David E. Cox scite author profile

Background Retrospective multicenter research using echocardiograms obtained for routine clinical care can be hampered by issues of individual center quality. We sought to evaluate imaging and patient characteristics associated with poorer quality of archived echocardiograms from a cohort of childhood cancer survivors. Methods A single blinded reviewer at a central core laboratory graded quality of clinical echocardiograms from five centers focusing on images to derive 2D and M‐mode fractional shortening (FS), biplane Simpson's ejection fraction (EF), myocardial performance index (MPI), tissue Doppler imaging (TDI)–derived velocities, and global longitudinal strain (GLS). Results Of 535 studies analyzed in 102 subjects from 2004 to 2017, all measures of cardiac function could be assessed in only 7%. While FS by 2D or M‐mode, MPI, and septal E/E′ could be measured in >80% studies, mitral E/E′ was less consistent (69%), but better than EF (52%) and GLS (10%). 66% of studies had ≥1 issue, with technical issues (eg, lung artifact, poor endocardial definition) being the most common (33%). Lack of 2‐ and 3‐chamber views was associated with the performing center. Patient age <5 years had a higher chance of apex cutoff in 4‐chamber views compared with 16‐35 years old. Overall, for any quality issue, earlier era of echo and center were the only significant risk factors. Conclusion Assessment of cardiac function using pooled multicenter archived echocardiograms was significantly limited. Efforts to standardize clinical echocardiographic protocols to include apical 2‐ and 3‐chamber views and TDI will improve the ability to quantitate LV function.

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Myocardial deformation as a predictor of right ventricular pacing‐induced cardiomyopathy in the pediatric population

Dasgupta

Madani

Figueroa

et al. 2019

Cardiovasc electrophysiol

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Introduction: Right ventricular pacing is associated with pacemaker induced cardiomyopathy and lesser degrees of pacing-induced LV dysfunction (PIVD) manifested by a reduction in left ventricular ejection fraction (LVEF). Our objective was to determine whether apical 4 chamber strain (A4C) by echocardiography can identify patients at risk of PIVD before LVEF declines.Methods and Results: A retrospective chart review of patients (0-21 years) who had a pacemaker with a ventricular lead placed between 2011 and 2017 was performed.Patients were divided into group A (LVEF <55% and/or >10% decline in LVEF within 12 months of pacemaker placement) and group B. Data have collected before and 1 and 12 months postpacemaker implantation. There were 30 patients in the group A and 60 in group B. At 1 and 12 months postpacemaker implantation, the LVEF was significantly lower while the A4C and QRS duration on electrocardiogram were significantly higher in the group A. While the LVEF and A4C became markedly abnormal in group A as early as 1 month, the A4C did not seem to demonstrate such marked abnormalities in group B. However, a sub-analysis of patients in the group A with preserved LVEF at 1 month demonstrated significant worsening in their A4C at that time.Conclusion: Myocardial deformation imaging may be a clinically useful tool for the prediction of a decline in LV systolic function following pacemaker implantation.Abnormalities in A4C seem to appear before LVEF decline and as soon as 1-month postpacemaker implantation. K E Y W O R D S cardiomyopathy, deformation, dysfunction, electrocardiogram, pacemaker, pediatric

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David E. Cox

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Challenges associated with retrospective analysis of left ventricular function using clinical echocardiograms from a multicenter research study

Myocardial deformation as a predictor of right ventricular pacing‐induced cardiomyopathy in the pediatric population

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