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1  epicardial asynchrony and QRS vector and LV preexcitation.
2 nimal and endocardial AT vector indicated LV preexcitation.
3 penetrant accessory pathways and ventricular preexcitation.
4 rosus was disrupted resulting in ventricular preexcitation.
5 ical abnormalities, particularly ventricular preexcitation.
6 ovide the anatomic substrate for ventricular preexcitation.
7 lar, resynchronization, and left ventricular preexcitation.
8 ry care population with electrocardiographic preexcitation.
9  elucidating the pathogenesis of ventricular preexcitation.
10 hort (75-millisecond) PR interval to achieve preexcitation.
11           We identified 310 individuals with preexcitation (age range, 8-85 years).
12 tatistically significant association between preexcitation and a higher hazard of death.
13 ndicate sinoatrial node dysfunction, whereas preexcitation and atrioventricular block reveal abnormal
14 e for a syndrome associated with ventricular preexcitation and early onset of atrial fibrillation and
15 cular hypertrophy, and exhibited ventricular preexcitation and sinus node dysfunction.
16 were used to show the mechanistic effects of preexcitation and to determine the optimal stimulation s
17 onset (at 8 to 17 years of age), ventricular preexcitation, and asymptomatic elevations of two serum
18 glycogen-storage cardiomyopathy, ventricular preexcitation, and conduction system degeneration.
19 man cardiomyopathy with cardiac hypertrophy, preexcitation, and glycogen deposition.
20 cterized by cardiac hypertrophy, ventricular preexcitation, and glycogen storage.
21 Wolff-Parkinson-White pattern and persistent preexcitation at maximum exercise undergoing invasive ri
22 sible for a familial syndrome of ventricular preexcitation, atrial fibrillation, conduction defects,
23  glycogen storage eliminated the ventricular preexcitation but did not affect the excessive cardiac g
24       Our results also show that ventricular preexcitation can arise from inappropriate patterning of
25  The human phenotype consists of ventricular preexcitation, conduction abnormalities, and cardiac hyp
26 d a higher hazard of death for patients with preexcitation >/=65 years (HR, 1.85; 95% CI, 1.07-3.18).
27 e remainder of the population, patients with preexcitation had higher adjusted hazards of atrial fibr
28    In this large ECG study, individuals with preexcitation had higher hazards of atrial fibrillation
29 lar activation (eg, resulting from pacing or preexcitation in patients with Wolff-Parkinson-White syn
30 y glycogen-engorged myocytes as the cause of preexcitation in Pompe, Danon, and other glycogen storag
31 clinical course of patients with ventricular preexcitation in the ECG originates from tertiary center
32 ertrophy followed by dilatation, ventricular preexcitation involving multiple accessory pathways, and
33                                              Preexcitation is associated with an increased risk of ta
34  was the longest (349+/-6 ms) in the area of preexcitation leading to high average base-to-apex ARI d
35                                              Preexcitation of the left ventricle after myocardial inf
36                                              Preexcitation of the RVOT (n=2) resulted in ECGs that su
37 ional BrS patients, we performed decremental preexcitation of the RVOT before endocardial RV mapping.
38  AP conduction, as demonstrated by recurrent preexcitation or change in retrograde ventriculoatrial a
39                                   Electrical preexcitation pacing with appropriate timing of high-str
40 s with an asymptomatic Wolff-Parkinson-White preexcitation persisting at peak exercise.
41 rated the TG(R302Q) mice to have ventricular preexcitation (PR interval 10+/-2 versus 33+/-5 ms in TG
42                                              Preexcitation reduced regional strain in the short term,
43 t of this risk in patients with asymptomatic preexcitation remain controversial.
44 nd electrocardiograms suggesting ventricular preexcitation revealed four LAMP2 and seven PRKAG2 mutat
45                         ECGI determined that preexcitation sites were consistent with sites of succes
46 ndle-branch block, ventricular paced rhythm, preexcitation syndrome, or previous revascularization wi
47 tein kinase (AMPK) cause cardiomyopathy with preexcitation syndrome.
48 hough the pathology and electrophysiology of preexcitation syndromes are well characterized, the deve
49  study animals were randomized to 8 weeks of preexcitation (therapy) or no pacing (control).
50                         On analysis of ECGs, preexcitation was found in 2 cases.
51 igher hazard of death among individuals with preexcitation when looking across all age groups (HR, 1.
52                                  Ventricular preexcitation, which characterizes Wolff-Parkinson-White
53 Studies reporting asymptomatic patients with preexcitation who did not undergo ablation were included
54 ted members of both families had ventricular preexcitation with conduction abnormalities and cardiac
55 ectrophysiologic abnormalities, particularly preexcitation (Wolff-Parkinson-White syndrome) and atrio

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