Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Typical chest pain with ECG changes
Document related concepts
no text concepts found
Transcript
Typical chest pain with ECG changes F. Mut, C. Bentancourt, M. Beretta Nuclear Medicine Service, Asociacion Española Montevideo, Uruguay Clinical history • Male 58 y.o. • Diabetic, smoker, hypertension (poorly controlled). • Admitted for episode of chest pain 72 hs ago (resolved). • ECG: Inferior Q waves, dynamic changes lateral wall. • Echo: Mild LVH, inferior hypokinesis, LVEF ~40%. • Myocardial perfusion with dipyridamole requested. Myocardial perfusion study The study demonstrates: a) Inferior wall infarction. b) Inferior wall ischemia. c) Apical ischemia + infarction. d) Apical infarction + inferior & antero-apical ischemia. The study demonstrates: a) Inferior wall infarction. b) Inferior wall ischemia. c) Apical ischemia + infarction. d) Apical infarction + inferior & antero-apical ischemia. • There are reversible inferior and antero-apical perfusion defects, characteristic of ischemia affecting the RCA and the LAD territories. • There is a small apical fixed defect indicating possible MI. Quantitative results Rest gated not performed The quantitative results are: a) Consistent with the visual interpretation. b) Not consistent with the visual interpretation. c) Not reliable because of technical artifacts. d) Necessary for patient management. The quantitative results are: a) Consistent with the visual interpretation. b) Not consistent with the visual interpretation. c) Not reliable because of technical artifacts. d) Necessary for patient management. • Perfusion scores indicate a fixed apical defect + reversible defects involving antero-apical, infero-apical and mid-inferior segments. • The extent of the defects and total perfusion deficit (TPD) values are also consistent with the visual estimation. The LV function parameters indicate: a) Possible myocardial scarring/fibrosis. b) Possible myocardial stunning. c) Possible hibernated myocardium. d) Possible dilated cardiomyopathy. The LV function parameters indicate: a) Possible myocardial scarring/fibrosis. b) Possible myocardial stunning. c) Possible hibernated myocardium. d) Possible dilated cardiomyopathy. • There is a drop in post-stress LVEF (67% rest vs. 52% post-stress) and development of regional hypokinesis in wall motion analysis (WMA). • Both are typical findings of post-ischemic regional ventricular dysfunction or myocardial stunning. Coronary angiography LCA - RAO LCA - LAO RCA Coronary angiography demonstrates: a) Normal coronary arteries. b) One vessel disease. c) Two vessel disease. d) Three vessel disease. Coronary angiography demonstrates: a) Normal coronary arteries. b) One vessel disease. c) Two vessel disease. d) Three vessel disease. • LAD: severe stenosis (90%), middle third. • Cx: severe stenosis (90%), middle third. • RCA: dominant, occluded, middle third (distal circulation through collateral branches). Teaching points • In patients with no known coronary artery disease, MPS adds prognostic information and risk-stratifies patients beyond clinical data. • Semiquantitative information obtained by MPS provides important measurements of disease extent and severity, however visual analysis is able to depict high-risk patients in most cases. • In patients with 3-vessel disease, perfusion defects can be restricted to only one or two arterial territories, because due to the fundamentals on which nuclear images are based, the region with relative ‘best perfusion’ can appear ‘normal’ (like the lateral wall in this particular case, despite a lesion in the Cx artery). Bibliography • Hachamovitch R, Berman DS, Shaw LJ, et al. Incremental prognostic value of myocardial perfusion single photon emission computed tomography for the prediction of cardiac death: differential stratification for risk of cardiac death and myocardial infarction. Circulation 1998; 97:53543. • Loong C, Anagnostopoulos C. Diagnosis of coronary artery disease by radionuclide myocardial perfusion imaging. Heart 2004; 90(Suppl 5):v2– v9. • Schuijf JD, Bax JJ, van der Wall EE. Anatomical and functional imaging techniques: basically similar or fundamentally different? Neth Heart J 2007; 15:43–44. • Hida S, Chikamori T, Tanaka H, et al. Postischemic myocardial stunning is superior to transient ischemic dilation for detecting multivessel coronary artery disease. Circ J 2012; 76:430-8.
