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1 ents with pulmonary embolism and evidence of right ventricular dysfunction.
2 n were compared in patients with and without right ventricular dysfunction.
3 in most), and only 5.1% of patients had mild right ventricular dysfunction.
4 the pulmonary microvasculature culminated in right ventricular dysfunction.
5 erely elevated pulmonary blood pressures and right ventricular dysfunction.
6 olism who are hemodynamically stable without right ventricular dysfunction.
7 ive to resistive, load and may contribute to right ventricular dysfunction.
8 All had significant right ventricular dysfunction.
9 rited cardiomyopathy characterized by VT and right ventricular dysfunction.
10 ight ventricle, ventricular arrhythmias, and right ventricular dysfunction.
11 ion was 31%, and 60% had moderate or greater right ventricular dysfunction.
12 atients with respiratory failure, shock, and right ventricular dysfunction.
13 t, and thus is indicative of the severity of right ventricular dysfunction.
14 ng normothermic blood had less postoperative right ventricular dysfunction (10%) than did patients re
15 ess inotrope use (71% versus 84%, P:=0.002), right ventricular dysfunction (23% versus 41%, P:=0.001)
16 n heavy chain 6, in 2 patients who developed right ventricular dysfunction 3 to 11 years postoperativ
17 m derangements in lung structure or residual right ventricular dysfunction affecting cardiac output.
18 ormed before the development of irreversible right ventricular dysfunction and an increased risk of v
20 y was to further explore the significance of right ventricular dysfunction and investigate potential
21 oscillatory ventilation+15, 15 patients had right ventricular dysfunction and nine had right ventric
22 ted plasma levels of MBG are associated with right ventricular dysfunction and predict worse long-ter
24 icular diameter ratio on CT as indicators of right ventricular dysfunction and reported that recurren
25 Preoperative echocardiography, in particular right ventricular dysfunction and restrictive left ventr
26 an inherited cardiomyopathy characterized by right ventricular dysfunction and ventricular arrhythmia
27 an inherited cardiomyopathy characterized by right ventricular dysfunction and ventricular arrhythmia
28 is a rare inherited disease characterized by right-ventricular dysfunction and ventricular arrhythmia
29 /kg, left ventricular ejection fraction<50%, right ventricular dysfunction, and heart rate/respirator
30 gical abnormalities, markers of end-organ or right ventricular dysfunction, and lack of inotropic sup
31 ercise intolerance, atrial tachyarrhythmias, right ventricular dysfunction, and pulmonary hypertensio
32 of 938 patients with pulmonary embolism had right ventricular dysfunction, as assessed by measuremen
33 , 2.96; 95% confidence interval, 1.59-5.49), right ventricular dysfunction, as evidenced by fractiona
36 pulmonary hypertension, may result in severe right ventricular dysfunction caused by lung disease, al
37 embolism and concomitant moderate to severe right ventricular dysfunction despite preserved systemic
38 ing can be useful in diagnosing and treating right ventricular dysfunction, especially when associate
39 goal-directed echocardiography in diagnosing right ventricular dysfunction in acute pulmonary embolis
40 intensivists' interpretations for evaluating right ventricular dysfunction in acute pulmonary embolis
42 inants of hypoplastic left heart with latent right ventricular dysfunction in individuals with a Font
44 Echocardiography revealed similar degrees of right ventricular dysfunction in the 2 groups, whereas a
45 versus 61+/-7 and 61+/-7 mm, P<0.0001), more right ventricular dysfunction, increased epicardial fat
48 of tricuspid regurgitation in the setting of right ventricular dysfunction is associated with poor pr
49 pulmonary embolism using imaging presence of right ventricular dysfunction is essential for triage; h
50 pulmonary arterial pressure and resistance, right ventricular dysfunction, left ventricular compress
51 demonstrated increased pulmonary pressures, right ventricular dysfunction (mid strain 16+/-5% versus
55 ort class, use of multiple inotropes, severe right ventricular dysfunction on echocardiography, ratio
58 tion (P<0.01), pulmonary hypertension and/or right ventricular dysfunction (P=0.01), and regional wal
59 ion (P=0.03), mitral valve surgery (P=0.02), right ventricular dysfunction (P=0.03), and higher mean
60 slightly higher in patients with HF-PH with right ventricular dysfunction, pulmonary vascular remode
62 n of LGE (14+/-11 versus 5+/-5%, P<0.01) and right ventricular dysfunction (right ventricular EF 45+/
63 nical ventilation, nine patients presented a right ventricular dysfunction (right ventricular end-dia
64 function, increased pulmonary pressures, and right ventricular dysfunction (right ventricular mid str
66 Ms A, a 60-year-old woman with acute PE and right ventricular dysfunction (submassive PE), illustrat
67 increased pulmonary vascular resistance, and right ventricular dysfunction that promotes heart failur
68 g those who were hemodynamically stable with right ventricular dysfunction, thrombolytic therapy was
71 ormalities and pulmonary hypertension and/or right ventricular dysfunction, were independently associ
72 ined as echocardiographic evidence of severe right ventricular dysfunction with New York Heart Associ
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