Brown R.
        • Fleiszer D.
        Blunt cardiac injury: is this diagnosis necessary?.
        J Trauma. 1990; 30: 137-146
        • Devitt J.H.
        • McLean R.F.
        • McLellan B.A.
        Perioperative cardiovascular complications associated with blunt thoracic trauma.
        Can J Anaesth. 1993; 40: 197-200
        • Snow N.
        • Richardson J.D.
        • Flint L.M.
        Myocardial contusion: implications for patients with multiple traumatic injuries.
        Surgery. 1982; 92: 744-750
        • Karalis D.G.
        • Victor M.F.
        • Davis G.A.
        • et al.
        The role of echocardiography in blunt chest trauma: a transthoracic and transesophageal echocardiographic study.
        J Trauma. 1994; 36: 53-58
        • Bodin L.
        • Rouby J-J
        • Viars P.
        Myocardial contusion in patients with blunt chest trauma as evaluated by thallium 201 myocardial scintigraphy.
        Chest. 1988; 94: 72-76
        • Godbe D.
        • Waxman K.
        • Wang F.W.
        • et al.
        Diagnosis of myocardial contusion: quantitative analysis of single photon emission computed tomographic scans.
        Arch Surg. 1992; 127: 888-892
        • Holness R.
        • Waxman K.
        Diagnosis of traumatic cardiac contusion utilizing single photon-emission computed tomography.
        Crit Care Med. 1990; 18: 1-3
        • Potkin R.T.
        • Werner J.A.
        • Trobaugh G.B.
        • et al.
        Evaluation of noninvasive tests of cardiac damage in suspected cardiac contusion.
        Circulation. 1982; 66: 627-631
        • Hossack K.F.
        • Moreno C.A.
        • Vanway C.W.
        • et al.
        Frequency of cardiac contusion in nonpenetrating chest injury.
        Am J Cardiol. 1988; 61: 391-394
        • Foil M.B.
        • Mackersie R.C.
        • Furst S.R.
        • et al.
        The asymptomatic patient with suspected myocardial contusion.
        Am J Surg. 1990; 160: 638-643
        • Mooney R.
        • Niemann J.T.
        • Bessen H.A.
        • et al.
        Conventional and right precordial ECGs, creatine kinase, and radionuclide angiography in posttraumatic ventricular dysfunction.
        Ann Emerg Med. 1987; 17: 890-894
        • McLean R.F.
        • Devitt J.H.
        • McLellan B.A.
        • et al.
        Significance of myocardial contusion following blunt chest trauma.
        J Trauma. 1992; 33: 240-243
        • Keller K.D.
        • Shatney C.H.
        Creatine phosphokinase-MB assays in patients with suspected myocardial contusion: diagnostic test or test of diagnosis?.
        J Trauma. 1988; 28: 58-63
        • Fabian T.C.
        • Cicala R.S.
        • Croce M.A.
        • et al.
        A prospective evaluation of myocardial contusion: correlation of significant arrhythmias and cardiac output with CPK-MB measurements.
        J Trauma. 1991; 31: 653-660
        • Helling T.S.
        • Duke P.
        • Beggs C.W.
        • et al.
        A prospective evaluation of 68 patients suffering blunt chest trauma for evidence of cardiac injury.
        J Trauma. 1989; 29: 961-966
        • Tsung S.H.
        Creatine kinase isoenzyme patterns in human tissue obtained at surgery.
        Clin Chem. 1976; 22: 173-175
        • Adams J.E.
        • Bodor C.S.
        • Dávila-Román V.C.
        • et al.
        Cardiac troponin I: a marker with high specificity for cardiac injury.
        Circulation. 1993; 88: 101-106
        • Schamp D.J.
        • Plotnick G.D.
        • Croteau D.
        • et al.
        Clinical significance of radionuclide angiographically determined abnormalities following acute blunt chest trauma.
        Am Heart J. 1988; 116: 500-504
        • Hendel R.C.
        • Cohn S.
        • Aurigemma G.
        • et al.
        Focal myocardial injury following blunt chest trauma: a comparison of indium-111 antimyosin scintigraphy with other noninvasive methods.
        Am Heart J. 1992; 123: 1208-1215
        • Downey J.
        • Chagrasulis R.
        • Fore D.
        • et al.
        Accumulation of technetium-99m stannous pyrophosphate in contused myocardium.
        J Nucl Med. 1977; 18: 1171-1175
        • Sturaitis M.
        • McCallum D.
        • Sutherland G.
        • et al.
        Lack of significant long-term sequelae following traumatic myocardial contusion.
        Arch Intern Med. 1986; 146: 1765-1769